Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP 0T00246AO03400510001-7 Y Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION WASHINGTON 25. D.C. February 3, 1958 Mr. E. N. Holmgreen, Director Office of Food and Agriculture International Cooperation Administration Washington 25, D. C. My dear Mr. Holmgreen: Under the general provisions of the Special Project Agreement between the Bureau of Reclamation and the Foreign Opera- tions Administration for Technical Assistance in Water Resources Development, Lebanon, signed September 1, 19514, the Bureau of Reclamation has prepared the attached report on the Nahr el Kelb Basin, Lebanon. This report covers a water resources reconnaissance of the Nahr el Kelb Basin in northeastern Lebanon and indicates the water and land resources potentialities of that basin. The data on which this report is based are purely of a reconnaissance nature, and are only indicative of the actual conditions existing in this river basin. We wish to emphasize the recommendation in the report that the collection of much additional physical data must be under- taken as a part of a detailed investigation before any construction on a definite development plan can be undertaken. This report is the sixth of nine such basin reports to be completed under this agreement. Additional reports will be transmitted at a later date. Sincerely yours In duplicate Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 Prepared By United States Department of the Interior Bureau of Reclamation International Cooperation Administration Water Resources Investigations NAHR EL KELB BASIN LEBANON Natural Resources Division United States Operations Mission to Lebanon Beirut, Lebanon May, 1956 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 This reconnaissance report describes the investigations made, the data collected, the conclusions drawn, and the recommendations made with regard to the development of the water resources of the Nahr el Kelb Basin in Central Lebanon about 11 kilometers northeast of Beirut. The basin contains about 260 square kilometers and extends from the crest of the Lebanon Mountains to the Mediterranean Sea. Elevations in this basin vary from about 2, 630 meters to sea level. Outcrops of Cretaceous and Jurassic age predominate throughout the basin. These have been extensively folded and faulted. Many springs occur and produce most of the streamflow, particularly during the dry season. Water from such springs in the mountain section has been partly developed for village water supply and for terrace irrigation. Water is diverted from the river to irrigate about 120 hectares of fertile land- in the coastal section north and south of the river and for a domestic water supply for the city of Beirut. Expansion of the coastal irrigation system is impracticable due to the lack of irrigable land. Very meager hydrologic data are available. The development proposed herein has been based upon limited streamflow records. They appear reasonable, but the short periods of measurement are not sufficient for a definite hydrologic study. The study indicates a total surface water discharge of about 250 million cubic meters in an average water year and 121 million cubic meters in a minimum water year at the El Mokhada Gaging Station. Storage at the Mayrouba Reservoir Site would help firm the power pro- duction and furnish additional domestic water for future developments. Existing and expected power production from approved developments, are be- lieved ample for. Lebanon's needs for about 15 years. The power development proposed consists of 5 hydroelectric plants and one thermal plant. The hydro plants would have an installed capacity of 103, 200 kilowatts and the thermal plants, 65, 000 kilowatts. Es- timated salable energy production in an average water year would be about 274 million kilowatt-hours from the hydro plants and 371 million from the thermal plant. A 69, 000- volt transmission system to connect these plants to Beirut, and a 35, 000-volt system to provide power for the local area, are proposed; however, final determination of the trans- mission system voltage levels should be made in future detailed studies. The total es- timated cost of the power development is LL. 134, 000, 000, and the estimated annual cost would be LL. 18, 551, 000. Power benefits as measured by the annual cost of the cheapest alternative source of power is LL. 21, 900, 000. Comparison with the estimated annual cost shows a benefit-cost ratio of 1. 2 to 1 for the proposed power development. Assuming a market for all energy produced, and a rate of five piasters per kilowatt- hour, expected revenue from power production in an average water year would be LL. 32, 250, 000. 1. The plan proposed herein for the rehabilitation of the existing irrigation system, development of the power production, and expansion of the do- mestic water supply be adopted by the Government of Lebanon as a preliminary plan for the development of the water resources of the Nahr el Kelb Basin; 2. Detailed investigations, including the collection of 10 years of additional hydrologic data, additional surveys, geologic data, extensive foundation investigations of the Mayrouba Reservoir Site, comparative preliminary designs for Mayrouba Dam, power market studies, repayment analyses, and additional data on all phases of the proposed power development, be undertaken and completed before final design and construction of the pro- posed power development be undertaken; Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 3. The additional power development proposed herein for the Nahr el Kelb Basin be studied in detail for construction as soon as market conditions warrant and sufficient data are available as a result of the detailed proj- ect investigations proposed herein, provided that no other major power developments, other than that of the Litani River Project, are authorized before the Nahr el Kelb development; 4. Final determination of the transmission system voltage levels should be left to future detailed transmission studies of the entire country, which should include consideration of all the potential hydroelectric developments. The Ministry of Public Works expedite their development program for village water supply and that it be expanded to include all of those villages in the Nahr el Kelb Basin whose present water supply is inadequate. The Govern- ment of Lebanon establish a program to educate and train water users in the proper use of irrigation water and modern agricultural practices. Following are tabulations of "Pertinent Data Proposed Hydroelectric Power Development Nahr el Kelb Basin. " PERTINENT DATA - PROPOSED HYDROELECTRIC POWER DEVELOPMENT - NAHR EL KELB BASIN Feature Har oun Unit Mayrouba Unit Qlayaat Unit Balloune Unit Jeita Unit Darn and Reservoir (5 dams) Crest Elevation 1521-1632m. 1, 217 m. 795 in. 363 in. 60 m. Storage Capacity Nil 20x106 m3 Nil 150, OOOm3 Nil Tunnel Free-flow Free-flow Free-flow Free-flow -- Diameter 2. 0 in. 2.2 m. 2. 2 m. 2.2 in. -- Length 250 in. 1, 900m. 2, 300m. 2, 500m. -- Conduit Diameter -- -- -- 2. 2 in. -- Length -- -- -- 2, 500m. -- Canal Capacity 1. 5-4 m3/s 10 m3/s -- -- 15 m3/s Length 9, 620m. 3, 200m. -- -- 1, 900m. Penstock Diameter 1. 1 M. 1. 8 m. 1. 8 in. 1. 9 in. 2.2 in. Length 1, 400m. 800 m. 1, .180m. 820 in. 125 in. Power Plant Cross Head 296 in. 362 in. 422 in. 270 in. 36 m. Turbines Impulse Impulse Impulse Impulse Reaction Generators 1-10, 000kw. 2-14, 500kw. 2-17, 000kw. 2-13, 000kw. 1-4, 200kw. Total Capacity 10, 000 kw. 29, 000kw. 34, 000kw. 26, 000kw. 4, 200kw. Annual Generation 33 54 68 100 19 (million kwh.) Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TRANSLITERATION Certain inconsistencies in the spelling of place names may be noted on maps and in the text. Difficulties in transliterating Arabic words into exact French or English equivalents have resulted in a wide variation of spellings on the original maps and docu- ments used for this report. Generally, the spelling used in this report, is that shown on the topographic quadrangle sheets prepared by the Institut Geographie National, Ministere Des Travaux Publics et Des Transports, Paris, France. It should be noted, however, that the phonetic pronunciation of names is similar regardless of the spelling. Other inconsistencies occur in the use of certain Arabic words which are often retained in the French and English versions of proper names. For instance, the word "Nahr" is the Arabic word for "river, " "Jebel" or "Jabal" is "mountain, " "Ain" is "spring, " "Nabaa" is "source, " etc. Local usage has often dictated the use of certain of those Arabic words on maps and in the text. CONVERSION FACTORS This report has been prepared primarily for use in Lebanon where units of measure are in the metric system. Therefore, metric units and Lebanese currency units have been used throughout this report. The following conversion factors are shown for the convenience of the reader: 1 meter (m) = 39. 37 inches = 3. 281 feet 1 kilometer (km) = 0. 621 miles 1 square meter (m2) = 10. 76 square feet 1 hectare (ha) = 10, 000 square meters = 2. 47 acres 1 cubic: meter (m3) = 1, 000 liters = 35. 315 cubic feet 1 liter a) = 0, 264 gallons 1 million cubic meters (m3 x 106) = 810. 7 acre-feet 1 kilogram (kg) = 2. 205 pounds 1 Pound Lebanese (LL. ) = 100 Piasters Lebanes (PL.) = 0. 310 Dollars U. S. 1 Dollar U. S. ($) = 3. 22 Pounds Lebanese (Exchange rate April 30, 1956). Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 Page SUMMARY . . . . . . . . . TRANSLITERATION . . . . . . . . . . . . . . . . . . . . . . . . . iii CONVERSION FACTORS . . . . . . . . . . . . . . . . . . . . . . . TABLE OF CONTENTS . . . . . . . . . . . . . . . . . . . . . . . iv LIST OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . ix LIST OF PLATES . . . . . . . . . . . . . . . . . . . . . . . . . . xii SECTION I - INTRODUCTION . . . . . . . . . . . . . . . . . . . . . I-i Authority and Scope . . . . . . . . . . . . . . . . . . . . . . . I-1 Cooperation and Acknowledgements . . . . . . . . . . . . . . . . 1-2 Previous Studies and Reports . . . . . . . . . . . . . . . . . . 1-2 The United States - Lebanon Agricultural Mission . . . . . . . . 1-2 The Economic Development of Lebanon . . . . . . . . . . . . . 1-3 The United Nations Economic Survey Mission for the Middle East . 1-3 Development Plan for the Litani River Basin . . . . . . . . . . 1-3 Nuclear Power Plants . . . . . . . . . . . . . . . . . . . . . . 1-3 SECTION II - GENERAL DESCRIPTION . . . . . . . . . . . . . . . . II-1 Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . II-1 Basin Description . . . . . . . . . . . . . . . . . . . . . . . . II-1 Physiography . . . . . . . . . . . . . . . . . . . . . . . . . . II-1 Soils . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2 Population . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2 Agriculture . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2 Manufacturing . . . . . . . . . . . . . . . . . . . . . . . . . . 11-2 Electric Power Supply . . . . . . . . . . . . . . . . . . . . . . 11-3 Domestic Water Supply . . . . . . . . . . . . . . . . . . . . . . II-3 SECTION III - HYDROLOGY . . . . . . . . . . . . . . . . . . . . . III-1 Climate . . . . . . . . . . . . . . . . . . . . . . . . . . . . III -1 Wind . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . III -1 Temperature . . . . . . . . . . . . . . . . . . . . . . . . III-1 Humidity . . . . . . . . . . . . . . . . . . . . . . . . . . . III -1 Precipitation . . . . . . . . . . . . . . . . . . . . . . . . . . 111-2 Evaporation . . . . . . . . . . . . . . . . . . . . . . . . . . . 111-2 Stream Flow . . . . . . . . . . . . . . . . . . . . . . . . . . 111-3 Average Year Discharges . . . . . . . . . . . . . . . . . . . . . 111-3 Minimum Year Discharges . . . . . . . . . . . . . . . . . . . . 111-4 Areal Flow Distribution . . . . . . . . . . . . . . . . . . . . . 111-4 Available Irrigation Water . . . . . . . . . . . . . . . . . . . . 111-5 Water Used for Power Production . . . . . . . . . . . . . . . . . 111-7 Water for Domestic Water Supply . . . . . . . . . . . . . . . . . 111-7 Estimated Flows for Power Production . . . . . . . . . . . . . . . 111-7 Sites Selected . . . . . . . . . . . . . . . . . . . . . . . . 111-7 Available Water in a Minimum Year . . . . . . . . . . . . . . 111-8 Available Water in an Average Year . . . . . . . . . . . . . . 111-8 Inflow Spillway Design Flood - Mayrouba Reservoir . . . . . . . . . 111-8 Unitgraph Derivation . . . . . . . . . . . . . . . . . . . . . 111-8 Design Storm . . . . . . . . . . . . . . . . . . . . . . . . III-9 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE OF CONTENTS (Continued) Page Retention Rates . . . . . . . . . . . . . . . . . . . . . . . 111 -9 Design Flood Hydrograph . . . . . . . . . . . . . . . . . . . 111-9 Routing Recommendation . . . . . . . . . . . . . . . . . . . III-10 Spillway Design Floods - Diversion Dams . . . . . . . . . . . . . III-10 Diversion During Construction . . . . . . . . . . . . . . . . . . III-11 Maximum Expected Floods . . . . . . . . . . . . . . . . . . . . 111-12 Sedimentation . . . . . . . . . . . . . . . . . . . . . . . . . . III-13 Quality of Water . . . . . . . . . . . . . . . . . . . . . . . . . III-13 Previous Geologic Reports . . . . . . . . . . . . . . . . . . . . IV-1 General Geology of the Area . . . . . . . . . . . . . . . . . . . IV-1 Geological Reconnaissance . . . . . . . . . . . . . . . . . . . . IV-1 Seismology . . . . . . . . . . . . . . . . . . . . . . . . . . . IV-2 Ground Water . . . . . . . . . . . . . . . . . . . . . . . . . . IV -2 Nahr el Keib Basin Springs . . . . . . . . . . . . . . . . . . . IV-3 Nabaa el Aassel . . . . . . . . . . . . . . . . . . . . . . . IV-3 Nabaa el Leben . . . . . . . . . . . . . . . . . . . . . . . IV-3 Nabaa el Kana and Nabaa el Mogharah . . . . . . . . . . . . . IV-4 Ain el Souane and Ain el Tannour . . . . . . . . . . . . . . . IV-4 Nabaa Sannine . . . . . . . . . . . . . . . . . . . . . . IV-4 Nabaa el Membourkh . . . . . . . . . . . . . . . . . . . . IV-4 Anna Bakich Group . . . . . . . . . . . . . . . . . . . . . IV-5 Nabaa Jafer . . . . . . . . . . . . . . . . . . . . . . . . . IV-5 Nabaa el Jozat . . . . . . . . . . . . . . . . . . . . . . . . IV-5 Nabaa es Sakie . . . . . . . . . . . . . . . . . . . . . . . IV-5 Nabaa el Rhabate . . . . . . . . . . . . . . . . . . . . . . IV-5 Jeita Spring . . . . . . . . . . . . . . . . . . . . . . . . IV-5 Proposed Nahr el Kelb Development . . . . . . . . . . . . . . . . IV-6 Hardoun Unit . . . . . . IV-6 Fakra Diversion Dam and Canal Sites . . . .. . . . . . . . IV-6 Nahr el Leben Diversion Dam Site . . . . . . . . . . . . . IV-6 El Leben Conduit Site . . . . . . . . . . . . . . . . . . IV-6 El Aassel Diversion Dam Site . . . . . . . . . . . . . . . IV-6 El Aassel Conduit Site . . . . . . . . . . . . . . . . . . IV-6 Chabrouka Diversion Dam Site . . . . . . . . . . . . . IV-7 Chabrouka Conduit Site . . . . . . . . . . . . . . . . . . IV-7 Hardoun Conduit Site . . . . . . . . . . . . . . . . . . . IV-7 Hardoun Penstock and Power Plant Sites . . . . . . . . . . IV-7 Mayrouba Unit . . . . . . . . . . . . . . . . . . . . . . . . IV-7 Mayrouba Dam and Reservoir Site . . . . . . . . . . . . . IV-7 Mayrouba Tunnel Site . . . . . . . . . . . . . . . . . . IV-9 Mayrouba Penstock and Power Plant Sites . . . . . . . . . IV-9 Qlayaat Unit . . . . . . . . . . . . . . . . . . . . . . . IV-9 Qlayaat Diversion Dam Site . . . . . . . . . . . . . . . IV-9 Qlayaat Tunnel Site . . . . . . . . . . . . . . . . . . . IV-9 Qlayaat Penstock and Power Plant Sites . . . . . . . . . . IV-10 Bal ioune Unit . . . . . . . . . . . . . . . . . . . . . . . . IV-10 Balloune Diversion Dam Site . . . . . . . . . . . . . . . IV-10 Balloune Tunnel and Conduits Sites . . . . . . . . . . . IV-10 Balloune Penstock and Power Plant Sites . . . . . . . . . . IV-10 Jeita Unit . . . . . . . . . . IV-10 Jeita Diversion Dam Site . . . . . IV-11 Hrach Flume and Jeita Conduit Sites . . . . . . . . . . . . IV-11 Jeita Penstock and Power Plant Sites . . . . . . . . . . . IV-11 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 TABLE OF CONTENTS (Continued) Page SECTION V - IRRIGATION DEVELOPMENT . . . . . . . . . . . . . . V-1 Existing Irrigation Development - Coastal Area . . . . . . . . V-1 El Wata Canal . . . . . . . . . . . . . . . . . . . . . . V-1 Dbaiye Canal . . . . . . . . . . . . . . . . . . . . . . . . V-2 Project Operation . . . . . . . . . . . . . . . . . . . . . V-2 Existing Irrigation Development - Mountain Area . . . . . . . . . . V-2 Proposed Irrigation Development . . . . . . . . . . . . . . . . . V-3 SECTION VI - POWER DEVELOPMENT . . . . . . . . . . . . . . VI-1 General . . . . . . . . . . . . . . . . . . . . . . . . . . VI-1 Existing Power Development . . . . . . . . . . . . . . . VI-1 Prior Power Development Schemes . . . . . . . . . . . . . VI-2 Proposed Power Development . . . . . . . . . . . . . . . . . . VI-2 Hardoun Unit . . . . . . . . . . . . . . . . . . . . . . VI-2 Mayrouba Dam and Reservoir . . . . . . . . . . . . . . VI-4 Mayrouba Unit . . . . . . . . . . . . . . . . . . VI-5 Qlayaat Unit . . . . . . . . . . . . . . . . . . . . . . . . . VI-6 Balloune Unit . . . . . . . . . . . . . . . . . . . . . . . VI-8 Jeita Unit . Vi-9 Capabilities of the Hydroelectric Development . . . . . . . . . . . VI-11 Nahr el Kelb Thermal Power . . . . . . . . . . . . . . . . VI-12 Hydro Thermal Operation . . . . . . . . . . . . . . . VI-13 Transmission System . . . . . . . . . . . . . . . . . VI-14 Power Market Study - Load Area I . . . . . . . . . . . . . . . . VI-15 Sequence of Development . . . . . . . . . . . . . . . . . . . VI-15 Estimated Power Revenues . . . . . . . . . . . . . . . . . . . . VI-16 SECTION VII - DOMESTIC WATER SUPPLY . . . . . . . . . . . . . . VII-1 Existing Village Water Supply Systems . . . . . . . . . . . . . . . VII-1 Nabaa el Aassel Water System - Kesrouan District . . . . . . . VII-1 Nabaa el Aassel - Nabaa Membourkh Water System - Meten District . . . . . . . . . . . . . . . . . . . . . . . VII-1 Nabaa el Jozat Water System - Meten District . . . . . . . . . VII-2 Jeita Spring Water System . . . . . . . . . . . . . . . . VII -2 Development Plans . . . . . . . . . . . . . . . . . . . VII-3 System "A" - Source Nabaa el Aassel . . . . . . . . . . VII-3 System "B" - Sources Nabaa el Aassel, Nabaa Membourkh, Nabaa el Jamajeme and Jeita Spring . . . . . . . . . . . . . VII-4 System "C" - Source Nabaa el Jozat . . . . . . . . . . . VII-4 System "D" - Source Jeita Spring - Beirut Water Supply . . . . . . . . . . . . . . . . . . . . . VII-4 Technical Assistance Program . . . . . . . . . . . . . . . . . . VII-5 SECTION VIII - COSTS AND BENEFITS . . . . . . . . . . . . . . . . VIII-1 Construction Costs . . . . . . . . . . . . . . . . . . . . . . VIII-1 Operation and Maintenance Costs . . . . . . . . . . . . . . . . . VIII-3 Interest, Amortization, Insurance, and Replacement Cpsts. . . . . . VIII-4 Evaluation of Existing Development . . . . . . . . . . . . . . VIII-5 Power Benefits and Costs . . . . . . . . . . . . . . . . . . . . . VIII-5 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 Page SECTION IX - ADDITIONAL INVESTIGATIONS NECESSARY . . . . . . . IX-1 Mapping Program . . . . . . . . . . . . . . . . . . . . . . . . IX-1 Hydrologic Data Collection . . . . . . . . . . . . . . . . . . . . IX-2 Analysis of Hydrologic Data . . . . . . . . . . . . . . . . . . . . IX-2 Geologic Exploration . . . . . . . . . . . . . . . . . . . . . . . IX-2 Mayrouba Dam and Reservoir Sites . . . . . . . . . . . . . . IX-2 General Statement . . . . . . . . . . . . . . . . . . . . . . IX-3 El Leben Conduit . . . . . . . . . . . . . . . . . . . . IX-3 Jeita Unit . . . . . . . . . . . . . . . . . . . . . . . . IX-3 Power System Operations . . . . . . . . . . . . . . . . . . . . . IX-3 Domestic Water Supply . . . . . . . . . . . . . . . . . . . . . IX-4 Costs and Benefits . . . . . . . . . . . . . . . . . . . . . . . . IX-4 Conclusions . . . . . . . . . . . . . . . . . . . . . . . . . . X-1 Recommendations . . . . . . . . . . . . . . . . . . . . . . . . X-1 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Description of Power Supply Facilities Past and Present Production . . . . . . . . . . . . . . . . . Present Load Characteristics . . . . . . . . . . . . . . . . . Present Power Production Costs . . . . . . . . . . . . . . . Present Electricity Rates . . . . . . . . . . . . . . . . . . . Future Power Requirements . . . . . . . . . . . . . . . . . . . Factors Influencing Future Load Development. . . . . . . . . . Future Load Growth . . . . . . . . . . . . . . . . . . . . . Characteristics of the Future Load . . . . . . . . . . . . . . Retirement of Existing Power Facilities . . . . . . . . . . . . Future Reserve Capacity . . . . . . . . . . . . . . . . . . . Power Facilities Under Construction . . . . . . . . . . . . . A-1 A -2 A-3 A -4 A -4 A -5 A-5 A-6 A-9 A-10 A-il A-12 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Table Number Title Page 111- 1 Temperature Extremes - Beirut, Lebanon . . . . . . . . Follows III-1 111-2 Average Monthly Temperatures - Beirut, Lebanon . . . . Follows 111- 1 111-3 Relative Humidity - American University Observatory . . . . . . . . . . . . . . . . . . . . . Follows III-1 111-4 Precipitation Records . . . . . . . . . . . . . . . . . Follows 111-2 111-5 Monthly Precipitation - Qlayaat, Lebanon . . . . . . . . Follows 111-2 111-6 Monthly Precipitation - Bikfaya, Lebanon . . . . . . . . Follows 111-2 111-7 Monthly Precipitation - Qornet Chahouane, Lebanon. . . . Follows 111-2 111-8 Average Monthly Reservoir Evaporation . . . . . . . . . Follows III-2 111-9 Monthly Discharges, Nahr el Kelb at El Mokhada . . . . . Follows III-2 III-10 Discharge Measurements, Nahr el Kelb at El Mokhada . . . . . . . . . . . . . . . . . . . . . . Follows Ill -2 III-11 Daily Discharges of Nahr el Kelb at El Mokhada, Lebanon, Calendar Years 1949 through 1955, (7 sheets) . . . . . . . . . . . . . . . . . . . . . . Follows III-2 111-12 Monthly Discharges - Average Year, Nahr el Kelb at El Mokhada . . . . . . . . . . . . . . . . . . Follows III-2 111-13 Monthly Discharges - Minimum Year, Nahr el Kelb at El Mokhada . . . . . . . . . . . . . . . . . . . . Follows III-3 111-14 Miscellaneous "Discharge Measurements, Nahr el Kelb Basin . . . . . . . . . . . . . . . . . . . . . Follows 111-4 111-15 Estimated Monthly Discharges of Jeita Spring and Seepage Between Jeita Spring and El Mokhada Gaging Station . . . . . . . . . . . . . . . . . . . . Follows 111-4 111-16 Estimated Monthly Diversions into El Wata Irrigation Canal . . . . . . . . . . . . . . . . . . . Follows 111-5 111-17 Estimated Monthly Diversions into Irrigation and Municipal Water Supply Systems, Upper Nahr el Kelb Basin . . . . . . . . . . . . . . . . . . . . . Follows III-6 111-18 Available Water at Diversion Dam Sites - Minimum Year . . . . . . . . . . . . . . . . . . . . Follows 111-8 111-19 Available Water at Diversion Dam Sites - Average Year . . . . . . . . . . . . . . . . . . . . Follows III-8 111-20 Diversion Requirements During Construction . . . . . . . Follows III-10 111-21 Maximum Recorded Stream Flow - Southern California Streams . . . . . . . . . . . . . . . . . . Follows III-11 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Table Number Title Page III-22 Maximum Expected Floods at Darn Sites . . . . . . . . . Follows 111-12 III-23 Quality of Surface Water - Analysis for Nahr el Kelh Basin . . . . . . . . . . . . . . . . . . . . . Follows 111-13 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Plate Drawing Follows Number Title Number Page I-1 General Location Map - Nahr el Kelb Basin . . . . . OA-10-864 II-1 II-1 General Map - Nahr el Kelb Basin . . . . . . . . . OA-10-846 Ii-1 11-2 Condensed Profile - Nahr el Kelb . . . . . . . . . . OA-10-847 II-1 III-1 Hydraulic Stations - Nahr el Kelb Basin . . . . . . . OA-10-862 111-2 111-2 Stage-Discharge Rating Curve - El Mokhada Gage - Nahr el Kelb . . . . . . . . . . . OA-10-861 111-2 111-3 Dimensionless Graph - Mayrouba Dam Site - Nahr el Kelb . . . . . . . . . . . . . . . . . . OA-10-849 111-9 111-4 Lag Relationship Curves - Southern California Streams . . . . . . . . . . . . . . . . . . . . OA-10-559 111-9 111-5 15-Minute Unit Hydrograph - Mayrouba Dam Site - Nahr es Salib - Nahr el Kelb Basin . . . . . . . . OA-10-859 111-9 111-6 Depth Duration Curve - Spillway Design Storm - Nahr el Kelb Basin . . . . . . . . . . . . OA-10-863 111-9 111-7 Inflow Spillway Design Flood - Mayrouba Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . OA-10-860 111-9 111-8 Mean Flood Flows - Coastal Lebanon . . . . . . . . OA-10-554 III-10 111-9 Flood Frequency - Jeita Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-850 III-11 I11-10 Flood Frequency - Balloune Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-851 III-11 111- 11 Flood Frequency - Qlayaat Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-852 III-11 III-12 Flood Frequency - Mayrouba Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-853 III-11 III-13 Flood Frequency - Hardoun Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-854 III-11 111-14 Flood Frequency - Chabrouka Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . OA-10-855 III-11 III__ 15 Flood Frequency - El Aassel Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . OA-10-856 III-11 III-16 Flood Frequency - El Leben Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . OA-10-857 III-11 111-17 Flood Frequency - Fakra Diversion Dam Site - Nahr el Kelb Basin . . . . . . . . . . . . . . . . OA-10-858 III-11 :1I1-11 Coastal Section - Lebanon - Maximum Peak Flows . . . . . . . . . . . . . . . . . . . . . OA-10-552 111-12 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Plate Drawing Follows Number Title Number Page III-19 Coastal Section - Lebanon - Maximum Flood Volumes . . . . . . . . . . . . . . . . . . . . OA-10-553 111-12 IV-1 Geologic Reconnaissance - Nahr el Kelb Valley . . . . . . . . . . . . . . . . . . . . . OA-10-865 IV-2 IV-2 Geologic Reconnaissance - Nahr el Kelb Valley . . . . . . . . . . . . . . . . . . . . . OA-10-866 IV-2 IV-3 Geologic Profile - Mayrouba Dam Site - Nahr es Salib . . . . . . . . . . . . . . . . . . . . . OA-10-868 IV-2 V-1 Existing Irrigation System - Nahr el Kelb . . . . . . OA-10-848 V-1 VI-1 Existing Power Development - Nahr el Kelb . . . . . OA-10-867 VI-2 VI-2 Proposed Power Development - Nahr el Kelb Basin - Plan . . . . . . . . . . . . . . . . OA-10-870 VI-4 VI-3 Proposed Power Development - Nahr el Kelb Basin - Profile . . . . . . . . . . . . . . . OA-10-873 VI-4 VI-4 Qlayaat Diversion Dam - General Plan and Section - Nahr el Kelb Basin . . . . . . . . . . . OA-10-875 VI-5 VI-5 Transmission System - Load Area I - Nahr el Kelb Development . . . . . . . . . . . . OA-10-874 VI-14 VI-6 Proposed Transmission System - Single Line Diagram - Nahr el Kelb Basin. . . . . . . . . . . OA-10-872 VI-14 VI-7 Power Load Areas - Republic of Lebanon . . . . . . OA-10-551 VI-14 VII-1 Existing Distribution System - Domestic Water Supply - Nahr el Kelb Basin. . . . . . . . . . . . OA-10-869 VII-1 VII-2 Proposed Distribution System - Domestic Water Supply - Nahr el Kelb Basin. . . . . . . . . . . . OA-10-871 VII-4 VIII-1 Cost Estimating Data - Hydroelectric Power Plants . . . . . . . . . . . . . . . . . . OA-10-556 VIII-2 VIII-2 Cost Estimating Data - Thermal-Electric Power Plants . . . . . . . . . . . . . . . . . OA-10-557 VIII-2 VIII-3 Capacity and Energy Costs - Thermal Electric Power Plants . . . . . . . . . . . . . . OA-10-558 VIII-5 APPENDIX A-1 Location of Power Plants Serving Load Area 1 . . . . OA-10-568 A-1 A-2 Beirut Interconnected Load Area - Power and Energy Generation - 1950-1951 . . . . . . . . . . OA-10-566 A-4 A-3 Load Characteristics - Area I - Typical December Daily Load Diagram . . . . . . . . . . OA-10-560 A-4 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Plate Drawing Follows Number Title Number Page A-4 Estimated Future Electrical Energy Require- ments - Load Area I - Lebanon . . . . . . . . . . OA-10-561 A-6 A-5 Future Energy Requirements - Republic of Lebanon . . . . . . . . . . . . . . . . . . . . OA-10-550 A-6 A-6 Future Electrical Energy Requirements for Industries in Lebanon . . . . . . . . . . . . . . . OA-10-562 A-7 A-7 Area I - Estimated Future Electrical Energy Requirements . . . . . . . . . . . . . . . . . . OA-10-567 A-8 A-8 Future Load Characteristics - Load Duration and Peak Percent Curves - March Conditions - 1965-1975 . . . . . . . . . . . . . . . . . . . OA-10-563 A-10 A-9 Future Load Characteristics - Load Duration and Peak Percent Curves - December Con- ditions - 1965-1975 . . . . . . . . . . . . . . . . OA-10-564 A-10 A-10 Future Load Characteristics - Monthly Distri- bution - 6% Annual Load Growth . . . . . . . . . . OA-10-565 A-10 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 This water resource reconnaissance investigation of the Nahr el Kelb Basin has been made at the request of the Ministry of Public Works for Lebanon. The purpose of this investigation was to determine the potentialities for development of the water re- sources of this basin. A tentative plan for the development of such resources has been formulated. The results of this investigation and the details of the proposed plan are discussed in this report. This investigation has disclosed that very meager physical data are available upon which to base a plan for the development of this basin. Therefore, the plan pro- posed herein has been based upon a number of basic assumptions since actual data were not available. These assumptions must be substantiated, or modified, by more detailed investigations before the execution of the proposed plan is undertaken. However, this plan is presented to serve as a framework upon which additional investigations may be based. It is intended primarily as an indication of the potentialities for water develop- ment in this basin and as a guide to the planning of the future investigations required. Future investigations should include the collection and analysis of adequate hy- drologic data; detailed topographic mapping of critical areas; geologic exploration at sites proposed for major development structures; and the expansion of the domestic water supply program for Beirut and all other towns and villages in the area. These proposed investigations are discussed in detail in Section IX - ADDITIONAL INVESTIGA- TIONS NECESSARY. Authority and Scope A project agreement between the United States of America Operations Mission to Lebanon and the Ministry of Public Works for Lebanon was signed on October 1, 1953 and amended June 10, 1954. A new project agreement covering this same project was signed March 31, 1955. This agreement provided a joint technical cooperation project in the field of Water Resources Development Planning and was requested by the Ministry of Public Works by letter dated March 7, 1953. The agreement authorized joint action for reconnaissance investigations and reports on the water resource potentialities of Lebanon, other than the water resources potentialities included in the Litani River In- vestigation Report. The plan of action authorized in this project agreement, as amended, limited these studies to preliminary hydrologic investigations, including stream gaging; recon- naissance-type field surveys, including land classification; geologic investigations; and a review of existing plans, proposals, and projects. Reconnaissance reports will be prepared for each major stream, or river basin, selected jointly for investigation by the Project Engineer of the Operations Mission to Lebanon Special Project, and the Di- rector General of the Ministry of Public Works. The Director General, by letter of January 20, 1954, proposed that the following eleven river basins in Lebanon be included in this reconnaissance investigation, and these have been jointly agreed to by both agencies: Nahr el Bared Nahr Abou Ali Nahr Ostouene Nahr el Kelb Nahr el Assi Nahr Beirut Nahr Ibrahim Nahr el Kebir Nahr Arka Nahr Damour Nahr el Awali The general locations of these eleven rivers are shown on Plate I-1. A recon- naissance report to cover the potential water resources in each of these basins has been requested by the Ministry of Public Works. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 The 1956 Project Agreement, signed April 26, 1956, deleted the originally pro- posed reconnaissance investigations for the Nahr el Kebir and Nahr el Awali Basins. The Nahr el Kebir forming the North boundary of Lebanon between Lebanon and Syria, is an international stream. Th9refore, a basin report cannot be completed on this stream without the cooperation of the Government of Syria. An agreement between the two coun- tries on the division of the water has not been reached. A separate report for the Nahr el Awali Basin is not deemed necessary as de- velopment of this stream was included in the "Litani River Basin Development Plan" which was officially presented to the Government of Lebanon in July 1954. This report describes the investigations made, the data collected, the conclu- sions drawn, and the recommendations made, regarding the water resource potential of the Nahr el Kelb Basin. The general area included in this basin is shown on Plate I-1 and its detailed description in Section II - GENERAL DESCRIPTION. Cooperation and Acknowledgements The Ministry of Public Works for Lebanon has been jointly responsible for this investigation and report, and has contributed funds and personnel to assist in its execu- tion and completion. Mr. Ibrahim Abd-el Al, Director General of Concessions and Representative of the Ministry of Public Works, and his staff, have cooperated with the Operations Mission to Lebanon. Their assistance is greatly appreciated. Other agencies of the Lebanese Government have also contributed information and data used in this in- vestigation. The United States Embassy in Beirut and the United States Operations Mission to Lebanon have made available personnel and facilities needed to assist in carrying out these investigations. Most of the United States personnel responsible for.these investigations and report were employees of the Bureau of Reclamation, United States Department of the Interior, who were assigned to the United States Operations Mission to Lebanon - Special Project for this work. Other United States personnel engaged in this work were Inter- national Cooperation Administration employees. Able assistance was given by Lebanese engineers and technicians on various phases of the work. The power companies in Lebanon have supplied valuable statistical and engineer- ing data that have been incorporated into the power market and power resource investiga- tions that were made as a part of the Litani River Investigations. These data have pro- vided much source material for this report. Previous Studies and Reports A number of missions, consulting firms, and individuals have made investiga- tions and studies relating to the problems involved in the development of the natural re- sources of Lebanon. The reports of such groups have generally been available for use in this investigation and have been most useful in furnishing background material and basic data. Credit has been given wherever possible when such material has been utilized. The following is a brief description of the principal source reports with footnote designa- dons as used throughout this report: The United States - Lebanon Agricultural Mission. 1 / This mission was organized jointly in T 46 by tfie rut'e3 ates erartments o fate and Agriculture, at the request of the Lebanese Government. Its assignment was to assist Lebanon on problems relating to agricultural development. The report of this mission, after intensive study, included recommendations and suggestions to the Lebanese Government for solving the agricultural problems of Lebanon. 1_/ United States Department of Agriculture - Report of the United States - Lebanon Agricultural Mission - Office of Foreign Agricultural Relations - Wa iington, eptember, 1948. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 The Economic Development of Lebanon.?/ The Government of Lebanon entered into an agreement on December Z'1, 194b with the firm of Sir Alexander Gibb and Part- ners, Consulting Engineers, of London, England, to "investigate and report on the economic development of Lebanon. " The report by this firm contains a study of the economics of Lebanon and recommendations regarding land and water utilization, commu- nications, industry and commerce. It proposed a "Long Term Plan" for the development of the country. The United Nations Economic Survey Mission for the Middle East. 3/ This re- port, in two volumes, dated December 28, 1949, was prepared y an Economic Survey Mission of the United Nations under the chairmanship of Gordon R. Clapp. This Mission was established by the United Nations Conciliation Commission for Palestine to "examine the economic situation in the countries affected by the recent hostilities, and to make recommendations to the Commission for an integrated programme.. . " This Mission secured the services of a staff of experts who made a rapid study of the refugee problem, the economy of the Middle East area, and of various measures which might be undertaken to alleviate some of the economic problems in this area. This Mission reported in part, in connection with its survey of Lebanon, as follows: " .. Complete development of the water resources of the country is essential to the future economy, as it will be the means of increasing agricultural productivity through irrigation, as well as creating opportunities for a greater industrial develop- ment by utilizing low-cost hydroelectric power. " Development Plan for the Litani River Basin. 4/ This report was prepared by the United States Department of the Interior, ureao of Reclamation, for the United States Foreign Operations Administration, at the request of the Lebanese Government, as a part of the Technical Assistance Program to Lebanon. It was presented to the Lebanese Government by the United States Ambassador to Lebanon on July 21, 1954, and subsequently adopted by that Government. This report presents an over-all plan for the development of the water resources of the Litani and Bisri (El Awali) River Basins. It is referred to herein as the Development Plan for the Litani River Basin. It has furnished a considerable amount of basic data used in this report. Nuclear Power Plants In this report it was assumed that modern oil-burning, steam-electric power plants would be used to firm the power produced by the proposed hydroelectric develop- ment. The lack of proven experience, with respect to atomic power plant costs, pro- hibits a rational economic comparison of fossil fuel (oil, coal, etc. ) with nuclear fuel power plants. Until additional cost data becomes available, as a result of actual experi- ence with experimental nuclear power plants in the United States, Great Britain, and elsewhere, it is impractical at this time to make any comparative cost estimates of atomic and conventional power plants in Lebanon. Although nuclear fuels have a very high concentration of energy per unit weight, which greatly reduces the mass of fuel required at the power plant when compared to conventional fuels, the proximity of large petroleum reserves in the Middle East, and the existence of two major petroleum pipeline terminuses in Lebanon, greatly reduces the advantage of low fuel-mass requirements of nuclear power plants. The availability of atomic fuels during emergencies and the reliability of nuclear power during operation are still questionable. Atomic fuel costs are unclear and uncertain, since fuel process- ing costs are unknown. A comparison of fossil and nuclear fuel costs is highly speculative. 2/ Gibb, Sir Alexander, and Partners - The Economic Development of Lebanon - Beirut, Lebanon, 1948. 3/ United Nations - Final Report of the United Nations Economic Survey Mis- sion for the Middle East - Lake Success, New York, Dec. 28, 1949. 4/ United State Bureau of Reclamation - Development Plan for the Litani River Basin - Beirut, Lebanon, June, 1954. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Also, depreciation costs of the reactor portion of atomic power plants are unknown. Rational analyses of nuclear power plant economics, including the determination of fixed charges, operating costs, and fuel costs, must await improved cost estimating techniques based upon proven experience. However, at the time it is necessary to design the ther- mal power plants proposed in this report, sufficient information may be available to per- mit a reasonable study of the economic possibilities of atomic power plants in Lebanon. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 The Nahr el Kelb rises in the western slopes of the Lebanon Mountains and flows generally westward to enter the Mediterranean Sea about 11 kilometers northeast of Beirut, Lebanon. Its drainage basin of about 260 square kilometers, is located in Cen- tral Lebanon between 330 54' and 34? 03' North latitude and 35? 36' and 35? 55' East longitude. This basin is all mountainous and is bordered on the north by the drainage basin of the Nahr Ibrahim; on the east by that of the Nahr Litani; and on the south by the Nahr Beirut Basin. The general location of this basin in Lebanon is shown on Plate I-1, its principal streams and other drainage features on Plate II-1, and its condensed pro- files on Plate 11-2. Basin Description The crest of the Lebanon Mountains forms the east rim of this basin for a dis- tance of about 11 kilometers. The crest elevation of Jabal Sannine, a part of this range, is 2,630 meters. The area drained by this stream is made up of steep-sided mountain ridges of limestone and marl, separated by canyon-type valleys with narrow bottoms and steep profiles. The drainage pattern of the Nahr el Kelb is essentially dendritic with the main river forming the stem and the Nahr es Salib, Nahr es Samm, Nahr Hassen and Ouadi Hardoun forming the veins of the leaf. Physiography The Lebanon Mountains form the eastern boundary for the Nahr el Kelb Basin and separate it from the Nahr Litani Basin. The mountainous section of the Kelb Basin is made up of numerous ridges, or spurs, extending westward from the main crest line. Between these ridges, the Nahr el Kelb and its tributaries have carved deep valleys and narrow gorges. There is very little level, or near level, land in this basin. The central part is underlain by the Jurassic series which has been elevated from sea level to its present position since Mesozoic time and is generally known as the Jurassic horst. Bordering this area, is a zone of Cretaceous formations and near the sea are Tertiary deposits. Lava masses have extruded through faults and fissures around the edge of the Jurassic horst. Much of this igneous material is basaltic in character, although some of it is scoria and tuff. Major faults extend laterally through the central part of this basin where the Jurassic horst has occurred. One of these lies along, and approximately parallel to, the course of the Nahr el Kelb from Nabaa Leben to the sea. A number of these faults supply water to the large and small springs found in many places throughout the river basin. A geologic reconnaissance of the entire basin was made as a part of this investiga- tion. The deep gorges and steeply eroded valleys of the Nahr el Kelb and its tributaries have confined the proposed engineering development of the basin to the main stem of the Nahr el Kelb and its most northerly tributary, the Nahr es Salib. The'Nahr es Samm and the Nahr Hardoun were eliminated due to the intermittent character of the stream- flow, and the lack of acceptable reservoir storage sites. The engineering reconnaissance indicated that the maximum benefits in the ba- sin, both from power and domestic water supply, could be achieved by development of the Nahr el Kelb and the Nahr es Salib alone. These proposals are discussed more fully under Section VI - POWER DEVELOPMENT. The geology of the basin is discussed in Section IV - GEOLOGY. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 BASIN /~unr Jam Jezzl~e Zi A.._ _r / PALESTINE 0' Damour lw a"z- Rachaya 10 0 10 20, 30 SCALE OF KILOMETERS UNITED STATES DEPARTMENT OF THE 'NTERIOR BUREAU OF RECLAMATION W4TER RESOURCES RECONNAISSANCE GENERAL LOCATION MAP NAHR EL KE R BASIN Roaibek TR ) M.K RECOMMENOEODTT{/ CH APPROVER BEIRUT, LF84NON JAN. //,1936 OA--I 6--_864 PLATE I-I Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Zouk Mikael ,El Wafo Canal, N4HR E I p Y ' ' - `Tahoun el Khour Canal ;~Tamicht Power , Plant Pro Power Plant B~eirut posed WoMr~ Supply Div. Dam ,Hrach Power Plant (Under Constructie 1, ; Jeito Spring Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 COASTA- L Bikfayo Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 ? Existing power plant o Power plant proposed or under construction '... Basin boundary RM Average annual precipitation Irrigated area Precipitation station NOTES Quadrangle sheets, scale 1:50,000, prepared by Institut Gdographique National, Minist6redes Travaux Publics et des Transports, Paris, France, were used to determine the basin boundary, grids,ond stream net shown. Origin of grid system located at 34?- 39' North Latitude and 37 ?- 21' East Longitude with assumed coordinates of x:+30okm,and Y:+ 30o km. Boundaries of irrigated area were deter- mined approximately by field reconnaissance. Average annual precipitation shown by isohyetal lines was determined by a country-wide study with station values adjusted to average annual values for period 1931 to 1952, inclusive. All vorues are in millimeters. See Drawing No. OA - 10 - 867 for plan of existing power development . UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION WATER RESOURCES RECONNAISSANCE GENERAL MAP NA HR EL KEL B BASIN DR.R.JH. DF.D__SU8MITTE Cm, E1 ROVED PLATE - II -I  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 1800 800 Noboa es Sokie---- ; ; oboo Sonnin e ; 10 1 700 Nob00 el Kona- 700 S , 1600 ..0 ' 00 r Nobao' , hobrouko- I 1500 ~ i o a Nobao e/ Aosse/ 1500 Q -Existing Power Plant 1400 ' k CA w, P-2o 1400 -Nohr e/ Hossen _j / t ohr el Leben > / d 300 W - -- o J W 1200 / 1200 V) o~ lib w >!100 0 :ioo m r Ole NI000 cr it c" " 000, / ~ 11000 w i I'- 900 w / - 900 2 I / / Z 800 800 Z rd 0 700 r / 700 o N;h .i > c f w600 1~ 00 J olcl OI w 500 yl y~ o~ of 500 10 ~; 400 cl ;trj 4 00 oi 3i ~l cl c1 1- 1 Q 3 O I o l ? J hl ~1 31 yl~i_oL~~~n~ ta I 1 1 e 1 E 300 o l od ?l ` ci c q) I 1 I o; I . ~1 1 c~ 2 300 5 26 27 28 29 30 31 200 a ~I LI ? a yl . ' ?i?~1 QI o q'' q) ?I e) 3 ? `~ 1 I ci o i CI O~i I Oi O~ q) X UNITED STATES OR O N DE 100 I EI 011 C1 41 ~ }~~ _~ )~~ OF BUREAU RECLAMATION WATER RESOURCES RECONNAISSANCE CONDENSED PROFILE NAHR ( RJ?H? SUBMITTED DR 0 . __ 0 1 2 3 4 5 6 7 8 9 10 a 12 1 3 14 1 5 16 1 7 18 1 9 20 21 2 2 23 24 TR.-A? ? ___RECOMMENDED C APPROVED D ISTA NCE IN KILOME TERS ABO VE MOUTH BEIRUT, LEBANON JAN. 31,1956' OA - I -847 PLATE a- 2 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 In general, the soils of the Nahr el Kelb Basin consist largely of upland soils developed from underlying limestone, with minor areas of alluvial soils located in the ouadis. Upland soils are usually shallow, stony loams and clay loams, situated on mod- erate to steep slopes. Surface drainage is good to excessive, depending on slope char- acteristics. Extensive terracing has been accomplished on these lands in order to utilize every square meter of tillable soil. Soil erosion has been active over the centuries, with the result that large areas are almost barren masses of rock, with little soil or vegetal cover. Uncultivated lands support a fair growth of drought resistant shrubs and trees. Population There are no published data available on population in the Nahr el Kelb Basin. However, an approximation of the population in this basin has been determined by sam- pling interviews in the villages of the area. This sampling indicates that there are 15 principal villages and several smaller villages in the basin. These villages have a total wintertime population of about 43, 500, and a summertime population of about 74, 000. Agriculture Cultivation has been carried out in the Nahr el Kelb Basin since ancient times. Even today agricultural methods are primitive. The land is generally plowed by ox team with iron-shod wooden plows, or dug by hand. Harvesting of grain is commonly done with a hand sickle, after which the unthreshed grain is loaded on camels, or donkeys, and is taken to the village threshing floor. Threshing is accomplished by riding over the grain with a flat wooden sled, the underside of which is imbedded with small stones to cut the straw from the wheat or barley. Grain and chaff are separated by winnowing. In contrast, it is not unusual to see an imported hand-operated or machine- operated threshing machine, or a farmer plowing a field with a modern tractor and plow. Modern methods are being slowly adopted. Joint efforts of American and Lebanese of- ficials to establish experiment stations, demonstration farms, and an extension service will hasten the acceptance of improved practices. Factors preventing the use of better methods, such as poor land tenure status, or lack of adequate credit, are under study. The solution of these problems will release the peasant from age-old bondage, and may result in great increases in productivity. Although the majority of the people lead an agrarian life, few actually live on the land. Most of them live in small villages, from which they move to the fields in the morning and to which they return at night. The farm house, constructed of stone or sun- baked mud, combines living quarters and shelter for farm animals. Livestock are of minor importance in the farm economy of the Nahr el Kelb Basin. They include smallnumbers of goats, sheep, cattle, donkeys, and chickens. Many stone-walled terraces have been constructed over the centuries on the hilly mountainous lands of the Nahr el Kelb watershed. A number of these areas are irrigated from springs. The principal crops grown in this section include deciduous fruits (apples, pears, cherries, etc. ), vegetables, grains, and olives. Manufacturing Many small industries are located in the basin and in the adjacent coastal areas. These industries consist mainly of wool, cotton and silk spinning and weaving mills, processing plants for fruits, vegetables, olive oil and leather, manufacturing plants for floor and roof tiles, concrete pipe, plumbing supply and fabricating plants for wood and steel products. Most of these products are exported to other areas in Lebanon with a small percentage being exported to other countries. Future industrial expansion in Leb- anon will probably greatly increase these activities in the Nahr el Kelb Basin and adjacent coastal areas. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Electric Power Supply There are three small hydroelectric generating plants, aggregating about 300 kilowatts in capacity, existing in the Nahr el Kelb Basin. These plants are used to supply the coastal town ofJouniehand other villages in that area. A hydroelectric plant of 2, 000-kilowatts capacity is under construction near the Jeita Spring, and another plant of 900-kilowatts capacity is planned to supply Bikfaya and other upland villages. Most of the villages in the Nahr el Kelb Basin are now interconnected by a 5. 5-kilovolt trans- mission system. This system has a 25-kilovolt interconnection with the municipal sys- tem of the Electricity Company of Beirut. Indications are that demands for power in this basin will increase at a rate considerably above the average for other rural areas in Lebanon. It will be necessary to import power into this basin from the neighboring Nahr Ibrahim Basin and the Beirut power system until such time as the proposed Nahr el Kelb power development is well underway. After completion of the proposed Nahr el Kelb development considerable amounts of power will be available for export to the Beirut area. Domestic Water Supply The domestic water supply for the many villages in the Nahr el Kelb Basin, and for several villages in adjacent basins to the north and south, is presently taken from four main sources; Nabaa el Aassel, Nabaa Memboukh, Nabaa Jozat, and Jeita Spring. Thirteen villages on the north side and 16 villages outside the basin (total summertime population of 52, 934) are supplied with water from Nabaa el Aassel. An additional 25 villages on the south side and 16 villages outside the basin (total summertime population of 61, 274) receive water from both Nabaa el Aassel and Nabaa Memboukh. Six small villages (total population of 2, 626) are supplied by Nabaa Jozat. Beirut, the capital city of Lebanon, and several coastal villages (total population of 500, 000 to 600, 000) are supplied by water from Jeita Spring. An extensive network of pipes and canals is required to carry the water from these springs to the many villages they serve. Plate VII-1, Section VII - DOMESTIC WATER SUPPLY, shows the existing water supply systems and the location of several of the larger springs. Two large water supply projects which will take water from Jeita Spring and Nabaa Jamajeme are now under construction. The two projects, scheduled for comple- tion before or in early summer 1956, will more than double the amount of water that is now available for domestic water supply in the Meten district. Plate VII-2, Section VII; shows the four water supply systems that will serve the villages in the Nahr el Kelb basin after the completion of projects now under construction. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Lebanon is on the eastern shore of the Mediterranean, between 330 and 350 North latitude and has a present-day climate of the Mediterranean type. This is moder- ately cold, windy, and wet in winter and warm and dry in summer and fall. The coastal area is semi-tropical, but the mountain slopes and interior valleys are cooler, with frost and snow occuring during the winter in the Lebanon and Anti-Lebanon Mountains. The climate in the Nahr el Kelb Basin is classed as "wet" during the months of December, January, and February; as "humid" during March and November; "semi-humid" during April; and as "arid" from May through October. Snow and frost occur. at the higher ele- vations between November and April, and each year snow remains on the ground in the headwater areas until July or August. Wind records, including direction, velocity, and wind-kilometers traveled, have been maintained at Beirut since about 1920. Wind observations include direction and force on the Beaufort Scale for each of the eight principal points of the compass, and total kilometers of wind movement per day. These data are published in the "Monthly Bulletin" of the Observatory of the American University of Beirut. These data are in- dicative of the wind that occurs in the western section of the Nahr el Kelb Basin. In 1952 a recording anemometer was installed at the College of Machmouche as a part of the Litani River Basin Investigations. This station is about 900 meters above sea level and is on the coastal side of the Lebanon Mountains. It is located about 45 kilometers southwest of the Nahr el Kelb Basin, but its wind records are indicative of wind conditions to be expected over the mountain section of this basin. The anemometer at Machmouche does not record wind velocity, and the maximum velocities attained each year at Beirut are not published. It is estimated however, that the maximum velocity to be expected in the Nahr el Kelb Basin will not exceed 50 meters per second. The storage reservoir proposed for this basin will be relatively short. Since wind set-up and wind wave heights will not be major design consideration, they have not been deter- mined. Temperature Beirut is about 15 kilometers southwest of the centroid of the Nahr el Kelb Ba- sin (See Plate I-1), but it is the nearest point where temperatures are recorded. Tem- perature extremes at Beirut, for the years 1924 through 1953, are shown on Table III-1. Average monthly temperatures at this station for the same period, are shown in Table 111-2. These temperatures are representative of the coastal plain section of the Nahr el Kelb Basin. They should be decreased by about 60 C. for each 1, 000 meters of increase in elevation, to be representative of the mountain section of the basin. During the period 1924 through 1953, the maximum daily temperature at Beirut was 43. 2? C. on May 10, 1941; the minimum was 00 C. on January 3, 1942. Beirut mean monthly temperatures have ranged from 13.90 C. in January to 29. 10 C. in August, with a yearly mean tem- perature of 21.6? C. Humidity Humidity is relatively high throughout the year in the coastal section of Lebanon. In winter this high humidity results from the action of Atlantic, or Mediterranean, cy- clonic disturbances transporting large amounts of moisture from such bodies of water to Lebanon. In summer the short passage of the monsoonal air over the eastern Mediter- ranean saturates its lower layers sufficiently to maintain high coastal humidity, but not enough to produce precipitation in the mountain areas. This high humidity results in frequent heavy dew which distinctly benefits vegetation in the coastal area. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE III - i TEMPERATURE EXTREMES BEIRUT - LEBANON (All values in Degrees - Centigrade) . . . . . . . : . . . . . Year : January : February : March April May June July August September : October November : December : : Max. : Min. . Max. : Min. : Max. : Min. . Max. : Min. . Max. : Min. : Max. : Min. . Max. : Min. : Max. : Min.: Max. : Min. : Max. : Min. : Max. : Min. Max. : Min. 1924 20.4 7.9 22.9 6.7 27.9 9.7 33.4 12.5 27.5 15.6 29.8 19.4 31.7 22.1 32.2 22.8 31.8 21.5 30.7 15.7 27.0 11.4 21.2 5.1 1925 17.3 3.8 25.8 6.7 32.6 10.1 26.4 7.4 34.2 14.6 29.3 17.2 31.5 20.1 31.9 22.8 31.8 21.3 30.3 18.0 28.4 14.6 22.9 8.4 1926 19.4 8.9 20.5 8.7 24.6 10.4 30.9 9.6 33.1 14.8 33.5 18.7 31.9 21.3 31.5 21.5 31.2 20.2 30.1 17.8 28.4 15.0 24.6 10.1 1927 19.9 9.1 20.6 3.9 28.7 10.4 26.7 10.6 33.2 15.1 31.8 20.1 33.3 21.1 32.9 23.3 31.7 22.6 30.0 17.1 29.2 11.1 21.0 9.1 1928 20.8 7.9 22.8 3.9 29.1 4.2 37.7 12.6 36.2 16.7 31.6 18.3 32.8 22.2 33.7 23.6 32.0 22.1 30.9 16.1 28.7 12.4 24.4 7.8 1929 19.3 4.3 22.1 1.6 24.2 7.8 28.7 10.1 35.6 16.1 31.9 18.7 32.7 21.1 33.9 22.3 33.9 20.8 30.2 16.9 26.4 11.7 20.6 9.2 1930 18.8 8.6 21.6 8.4 27.2 9.4 31.0 11.4 33.3 15.3 33.9 19.7 33.6 21.7 35.1 22.7 33.3 20.5 30.6 19.0 26.1 13.2 22.8 11.3 1931 22.7 6.6 20.5 9.2 28.4 6.2 28.4 11.8 34.3 14.3 32.2 19.3 33.9 21.1 33.7 23.3 38.8 19.9 30.1 17.8 25.1 11.0 22.2 7.4 1932 19.2 6.8 27.3 1.0 25.9 7.9 31.7 10.5 32.1 12.9 32.3 19.0 34.3 20.1 34.3 21.8 32.4 21.1 30.8 20.4 31.0 12.2 22.1 8.1 1933 20.2 6.3 24.9 8.4 23.0 8.0 24.9 9.8 28.7 15.6 36.1 17.2 31.3 20.1 37.1 21.4 30.7 18.9 28.3 16.4 26.9 13.8 23.3 5.2 1934 22.1 5.6 23.2 4.7 26.7 10.5 26.9 12.9 28.2 15.6 33.5 18.4 34.2 21.2 34.4 22.9 32.8 20.6 30.1 18.5 25.9 18.2 21.5 10.7 1935 24.1 8.5 26.7 5.8 26.0 10.8 32.8 11.8 38.5 15.9 32.8 21.5 34.4 21.8 34.0 21.2 32.9 17.8 30.1 16.0 24.9 11.6 21.2 11.3 1936 21.3 11.1 22.7 7.8 26.0 9.7 37.3 12.3 33.3 16.3 31.6 18.6 34.8 21.3 34.6 23.3 33.2 20.6 33.6 19.1 28.5 9.9 22.1 5.3 1937 22.1 5.7 21.1 9.4 23.3 10.9 33.1 13.5 31.8 14.1 31.8 18.4 33.1 22.6 33.8 22.9 33.1 22.2 38.1 15.3 26.4 13.8 26.4, 10.8 1938 23.5 8.2 19.1 4.4 22.4 6.6 30.9 10.8 32.6 14.6 31.5 19.5 33.7 22.2 35.0 23.7 33.6 19.3 30.4 17.7 27.5 10.6 22.9 10.2 1939 18.3 8.3 20.0 8.3 23.6 6.4 37.8 11.7 34.2 15.3 33.2 15.6 34.4 21.8 34.3 21.8 34.2 21.8 33.1 19.4 25.8 10.6 23.8 9.1 1940 19.5 5.5 19.8 8.5 29.5 8.0 32.5 10.6 38.5 13.6 34.8 12.8 34.2 20.2 34.0 20.8 33.6 20.5 34.0 15.6 27.7 11.2 21.9 8.5 1941 23.2 8.6 24.5 8.9 27.1 8.7 30.6 11.0 43.2 16.5 33.0 19.9 33.2 22.0 34.6 22.8 22.8 19.4 30.0 17.7 30.0 12.7 19.8 8.9 1942 23.1 0.0 27.0 9.4 27.5 5.9 28.3 12.6 37.0 16.7 40.7 20.1 34.8 21.2 34.2 22.7 32.7 21.1 33.4 16.4 26.1 12.4 21.2 11.6 1943 21.4 5.8 21.1 5.9 23.4 2.3 27.8 8.4 32.5 15.5 32.0 16.8 33.2 21.7 33.7 22.8 36.8 22.3 36.4 17,2 28.2 16.9 23.3 11.2 1944 22.8 7.1 27.4 7.8 28.4 8.9 32.1 10.7 28.9 13.7 34.3 18.4 33.7 22.3 34.4 22.4 33.0 17.8 30.6 18.3 27.2 12.5 21.1 10.7 1945 19.4 7.2 19.1 6.8 26.2 6.3 27.3 12.2 34.0 15.3 33.9 19.4 36.6 21.7 35.6 22.9 34.8 21.2 29.9 17.8 27.2 10.7 23.1 10.2 1946 18.3 7.4 20.1 6.2 25.6 9.1 27.6 9.6 30.9 15.3 32.8 19.8 36.0 22.8 35.1 21.2 37.1 20.1 34.8 16.9 27.9 15.7 24.6 10.7 1947 18.9 9.7 23.8 10.6 28.8 10.7 33.9 11.2 32.1 16.1 34.2 19.6 36.0 23.3 35.3 23.7 34.2 22.4 31.2 14.2 26.8 12.9 25.4 9.0 1948 24.1 8.7 20.2 2.7 27.4 6.2 29.3 10.1 30.8 14.6 33.7 18.4 32.9 21.7 33.7 22.5 32.5 21.4 29.4 13.9 28.2 8.3 19.7 6.1 1949 18.1 6.1 18.7 1.7 27.2 6.5 23.3 7.4 35.5 16.1 31.6 17.9 32.9 21.1 33.1 21.4 32.8 18.3 30.1 17.4 30.2 15.7 23.3 9.0 1950 21.7 1.5 21.8 0.6 27.4 10.0 36.0 10.5 31.9 15.0 32.1 19.4 32.5 22.2 32.8 22.2 33.8 21.4 30.4 16.2 25.0 13.6 23.1 11.8 1951 21.0 7.8 20.0 9.9 31.8 10.2 29.5 12.2 34.1 16.8 31.6 20.3 33.2 23.0 33.7 23.6 33.6 21.6 32.1 11.7 26.6 11.3 20.7 5.4 1952 19.2 5.2 23.1 7.2 25.7 8.2 29.6 7.6 31.7 15.7 36.7 18.8 33.4 21.4 35.6 23.2 33.5 23.3 30.2 20.0 26.1 14.4 26.4 10.7 1953 24.3 6.8 24.5 5.6 24.0 5.6 25.1 10.8 33.7 15.0 31.3 19.4 34.8 22.2 33.8 22.5 32.4 20.6 31.2 18.3 29.8 6.4 21.9 5.6 Extremes in Period 24.3 0.0 27.4 0.6 32.6 2.3 37.8 7.4 43.2 12.9 40.7 12.8 36.6 20.1 37.1 20.8 38.8 17.8 38.1 11.7 31.0 6.4 26,4 5.1 Note; Data shown are for the American University at Beirut and were taken from Monthly Bulletins, Republic of Lebanon Climatological Service. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06121: CIA-RDP80T00246AO03400510001-7 TABLE - III - 2 AVERAGE MONTHLY TEMPERATURE BEIRUT - LEBANON (All values in Degrees - Centigrade) Year ; Jan. Feb. : Mar. : Apr. May : June July : Aug. : Sep. : Oct. : Nov. : Dec. : MEAN 1924 14.10 14.50 16.90 19.50 22.20 26.08 28.22 28.66 27.77 24.55 19.84 15.11 21.45 1925 12.13 14.74 18.23 17.94 22.22 23.05 27.21 28.41 27.39 24.91 21.73 17.09 21.25 1926 14.40 14.49 16.09 19.60 23.08 26.05 27.80 27.40 26.86 24.21 21.01 16.48 21.46 1927 15.01 12.97 17.12 18.50 23.60 26.70 29.36 29.00 27.90 25.15 21.13 16.14 21.88 1928 14.99 13.42 15.26 21.20 24.33 26.27 28.58 29.29 28.01 24.62 20.80 16.35 21.93 1929 12.98 13.12 15.50 18.44 23.98 25.96 28.10 29.06 27.33 24.19 20.96 15.58 21.27 1930 13.61 14.84 17.30 20.01 22.70 26.51 28.66 29.23 27.97 25.02 20.42 17.49 21.99 1931 14.89 14.60 17.03 19.28 22.58 26.14 29.31 29.63 28.60 24.82 18.78 15.00 21.72 1932 12.90 14.28 16.35 18.56 21.72 25.75 28.08 29.03 27.41 25.96 20.38 14.96 21.28 1933 13.42 15.32 15.79 17.51 22.23 25.05 26.98 27.94 26.23 23.43 21.35 15.60 20.90 1934 13.56 12.50 17.67 19.86 22.98 26.49 28.47 29.44 27.75 24.99 21.24 15.81 21.73 1935 14.72 14.34 17.07 19.46 25.41 28.16 28.66 29.13 28.14 24.76 18.57 16.52 22.08 1936 15.56 15.12 17.49 20.39 22.85 25.66 28.59 29.88 27.36 24.99 20.37 14.42 21.90 1937 12.20 15.34 17.63 20.55 23.05 26.37 28.68 29.29 28.33 24.98 20.54 16.76 21.98 1938 13.77 13.35 14.48 19.14 22.18 26.02 29.01 29.86 27.70 24.65 18.33 15.85 21.19 1939 14.30 14.12 15.60 19.93 24.03 25.46 28.90 29.47 28.10 26.11 19.64 16.62 21.86 1940 14.62 15.33 16.97 20.39 22.99 26.15 28.12 28.55 26.89 24.72 19.53 16.44 21.72 1941 15.68 15.98 16.33 20.41 25.23 26.99 28.49 29.17 26.79 22.64 19.75 13.88 21.78 1942 12.31 14.60 16.11 19.17 23.55 27.51 28.84 28.63 26.60 22.97 19.56 15.97 22.15 1943 12.90 12.79 14.01 17.04 22.42 25.18 28.00 28.98 27.74 25.25 21.88 17.02 21.10 1944 13.61 14.73 16.80 19.66 21.87 26.47 28.50 28.38 26:81 24.48 19.20 16.09 21.38 1945 14.04 13.54 14.82 18.64 23.76 27.11 29.85 29.98 28.34 23.62 20.32 15.52 21.63 1946 14.16 13.87 15.91 19.57 22.46 26.43 29.10 30.04 28.46 24.73 21.88 16.87 21.96 1947 13.79 15.52 18.07 20.55 23.90 26.84 29.20 29.65 27.56 24.31 19.88 17.51 22.23 1948 15.49 14.16 13.66 18.54 22.26 26.15 28.31 28.74 27.14 23.72 19.21 13.65 20.92 1949 12.51 11.63 15.30 16.13 23.61 26.04 27.89 28.44 26.24 23.98 21.79 16.12 20.81 1950 12.18 12.64 16.18 21.54 22.40 26.61 28.59 28.65 27.98 23.76 19.88 17.32 21.48 1951 14.86 15.15 17.93 20.14 23.19 26.45 28.84 29.40 28.36 23.39 19.01 14.21 21.74 1952 13.85 14.67 15.50 19.16 22.70 25.90 25.05 29.59 29.13 25.11 19.94 17.43 21.50 1953 14.64 14.71 13.31 18.60 22.34 26.36 29.08 29.50 26.09 24.30 17.40 13.39 20.81 Mean Monthly 13.91 14.21 16.21 19.31 23.06 26.20 28.42 29.08 27.56 24.47 20.14 15.91 21.56 Max. Monthly 15.68 15.98 18.23 21.54 25.23 28.16 29.85 30.04 29.13 26.11 21.88 17.51 22.23 Minimum Monthly 12.13 11.63 13.31 16.13 21.72 23.05 25.05 27.40 26.09 22.64 17.40 13.39 -20,11 Note: Data shown are for American University at Beirut and were taken from Monthly "Bulletins Republic of Lebanon Climatological Service. Sanitized Copy Approved for Release 2011/06121: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLI III -- 3 RRtATIT' HUMIDITY - BRIMM A?IREtICAIU UYITVRSITT CSSXRVATORT (All values in percent) Feb Oct Aver 1948 77.7 69.1 71.1 72.6 70.9 69.9 66.5 66.0 59.1 63.9 70.4 75.3 69.4 1939 75.0 72.5 72.3 72.7 69.1 68.2 65.6 60.4 64.2 66.7 67.3 72.4 68.9 1940 73.7 75.3 67.5 71.6 66.3 66.1 68.0 63.9 66.0 69.0 70.2 72.1 69.1 1941 71.9 73.0 74.5 70.0 64.6 64.1 66.1 66.1 64.7 66.9 70.3 74.4 69.0 1942 '75.5 75.0 77.7 75.9 73.3 68.2 67.5 70.2 68.4 74.4 76.6 7'x.2 73.0 1943 '18.7 77.7 74.6 78.1 73.5 71.2 70.3 71.4 66,4 71.3 72.6 75.5 i}. 1944 72.9 71.9 74.4 75.7 74.3 71.8 67.3 67.9 69.5 69.9 74.7 71.8 71.8 1945 70.3 70.2 66.4 68.5 72.1 65.1 63.6 64.8 64.0 61.7 67.0 68.5 66.9 1946 68.5 71.4 75.8 77.5 73.5 71.0 68.6 68.9 71.6 70.5 76.9 79.2 72.6 1947 $:4,1 80.7 80.9 78.2 78.9 73.3 63.8 66.2 66.3 69.9 74.7 72.6 74.1 1948 76.7 78.3 80.6 83.4 84.5 70.7 71.4 75.4 83.6 81.4 81.4 82.2 79.1 1949 79.9 81.7 77.2 84.5 82.9 82.3 80.3 67.5 69.7 74.9 69.0 74.0 77.0 1950 67.2 68.9 70.8 66.3 72.0 66.5 66.8 65.2 66.1 63.8 72.5 68.3 67.9 1951 63.6 67.3 71.0 69.0 70.9 73.0 67,2 72.0 71.0 63.0 62.0 67.0 68.1 1952 78.6 73.4 68.3 67.7 66.4 75.0 72.0 73.0 71.0 66.0 60.0 57.0 69.0 1953 b 68.0 66.9 70. 68.7 62= 6s3 64.9 61j5 63.4 66.7 66.0 66.5 .__ _ Aver. 73.7 73.5 73.0 73.9 70.3 700 68.3 67.7 67.7 69.6 70.7 71.8 71.0 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 The Lebanon Mountains form an effective barrier which prevents much of this moist air in summer from escaping into the interior, hence the lower summer humidity in interior areas. The orographic action of this barrier causes much of the winter mois- ture to precipitate on the western side and just over the crest of these mountains. Enough moisture is carried over to create high winter humidity throughout Lebanon. Relative humidity records have been maintained for a number of years at the American University of Beirut. Short records are available at other stations. Table 111-3 shows the mean monthly values at Beirut for the period 1938 through 1953. These are believed to be representative of the humidity to be expected in the Nahr el Kelb Ba- sin. Precipitation Precipitation stations at Qlayaat, Bikfaya, and Qornet Chahouane are in the Nahr el Kelb Basin; other stations at Reyfoun, Ghosta, Zouk Mikael, and Kaa er Rime are in the vicinity of this basin. The locations of these stations are shown on Plate III-1. Table 111-4 shows a comparison of precipitation records at these stations and at Beirut, 12 kilometers southwest of the western end of the Nahr el Kelb Basin. Period of Average Annual Precipitation Station Elevation Record Recorded dusted meters years (mm) (mm) Qlayaat 1050 1944-1955 1226 1145 Bikfaya 900 1948-1955 1377 1229 Qornet Chahouane 670 1949-1955 910 905 Reyfoun 1050 1949-1955 1276 1341 Ghosta 750 1948-1955 1346 1204 Zouk Mikael 80 1949-1955 1003 939 Kaa er Rime 1250 1940-1955 1240 1184 Beirut 34 1876-1955 882 882 Daily precipitation recorded at these stations during the period, with the excep- tion of that at Beirut, is published in the "Monthly Bulletin" of the Climatological Service. Precipitation records for Beirut are published in the "Monthly Bulletin" of the Observa- tory at the American University at Beirut. Monthly and yearly totals of the precipitation recorded at the stations in the Nahr el Kelb Basin are shown on Tables 111-5 to 111-7. Average annual isohyetals were prepared for Lebanon, based on records for the period 1931 to 1952. All short-term stations were adjusted to the average for the longer term stations at Tripoli, Beirut, and Ksara. Average annual isohyetals for the Nahr el Kelb Basin are shown on Plate II-1. They indicate that the average annual precipitation over this basin is about 1285 millimeters. Additional automatic rainfall stations at Ferraya and Beskinta, as well as two snow survey courses, are proposed for the Nahr el Kelb Basin. These are included in a general plan proposed for additional hydrologic data collection throughout Lebanon. Tentative locations for these stations are shown on Plate III-1. The need for these sta- tions is discussed in Section IV - ADDITIONAL INVESTIGATIONS NECESSARY. Evaporation Investigations for the Development Plan for the Litani River Basin41 included a careful analysis of available evaporation data for Lebanon. The values shown in Table 111-8 were determined for expected monthly evaporation from the proposed Bisri Reser- voir. These have been assumed to be applicable to any reservoirs that may be planned in the Nahr el Kelb Basin. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE 111-5 t4DNTHLY PR* IPITAT ION QLAYAAT - LRBANON Altitude - 1075 meters . . . . . . . . . : . . . Year Sept. . Oct. Nov. Dec. Jan. Feb. Mar. Apr. : May . June July . Aug. Total 1944-45 0 54 280 183 304 209 144 64 13 3/ 8 0 0 1259 1915-46 0 17 112 218 142 329 256 17 169 0 0 0 1260 1946-47 7 48 3 114 461 176 44 59 84 8 0 0 1004 1947-48 23 25 189 80 243 266 236 115 67 0 0 0 1244 1948-49 7 11 230 265 266 350 275 150 0 0 0 0 1554 1949-50 36 5 1/ 34 262 465 61 82 40 104 0 0 0 1089 1950-51 27 99 93 220 167 195 79 123 14 0 0 0 1017 1951-52 8 121 135 392 129 271 232 54 2 0 0 0 1344 1952-53 0 16 137 174 245 326 284 59 9 0 0 0 1250 1953-54 3 0 248 148 319 284 log 119 6 0 0 0 1236 Aver. 1944-54 10 40 146 206 274 247 174 80 47 0 0 0 1226 1/ astiaated from corrolation with record at Zouk Mikhayel Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE 111-6 MDWI1LT PRl4CIPITATION B IEFATA - LEBANON Altitude - 900 meters . . . . . . . . . . . Year . Sept. Oct. Nov. Dec. . Jan. Feb. . Mar. . Apr. Ma4y . June July ; Aug. . Total 1948-49 3 21 279 282 313 433 276 167 0 0 0 0 1774 1949-50 36 0 31 240 290 146 173 43 149 1 0 0 1109 1950-51 11 138 68 248 188 132 92 112 7 0 0 0 996 1951-52 11 95 149 386 164 308 240 76 2 0 0 0 1431 1952-53 1 39 197 182 329 350 354 73 9 0 0 0 1534 1953-54 4 1 282 159 361 364 114 124 10 0 0 0 1419 Aver. 1948-54 11 49 168 249 274 289 208 99 29 0 0 0 1377 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE 111-7 AORN77' CNABOUA1 - LEBANON Altitude - 670.meters Year Sept. Oct. Nov. : Dec. : Jan. : . Mar. : Anr. May June July Aug. Total 1949-50 21 0 11 205 261 52 48 21 123 0 0 742 1950-51 12 133 59 208 135 108 79 94 5 0 0 833 1951-52 5 55 144 274 115 235 159 54 4 0 0 1045 1952-53 1 22 182 102 201 229 222 25 7 0 0 991 1953-54 1 3 225 113 236 176 68 105 19 0 0 946 Aver. 1949-54 8 43 124 180 190 160 115 60 31 0 0 0 910 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE III - 9 MON1"ILY DISCFARGRS HAHR EL KF!i AT EL MOT$AnA (Millions of (-ubic meters) 1950 31.23 1951 30.4'1 1954 32.33 1953 19.80 1954 66.12 1955 10.15 Mar. Apr. May June 68.27 57.02 55.80 ^4.82 18.01 38.88 26.60 15.47 11.16 23.28 19.12 24.21 13.53 10.86 65.62 55.42 35.36 16.47 12.08 50.02 58.42 58.15 30.34 22.13 67.34 64.32 62.99 41.72 32.15 21.63 38.61 31.58 16.04 8.66 July Aug. Sept. 14.44 6.93 6.43 3.80 3.88 3.07 9.54 4.15 12.22 3.78 32.01 5.03 3.96 2.94 4.01 3.81 3.14 4.23 ?.68 3.17 3.41 3.27 4.27 3.46 3.22 5.29 3.21 3.17 9.74 3.19 2.90 3.15 2.82 2.34 8.06 15.80 27.37 10.90 18.12 178.02 165.91 253.84 289.10 9.48 390.40 Average 31.68 40.98 49.00 42.27 27.05 17.41 11.78 4.25 3.21 3.26 4.86 14.96 250.71 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06121: CIA-RDP80T00246AO03400510001-7 TABLE III - 10 DISCHARGE MEASUREMENTS OF NAHR EL KELB AT EL MOKHADA, LEBANON In cubic meters per second Measuring Sect-bon Discharge Measurement na sat on Pleas. : Date of Gage : El-Wata River Small r- I) a ye ma r- . Total Corresp.to Applied gage: Percentage No. : Measurement Height Canal-Rt. Channel rig.Canal Water Supp.:rig. Canal . Discharge : Gage Height : height shift: difference (Meters) : Bank . Lt.Bank : Canal :Lt. Bank : : of Recorder : (Meters) : from rating cif Q2 C3 : t?4 CS Q Q - Ql able 1 June 16,1949 0.445 0.780 (Not measured) 2.690 (Not measured) 2 June 17,1949 0.46 0.929 J 8.018 2.526 11.473 10.544 +.08 -1.1 3 Aug. 12,1949 0.34 0.814 2.901 4 Oct. 8,1949 0.035 1.815 0.494 5 Apr. 21,1950 0.54 J 0.373 9.411 - 2.685 12.469 12.096 - +8.2 6 July 7,1952 0.48 0.877 J_ 1.828 0.026 2.652 .000 5.383 4.506 -.09 +3.2 7 Nov. 22,1952 -0.02 0.508 0.000 0.000 1.266 .000 1.774 1.266 - 0 8 June 2,1953 0.54 J 0.645 (Not Pleas) 0.026 2.693 (Not measured) - 9 June 2,1953 0.54 8.599 11.963 11.318 - +1.3 10 June 30,1953 0.535 1.000 6.150 J 0.000 7.150 6.150 -.09 +0.8 11 July 28,1953 0.455 0.750 2.470 3.220 2.470 -.14 +0.4 12 Oct. 17,1953 -0.17 0.696 0.000 0.000 1.191 .002 1.885 1.193 +.10 0 13 Nov. 4,1953 -0.17 0.718 0.000 0.000 1.203 .034 1.887 1.203 +.11 0 14 Apr. 19,1954 0.74 0.464 18.715 - 2.634 21.813 21.349 -0.7 15 Oct. 21,1954 -0.10 ;,3/ 0.765 - - 1.053 1.818 1.053 -.06 -0.9 16 Nov. 17 1954 -0.11 .J 0.67 - - 01.98 1.65 0.98 -.10 -1.0 17 Dec. 2091954 0.08 J 0.45 - - 1.43 1.88 1.43 -0.7 18 Jan. 19,1955 0.38 0.55 0.55 3.59 3.04 -.04 +0.7 19 Mar. 2,1955 0.345 0.53 4.03 4.56 4.03 +.04 -1.0 20 Mar. 23,1955 0.59 0.504 11.39 - 2.476 14.370 13.866 +0.7 21 Apr. 7,1955 0.52 0.55 8.24 - 2.58 11.37 10.82 +6.7 22 May 11,1955 0.48 0.65 5.82 - 1.24 7.71 7.06 -.02 +0.6 23 June 13,1955 0.465 1.04 3.74 4.78 3.74 -.09 -1.1 24 July 11,1955 0.188 0.91 1.69 2.60 1.69 +2.4 25 Aug. 11,1955 -0.14 0.75 1.08 1.83 1.08 0 26 Sept.16,1955 -0.16 0.66 - 1.18 1.84 1.18 +.08 +0.9 27 Oct. 6,1955 -0.256 0.79 0.87 1.66 0.87 -.04 0 28 Oct. 18,1955 -0.262 0.77 0.86 1.63 0.86 -.05 0 29 Nov. 8,1955 0.045 0.493 1.166 1.659 1.166 -.12 0 J 0.929 is max. discharge of canal upstream from spillway. J Power supply canal above the power plant. J Gage Height from recorder chart Max. canal discharge below spillway. Measured 200 meters aboveKelb Cafe. Measurement above diversion dam. J Gage height estimated - recorder stopped. Sanitized Copy Approved for Release 2011/06121: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILT DISCHARGE OF NAHR EL KELB AT EL MOKHADA, LEBANON CALENDAR YEAR 1949 Da' Jan. Feb. : Mar. Apr. : May June : July Aug. Sept. Oct. Nov. s Dec. 1 12.2 31.4 29.3 11.7 8.06 4.07 1.7 1.44 1.4 1.2 2 11.7 26.7 28.8 11.7 7.54 3.78 1.7 1.44 1.4 1.2 3 13.8 23.1 27.2 11.2 7.02 3.78 1.7 1.44 1.4 1.2 4 15.8 73.6 26.2 12.2 8.06 3.26 1.7 1.44 1.4 1.2 5 15.3 21.0 25.2 12.7 7.02 3.02 1.7 1.44 1.4 1.2 6 13.8 19.0 23.6 11.7 6.9 3.02 1.7 1.44 1.4 1.2 7 12.2 16.9 23.6 11.2 6.8 3.51 1.6 1.44 1.3 1.2 8 12.2 15.3 24.6 10.1 6.6 3.26 1.6 1.44 1.3 1.2 9 13.3 15.3 29.3 10.1 6.3 3.26 1.6 1.44 1.3 1.2 10 12.2 18.4 30.8 10.1 6.2 3.51 1.6 1.44 1.3 1.2 11 11.7 20.0 28.3 10.1 6.0 3.26 1.6 1.44 1.3 1.2 12 19.5 20.5 27.7 10.1 5.8 * 3.02 1.6 1.42 1.3 1.2 13 24.6 18.4 24.1 10.1 5.7 2.80 1.6 1.42 1.3 1.2 14 18.4 19.0 22.6 9.10 5.5 2.61 1.5 1.42 1.3 1.20 15 15.8 21.0 22.6 9.62 5.3 2.61 1.5 1.42 1.3 1.20 16 16.4 26.2 20.5 10.1 5.2 2.46 1.5 1.42 1.3 1.20 17 17.9 22.1 20.5 * 9.62 5.0 2.46 1.5 1.42 1.3 1.20 18 20.5 21.0 21.0 9.10 4.8 2.10 1.5 1.42 1.3 1.20 19 20.0 21.0 20.0 8.58 4.7 1.92 1.5 1.42 1.3 1.20 20 19.5 21.5 17.9 8.58 4.6 2.00 1.5 1.42 1.3 1.20 21 11.7 24.6 20.0 16.9 7.54 4.4 2.00 1.5 1.42 1.3 1.24 22 11.7 32.9 19.0 15.3 8.58 4.3 2.10 1.44 1.4 1.3 1.27 23 11.2 56.8 19.0 14.8 9.62 4.2 2.10 1.44 1.4 1.3 1.27 24 12.7 35.0 20.5 14.3 9.62 4.0 1.85 1.44 1.4 1.3 1.27 25 13.3 32.4 22.6 14.3 8.06 3.9 1.8 1.44 1.4 1.3 1.28 26 13.8 26.7 24.6 14.3 7.54 3.78 1.8 1.44 1.4 1.3 1.69 27 15.8 31.4 24.6 13.3 7.02 3.78 1.8 1.44 1.4 1.3 12.7 28 13.3 61.7 24.6 12.7 6.54 3.78 1.8 1.44 1.4 1.3 24.1 29 - 54.7 29.8 12.7 7.02 4.07 1.8 1.44 1.4 1.3 14.8 30 - 76.5 33.9 11.7 8.06 3.78 1.8 1.44 1.4 1.2 6.10 31 - 40.7 - 11.7 4.07 1.7 - 1.4 - 3.51 Total (21-28) 103.5 790.2 660.0 645.8 287.30 167.16 80.26 46.36 44.04 39.5 93.23 Mean (21-28) 12.94 25.49 22.00 20.83 9.58 5.39 2.59 1.55 1.42 1.32 3.01 .3x106 (21-28) 8.94 68.27 57.02 55.80 24.82 14.44 6.93 4.01 3.81 3.41 8.06 Note: No gage-height record July 6-25, Aug. 25 to Sept. 21, Oct. 22 to Dec. 13; discharge estimated on basis of records for station on Nahr Ibrahim at Bazhal, recorded range in stage and weather records. Shifting-control method used May 12 to July 5, July 26 to Aug. 8, 16. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILT DISCHARGts OF NAHR EL KELB AT SL MOKHADA, LEBANON CALENDAR TEAR 1950 s : i -- t - Day s Jan. Feb. : Mar, s Apr. s May : June July : Aug, Sept. : Oct. Noy : Dec. 1 3.02 6.54 11.7 11.7 7.54 5.00 3.51 1.47 1.3 1.1 1.19 1.51 2 7.02 9.10 20.5 12.2 6.10 5.34 4.37 1.47 1.3 1.10 1.20 1.35 3 17.4 8.06 20.5 15.8 6.10 5.34 4.07 1.47 1.3 1.1 1.20 1.33 4 12.7 7.54 31.4 20.5 6.54 5.00 3.51 1.47 1.3 1.1 1.20 1.49 5 36.1 7.02 40.7 14.8 9.62 4.68 3.26 1.47 1.3 1.1 1.22 2.33 6 18.4 5.70 22.6 12.2 9.62 4.07 3.26 1.45 1.3 1.1 1.20 1.80 7 7.02 5.00 24.6 10.1 6.10 3.78 3.26 1.45 1.3 1.1 1.22 1.61 8 7.02 4.68 17.4 7.54 5.34 3.78 3.02 1.45 1.3 2.10 1.20 1.57 9 5.34 4.68 12.7 7.02 5.00 3.78 3.26 1.45 1.3 1.2 1.22 1.51 10 4.07 4.68 22.1 6.10 4.37 4.07 3.26 1.45 1.3 1.1 1.22 1.51 11 3.51 4.68 22.6 10.7 6.10 5.00 3.26 1.45 1.2 1.1 1.22 1.45 12 32.4 4.68 16.9 12.7 8.06 5.00 3.51 1.44 1.2 1.1 1.22 1.38 13 24.6 5.00 13.8 8.58 9.10 5.00 2.80 1.44 1.2 1.1 1.20 1.33 14 15.3 5.34 11.7 7.02 6.10 5.34 2.10 1.42 1.2 1.1 1.20 1.33 15 9.10 5.70 11.2 7.02 5.34 4.68 2.00 1.42 1.2 1.1 1.22 1.32 16 6.10 5.70 10.7 7.54 5.00 4.37 1.92 1.42 1.2 1.1 1.24 1.30 17 4.68 5.70 10.1 8.06 5.34 3.78 1.80 1.42 1.2 1.1 1.42 1.30 18 3.78 5.70 10.1 10.1 5.34 3.78 1.69 1.42 1.2 1.1 1.53 1.30 19 4.07 6.54 8.58 11.7 6.10 3.78 1.65 1.44 1.2 1.1 1.45 1.32 20 4.37 7.02 7.54 11.7 6.10 4.07 1.63 1.44 1.2 1.1 1.33 1.30 21 7.02 10.1 7.02 ?11.2 5.00 4.07 1.57 1.40 1.2 1.1 1.30 1.30 22 25.7 14.3 6.54 10.7 4.68 4.37 1.59 1.40 1.2 9.10 1.30 1.30 23 19.5 12.2 6.10 10.1 4.07 4.07 1.61 1.40 1.2 4.68 1.28 1.32 24 24.6 12.7 6.10 10.7 3.78 4.07 1.80 1.4 1.2 1.76 1.27 1.33 25 16.9 11.7 7.54 10.7 3.78 3.78 1.55 1.4 1.1 1.63 1.27 1.47 26 11.7 10.7 8.58 9.62 4.07 3.78 1.55 1.4 1.1 1.5 1.27 1.42 27 9.10 9.10 6.54 9.10 4.68 4.37 1.53 1.4 1.1 1.3 1.28 1.38 28 6.54 8.58 13.3 8.58 5.70 3.78 1.55 1.4 1.1 1.2 1.25 1.37 29 5.34 - 16.4 7.02 5.34 3.78 1.51 1.3 1.1 1.2 1.25 1.80 30 4.68 - 13.3 7.02 4.37 3.51 1.51 1.3 1.1 1.2 1.27 39.8 31 4.37 - 11.2 - 4.68 - 1.49 1.3 - 1.2 - 1M, Total 361.45 208.44 450.04 307.82 179.06 129.22 74.40 44.01 36.4 48.97 37.84 182.83 Mean 11.66 7.44 14.52 10.26 5.78 4.31 2.40 1.42 1.21 1.58 1.26 5.90 m3x106 31.23 18.01 38.88 26.60 15.47 11.16 6.43 3.80 3.14 4.23 3.27 15.80 Not et Recorder float resting on top of sediment deposit in gage well Aug. 24 to Oct. 7, 9-21, 26-31; discharge estimated on basis of records for station on Nahr Ibrahim at Bashal, recorded range in stage and weather records. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILY DISCHARGE OF QARR ]Q. 1!LB AT XL MOMIADA, L1BAYOa CALRYDAR TSAR 1951 Day Jan. Feb. Mar. Apr. May June July Aug. Sept. Oct. Jow. Dec. 1 29.8 4.07 5.70 8.58 7.02 3.78 1.92 1.2 1.10 1.01 1.1 4.37 2 15.3 4.07 5.34 8.58 6.54 4.07 1.92 1.2 1.08 1.00 1.1 3.51 3 9.62 3.51 5.70 7.54 6.10 3.51 1.85 1.2 1.08 1.00 1.1 3.02 4 7.54 3.51 6.54 7.02 5.70 3.51 1.76 1.2 1.07 1.01 1.1 3.51 5 6.54 4.37 5.00 6.54 5.70 3.51 1.67 1.2 1.07 1.03 1.3 4.07 6 5.00 5.00 5.34 7.54 5.34 3.78 1.57 1.17 1.06 1.01 1.5 3.51 7 21.0 4.68 5.70 7.54 5.00 5.00 1.53 1.17 1.06 1.01 1.72 2.80 8 12.2 4.07 5.70 6.54 5.34 4.37 1.51 1.16 1.06 1.38 1.57 2.46 9 4.06 4.07 6.10 6.54 6.10 4.68 1.49 1.16 1.07 1.47 1.38 2.80 10 5.34 3.78 6.10 6.10 6.10 5.00 1.47 1.16 1.07 2.00 1.33 2.21 11 4.68 3.51 5.94 5.70 6.10 5.34 1.5 1.16 1.06 1.37 1.30 2.00 12 4.07 3.51 5.34 5.70 6.10 5.00 1.4 1.14 1.1 1.14 1.25 1.67 13 3.78 3.02 5.00 5.34 5.70 4.68 1.4 1.16 1.1 1.25 1.24 3.26 14 4.26 3.26 5.94 5.70 5.70 5.70 1.4 1.14 1.0 1.44 1.24 19.5 15 3.02 3.51 5.34 5.70 5.34 5.70 1.4 1.14 1.0 1.24 1.24 19.0 16 6.10 3.78 5.34 5.70 5.00 5.34 1.4 1.14 1.0 1.20 1.24 17.9 17 10.7 3.78 5.34 6.54 4.17 5.34 1.4 1.13 1.0 1.19 1.24 11., 18 7.02 17.4 5.70 7.54 5.70 5.70 1.4 1.14 1.0 1.17 1.24 38.9 19 7.54 29.3 5.70 17.4 5.00 5.34 1.4 1.14 1.0 1.16 1.25 27.2 20 11.2 30.8 5.70 10.1 4.07 5.00 1.4 1.22 1.0 1.14 1.20 17.4 21 22.6 38.3 5.70 5.70 3.78 4.37 1.3 1.13 1.0 1.11 1.19 15.3 22 49.7 25.7 5.70 4.68 4.07 4.37 1.3 1.11 1.0 1.11 1.19 12.7 23 34.4 17.9 6.54 4.68 4.68 4.07 1.3 1.11 1.00 1.20 1.19 12.7 24 17.9 13.3 6.54 14.8 4.37 3.78 1.3 1.13 1.00 1.16 1.19 13.8 25 12.2 10.7 13.8 33.6 3.78 3.26 1.3 1.11 1.01 1.16 1.19 12.2 26 8.58 8.58 17.4 24.1 3.78 2.61 1.3 1.11 1.00 1.16 1.53 10.7 27 7.02 7.02 11.7 16.4 3.51 2.33 1.3 1.08 1.00 1.14 1.67 9.62 28 6.10 6.10 11.7 11.7 4.37 2.21 1.3 1.10 .99 1.13 1.42 9.10 29 5.00 -- 11.7 9.10 4.37 2.21 1.3 1.10 .99 1.13 1.51 10.1 30 4.37 -- 10.1 7.54 4.07 2.10 1.2 1.10 1.01 1.1 11.7 10.1 31 4.07 -- 9.10 -- 3.78 -- 1.2 1.10 -- 1.1 -- 9.62 Total 352.71 270.60 221.34 280.24 156.58 125.66 44.89 35.51 30.98 36.72 49.142 316.73 Mean 6 11.38 9.66 7.14 9.34 5.05 4.19 1.45 1.15 1.03 1.18 1.65 10.22 m3x10 30.47 23.38 19.12 24.21 13.53 10.86 3.88 3.07 2.68 3.17 4.27 27.37 Aote:- Rocorder float resting on top of sediment demsit in gage well July 11 to Aug. 5. no gage-height record Sept. 12-22. Oct. 30 to how. 6; discharge estimated on basis of records for station on 'iahr Ib*ahim at Bazhal, recorded range in stage and weather records. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Da1LT DISCHAROIS Or YARR SL H:*I.B AT IL MOIHADA, LIBATOW CALM, =R TEAR 1952 . . . . . . . . . . . : Day Jan. Feb. Mar. Apr. . May June July Aug. Sept. Oct. Jov. t Dec. 1 9.10 19.5 13.3 20.5 14.8 3.02 4.68 1.80 1.5 1.22 1.3 2.61 2 8.58 45.5 15.8 19.5 11.2 4.07 4.37 1.69 1.5 1.20 1.2 1.85 3 8.06 93.2 20.5 20.5 9.62 5.00 4.68 1.67 1.4 1.20 1.4 1.65 4 8.06 126. 16.4 21.0 8.58 5.00 4.68 1.63 1.4 1.20 1.3 1.61 5 8.06 90.5 13.8 22.1 8.06 4.37 4.68 1.61 1.4 1.20 1.22 1.55 6 10.7 41.9 12.7 19.5 8.06 4.07 4.37 1.61 1.4 1.20 1.22 1.53 7 17.9 29.8 12.2 17.4 7.54 3.78 a 4.37 1.61 1.4 1.20 1.22 1.49 8 14.8 26.2 14.8 16.4 7.54 4.37 4.07 1.59 1.4 1.20 1.22 1.45 9 13.3 24.6 22.1 14.8 8.06 5.34 4.07 1.57 1.4 1.20 1.22 1.45 10 12.7 20.5 37.8 12.2 8.06 5.34 4.07 1.6 1.4 1.20 1.22 1.47 11 11.2 26.7 13.9 9.62 6.54 5.00 4.07 1.6 1.4 1.20 1.24 1.5 12 13.3 21.5 31.9 8.58 6.54 5.34 4.07 1.55 1.4 1.22 1.80 1.6 13 23.6 17.9 27.7 7.54 6.10 5.00 4.07 1.5 1.4 1.20 1.44 4.0 14 19.0 16.4 24.1 6.54 6.10 4.68 4.07 1.5 1.4 1.20 1.30 12. 15 15.8 15.3 26.2 5.70 5.70 4.68 3.51 1.5 1.4 1.20 1.25 4.07 16 20.0 13.8 24.6 5.34 5.34 4.37 3.26 1.5 1.3 1.19 1.28 3.78 17 16.4 12.7 24.1 5.34 5.00 4.37 3.26 1.5 1.3 1.17 1.20 4.37 18 14.3 11.7 20.5 5.70 5.00 4.37 3.51 1.5 1.3 1.19 1.25 4.07 19 13.3 11.2 18.4 10.1 5.00 4.37 3.26 1.5 1.3 1.17 1.25 4.07 20 12.2 10.7 18.4 36.1 4.37 4.37 3.26 1.5 1.3 1.19 1.25 5.00 21 11.7 10.1 31.4 17.4 3.78 4.37 3.51 1.5 1.3 1.17 1.25 4.37 22 11.2 10.7 22.1 12.7 3.78 5.00 3.26 1.5 1.30 1.19 ?1.25 4.37 23 11.2 9.62 19.0 10.7 4.37 5.00 3.26 1.5 1.30 1.17 1.38 4.68 24 10.7 10.1 16.9 9.10 4.07 5,34 2.80 1.5 1.24 1.17 1.32 4.07 25 9.62 9.62 15.8 8.58 4.07 5.34 2.80 1.5 1.22 1.19 10.7 3.26 26 8.58 8.58 15.8 8.06 5.00 5.34 2.80 1.5 1.20 1.20 4.68 8.58 27 8.58 8.06 16.9 9.62 5.00 5.34 2.80 1.5 1.20 1.22 3.51 16.9 28 8.58 7.54 17.9 10.7 4.07 4.68 2.61 1.5 1.20 1.2 3.51 6.54 29 8.06 9.62 17.9 11.2 3.26 4.37 2.10 1.5 1.20 1.2 4.07 4.37 30 7.54 -- 19.0 26.7 3.02 4.07 2.10 1.5 1.20 1.2 3.78 3.78 31 8.06 -- 19.5 - 3.02 - 2.00 1.5 -- 1.4 -- 4.07 Total 374.18 759.54 641.4 409.22 190.65 139.76 110.42 48.03 40.06 37.26 61.23 126.11 Mean 6 12.07 26.19 20.69 13.64 6.15 4.66 3.56 1.55 1.34 1.20 2.04 4.07 ?3:10 32.33 65.62 55.42 35.36 16.47 12.08 9.54 4.15 3.46 3.22 5.29 10.90 Calendar Year 1952: Max 126 Min 1.17 Mean 8.03 a3x106 253.84 32ta:- Recorder float resting on top of sediment deoosit in Rags well Aug. 10 to Sept. 21, no dage- hei,tht record Oct. 28 to Jov. 4, Dec. 11-14; discharge estimated on basis of records for station on 9ahr Ibrahim at Bashal, recorded range in stage and weather records. Shifting-control method used June 17 to Aug. 5. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILY DIS(S(AR02 Of IALIB YL. K AM AT Al MOKKADA, LICIANOI CAWMAB Y AH 1953 (Cubic meters per second) 1 4.07 5.34 15.3 65.2 16.9 10.7 6.10 1.72 1.3 1.2 1.19 2.80 2 5.00 5.00 16.4 43.7 15.3 ?11.2 5.70 1.72 1.3 1.2 1.20 2.80 3 7.02 5.00 16.4 35.5 13.8 11.2 5.34 1.65 1.3 1.2 1.20 2.80 4 6.10 5.00 16.4 29.3 12.2 10.7 6.10 1.39 1.3 1.2 ?1.20 3.02 5 5.00 7.54 14.3 25.2 11.7 9.62 7.54 1.57 1.3 1.2 1.20 3.26 6 4.07 13.8 16.9 23.1 14.8 9.62 7.54 1.53 1.3 1.24 1.20 3.02 7 4.37 14.8 24.6 22.6 19.0 10.7 7.02 1.53 1.3 1.19 1.27 2.61 8 3.78 11.7 20.5 21.5 14.8 10.7 6.54 1.47 1.3 1.14 1.30 2.46 9 3.78 40.5 17.4 22.1 11.7 10.1 6.54 1.44 1.2 1.16 1.30 2.21 10 4.37 53.4 21.0 21.5 13.3 10.1 6.10 1.44 1.2 1.16 1.3 2.10 11 15.3 39.5 32.9 22.1 13.3 9.62 5.00 1.42 1.2 1.16 1.3 1.92 12 16.9 33.4 43.1 23.1 10.7 10.1 6.54 1.40 1.2 1.16 1.30 1.80 13 14.3 23.6 29.3 25.2 10.1 10.1 6.10 1.40 1.2 1.17 1.32 1.76 14 9.62 19.0 24.6 23.1 10.1 9.62 5.70 1.38 1.2 1.17 1.30 1.72 15 6.10 17.4 25.7 19.5 12.7 9.62 5.00 1.37 1.2 1.17 1.30 1.67 16 5.00 22.6 22.1 20.0 13.3 9.62 3.78 1.35 1.2 1.19 1.30 1.67 17 5.34 24.1 19.5 22.6 12.7 9.62 4.37 1.35 1.19 01.19 1.30 1.6? 18 4.68 37.2 21.5 22.6 12.7 8.58 4.37 1.35 1.20 1.17 1.61 2.80 19 4.68 32.4 22.1 20.5 10.1 7.02 4.07 1.33 1.20 1.17 3.02 4.37 20 4.37 36.1 23.1 17.4 9.10 6.54 3.26 1.35 1.19 1.17 3.51 3.78 21 4.07 24.1 21.0 16.4 9.10 6.10 3.2 1.33 1.20 1.19 3.26 3.26 22 6.54 19.0 19.0 15.3 9.10 6.10 3.1 1.32 1.20 1.19 2.80 3.02 23 9.10 16.9 17.9 14.3 8.06 6.10 3.1 1.32 1.20 1.17 2.33 3.26 24 11.7 16.9 16.4 13.3 7.02 6.10 3.1 1.32 1.22 1.19 12.7 6.54 25 12.7 14.3 15.3 13.3 8.06 6.54 3.02 1.33 1.20 1.19 29.3 27.? 26 12.7 12.7 15.3 13.8 9.62 6.54 2.61 1.30 1.38 1.20 14.3 20.0 27 10.1 14.3 16.9 14.3 9.10 6.10 2.61 1.30 1.28 1.20 7.54 14.3 28 8.58 13.3 20.0 14.3 8.06 6.10 2.33 ?1.28 1.22 1.20 4.37 13.3 29 7.54 - 24.6 15.3 8.06 5.70 1.92 1.30 1.22 1.20 3.51 12.7 30 6.54 27.2 16.9 8.06 * 5.70 1.92 1.30 1.2 1.20 3.02 11.7 31 5.70 - 39.5 - 8.58 - 1.85 1.30 - 1.19 - 43.7 Total 229.12 578.88 676.2 673.0 351.12 256.16 141.47 43.76 37.10 36.73 112.75 209.72 ~as 6 7.39 20.67 21.81 22.43 11.33 8.54 4.56 1.41 1.24 1.18 3.76 6.77 .%xl0 19.80 50.02 58.42 58.15 30.34 22.13 12.22 3.78 3.21 3.17 9.74 18.12 NOTA:- Recorder float resting on top of sediment deposit in page well Sept. 1-16. no gaga-height record July 21-24, Sept. 30 to Oct. 5. Nov. 10. 11; discharge estimated on basis of records for station on Nahr Ibrahim at Asshal. recorded range in stage and weather records. Shifting-control method used June 17 to July 20. 25 to Sept. 10. 18-29. Oct. 6 to Nov. 9, 12-22. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILY DISCBAitG OP IAER AL L L3 AT 8L MOYRADA, LiBAMOI CAL3IDAR YAAR 1954 (Cubic meters per second) 1 36.1 24.1 23.6 41.3 18.4 12.7 14.8 5.34 1.33 1.14 1.04 1.44 2 22.6 21.0 22.6 33.4 19.0 11.7 14.8 4.37 1.33 1.14 1.04 1.44 3 29.8 22.6 22.1 26.7 19,0 12.2 14.3 2,61 1.33 1.14 1.04 1.42 4 28.3 29.8 22.1 23.6 18.4 12.2 13.8 2.33 1.30 1.14 1.04 1.40 5 29.3 30.3 25.7 29.8 18.4 11.7 14.3 2.21 1.28 1.13 1.03 1.63 6 22.1 25.2 26.2 27.2 17.9 11.7 13,3 2.10 1.30 1.1 1.03 2.61 7 18.4 22.1 23.6 25.2 18.4 11.7 13.8 1.92 1.30 1.1 1.03 2.61 8 18.4 20.5 22.6 23.6 17.9 11.7 13.8 1.80 1.28 1.10 1.01 2.10 9 23.1 27.2 22.6 22.1 16.4 12.7 13.8 1.80 1.28 1.10 1.01 1.72 10 17.4 38.3 23.1 28.3 15.8 14.3 13.8 1,72 1.25 1.10 1.01 1.61 11 18.4 37.2 21.0 30.8 15.8 13.3 13.3 1.69 1.24 1.10 1.01 1.53 12 33.4 34.4 20.0 25.2 15.8 12.2 13.3 1.72 1.22 1.10 1.01 1.49 13 36.1 30.8 21.0 22.6 15.3 11.7 13.3 1.67 1.22 1.08 1.01 1.47 14 25.7 28.3 21.0 28.3 14.8 11.7 13.3 1.63 1.22 1.08 .99 1.42 15 21.0 28.3 20.0 24.1 13.8 11.7 13.3 1.61 1.20 1.08 .99 1.40 16 17.9 25.2 19.0 25.2 13.8 11.2 13.8 1.61 1.20 1.07 .99 1.40 17 16.4 23.6 25.7 24.1 13.3 11.2 13.3 1.59 1.22 1.06 '1.06 1.4 18 14.8 23.1 33.9 23.1 13.3 11.2 13.8 1.57 1.20 1.06 1.14 1.4 19 13.3 32.9 25.7 22.1 ?13.8 12.2 15.3 1.55 1.19 1.06 1.24 1.4 20 15.8 36.1 22.1 21.5 13.8 12.7 13.8 1.55 1.19 1.06 1.19 ?3.0 21 15.3 29.8 25.2 21.5 13.8 13.3 12.2 1.53 1.19 ?1.06 1.20 9.0 22 18.4 26.7 28.8 24.1 13.8 13 12.2 1.53 1.19 1.06 1.27 7.0 23 36.1 25.2 30.8 23.1 14.3 13.3 12.2 1.51 1.20 1.06 1.42 6.0 24 32.4 24.6 30.3 21.0 14,8 13.3 9.62 1.51 1.24 1.06 2.61 10. 25 26.7 27.2 25.7 20.0 14.3 12.7 7.02 1.49 1.20 1.06 1.92 6.10 26 25.2 31.4 23.6 19.0 14.3 13.3 7.02 1.49 1.16 1.06 1.55 4.68 27 41.9 28.3 22.6 17.9 14.8 13.3 8.06 1.47 1.16 1.06 1.45 4.07 28 30.3 25.2 22.1 17.9 15.8 12,7 7.54 1.38 1.16 1.06 1.40 5.34 29 23.6 - 23.6 17.9 15.3 12.2 6.54 1.32 1.16 1.06 1.37 7.02 30 28.3 - 23.6 18.4 14.8 13.3 5.34 1.32 1.16 1.04 1.40 7.02 31 28.8 - 24.6 - 13.8 - 5.70 1.32 - 1.06 - 9.62 Total 765.3 779.4 744.5 729.0 482.9 372.1 370.44 58.26 36.90 33.58 36.50 109.74 Mean 24,69 27.84 24.02 24,30 15.58 12.40 11.95 1.88 1.23 1.08 1.22 3.54 ,3x106 66.12 67.34 64.32 62.99 41.72 32.15 32.01 5.03 3.19 2.90 3.15 9.48 Calendar Year 1954: Max. 41.9 Min. 0.99 Mean 12.38 ,3x106 390.40 AMC:- No gage-height record June 22, Oct. 6, 7, Dec. 17-24; discharge estimated on basis of records for station on Nahr Ibrahim at 9ashal, recorded range in stage, and weather records. Shifting-control method used Aug. 24 to Oct. 5, 8 to Dec. 16, 23-31. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 DAILY DISCHARGE OF NAHR EL KELB AT EL I4OKHADA, LEBANON CALENDAR YEAR 1955 Day 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Total Mean m3x106 s Jan. Feb. Mar. Apr. May June July Aug. Sept. Oct. Nov. Dec. 7.54 2.9 5.00 12.7 7.54 5.34 1.76 1.13 1.14 0.95 0.87 6.10 2.80 * 4.68 13.8 6.54 4.68 1.72 1.11 1.14 .94 .86 5.34 2.80 5.00 14.3 7.54 4.68 1.69 1.11 1.13 .92 .86 4.68 3.51 5.34 14.3 8.06 4.68 1.69 1.10 1.13 .91 .86 4.07 4.07 5.70 13.3 6.54 4.68 1.69 1.10 1.14 .91 .86 3.51 17.9 11.7 12.7 6.10 5.00 1.67 1.10 1.14 * .88 .86 3.26 20.5 12.7 * 10.7 6.10 4.68 1.67 1.10 1.14 .88 .86 3.26 13.8 9.62 13.3- 6.54 4.37 1.67 1.10 1.14 .88 * 3.02 11.2 8.06 17.4 7.02 4.68 1.65 1.10 1.14 .88 2.80 9.62 7.02 17.4 8.06 5.34 1.65 1.10 1.16 .88 3.02 29.8 6.54 21.1 * 7.54 4.68 * 1.65 * 1.08 1.16 .88 4.07 17.9 14.8 17.4 7.02 4.07 1.61 1.08 1.16 .88 4.37 13.8 16.9 15.8 6.54 * 4.07 1.57 1.08 1.16 .87 6.54 11.2 16.4 14.8 6.10 3.78 1.53 1.07 1.16 .87 5.00 9.10 24.6 13.8 5.70 3.26 1.53 1.07 1.17 .87 4.07 8.06 35.0 12.2 5.34 2.61 1.51 1.07 *1.16 .87 3.51 7.54 29.8 11.2 5.34 2.80 1.51 1.07 1.14 .87 3.02 6.54 30.8 10.7 5.34 2.46 1.51 1.08 1.10 * .86 *33.02 6.10 26.7 10.7 6.10 2.21 1.45 1.08 1.08 .86 3.02 5.70 21.0 10.1 6.10 2.33 1.33 1.08 1.06 .85 3.26 5.34 18.4 9.62 5.34 2.61 1.32 1.08 1.04 .86 2.80 6.54 16.4 9.10 5.70 2.21 1.32 1.10 1.01 .86 3.02 6.54 * 15.3 8.06 5.34 2.00 1.30 1.10 1.00 .84 2.80 6.10 14.3 8.06 5.00 2.00 1.30 1.10 1.00 .84 3.26 5.70 13.3 9.10 5.00 1.92 1.30 1.10 .99 .84 3.26 5.34 12.2 10.1 4.37 1.85 1.28 1.10 .99 .83 3.26 5.00 12.2 9.10 4.37 1.85 1.28 1.11 .97 .85 3.26 5.00 13.3 8.58 4.37 1.80 1.25 1.11 .99 .86 3.2 - 11.7 8.06 4.68 1.80 1.20 1.13 .97 .85 3.1 - 11.2 8.06 5.00 1.80 1.14 1.13 .97 .85 3.0 - 11.2 -- 5.34 - 1.14 1.14 - .87 117.44 250.40 446.86 365.54 185.67 100.24 45.89 34.01 32.68 27.06 6.03 (1-7 3.79 8.94 14.41 12.18 5.99 3.34 1.48 1.10 1.09 .87 .86 (1-7 10.15 21.63 38.61 31.58 16.04 8.66 3.96 2.94 2.82 2.34 0.52 (1-7 Note: No gage-height record Jan. 29 - Feb. 1; discharge computed on basis of records for station on Nahr Ibrahim at Bazhal, recorded range in stage, and weather records. Shifting-control method used Jan. 1-28, Feb. 2 to Mar. 19, Apr. 16 to June 21, Aug. 13 to Nov. 7. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Noboo Cho~broukc rroya ohr MCS!\ Nobw e! sse! Natural bridge 'I \?AWw Sakie N A 235 225, LEGEND O Existing Rain Gage 0 Proposed Automatic Rain Gage A Existing Stream Gage .,? -. Proposed Snow Survey Gage A Proposed Stream gage o Rtoposed Sediment Measuring Station I 0 2 3 4 5 SCALE OF KILOMETER S UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION WATER RESOURCES RECONNAISSANCE HYDROLOGIC STATIONS NAHR EL KELB DR,__J.M?B? __SUBMITTE 4*: 60_ C N_ _ RECOMMENDEDX9V_ B - _ APPROVED 9a Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 2 . .80 1 90 . 14 1 80 . .70 1 70 . 1 60 . .60 9 90 100 110 0 1 50 . ~ /0 5 ~ 9 1 40 i 210 50 . loo, / . 70 80 0 2 1 30 ' 0 023 0 . HIGH WATER CURVE 1 2 N . 6 40 0 1B X LOW WA TER CU RVE W 1 10 19 . I- 3 W Rating dated 11-4-55- , M 1 00 . used from Feb. 21, 1949 ~ .30 _ Rating dated ll 4 - 55 Z used from Feb. 21, 1949 - 90 . , 80 20 x. . W 24 W 70 2. W W 60 . z .10 Q 17 Note : All discharge measurements plotted to the ~ 50 . low water scale = 29 0 . 0 4o W 0 2 7 30 W . 20 0 15 . -.10 16 10 5 . 6 0 13-12 20 21 22 23 24 25 26 27 0 -.20 UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION - 10 WATER RESOURCES RECONNAISSANCE . 27 28 STAGE-DISCHARGE RATING CURVE EL MOKHADA GAGE _2 30 -. 0 1 2 3 4 5 6 7 8 9 10 I I 12 13 14 15 1 6 17 1 8 19 NAHR EL KLB DISCHARGE IN CUBIC METERS PER SECOND (LOW WATER) DR___J.MB_ _SUBMITTE ~_______ -~ 0 1 0 20 30 40 5 0 TR. J MK K. RECOMMENDED3 t7 ?_t1 C APPROVED_Ki97_ A! DIS CHARGE IN CUBIC METERS PER SECON D (HIGHER WATER) _ BEIRUT, LEBANON JAN /0, 1956 Q Q - ( - 86 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLE 111-8 AVERAGE MONTHLY RESERVOIR EVAPORATION (Millions of cubic meters) Month Evaporation Month Evaporation September -0. 3 March 0. 0 October -0. 3 April -0. 1 November -0.2 May -0.2 December 0. 0 June -0. 2 January +0. 1 July -0.3 February +0.1 August -0.3 Total: -1.7 A gaging station was installed by the Ministry of Public Works on the Nahr el Kelb at El Mokhada on February 21, 1949. The location of this station is shown on Plate III-1. This station has been operated by that agency since its installation. The drainage area above the El Mokhada station is 249 square kilometers. Average monthly discharges as determined from the records at this station, are shown in Table 111-9. These discharges do not include that of the El Wata Canal which starts from a diversion 250 meters above the gaging station. Since 1949 about 29 measurements have been made at the El Mokhada gage. The results of these measurements are shown in Table III-10 and have been used to es- tablish the stage-discharge relation for that gage as shown in Plate 111-2. The estab- lished rating curve was used throughout the period of gage-height record with applicable shifting control. No high-water measurements have been made at the El Mokhada gaging station. The rating curve was extended beyond the 0. 80 meter gage height by averaging four synthetic methods. Therefore, the high-water portion of the stage-discharge rating curve should be used with extreme caution until it can be verified by actual discharge measurements. Average daily discharges at the El Mokhada gaging station, for calendar years 1949 through 1955, are shown on the seven sheets of Table III-11. Average Year Discharges Mean monthly discharges compiled from the monthly discharge records avail- able and shown in Table 111-9, were determined for the station at El Mokhada: The values shown in Table 111-12 have been assumed to represent the average year discharges at the El Mokhada gage. TABLE 111-12 MONTHLY DISCHARGES - AVERAGE YEAR NAHR EL KELB AT EL MOKHADA (Millions of cubic meters) Month Discharge Month Discharge September 3.21 March 49. 00 October 3. 26 April 42. 27 November 4. 86 May 27.05 December 14. 96 June 17. 41 January 31.6 8 July 11.78 February 40.98 August 4. 25 Total: 250.71 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 The monthly discharge records shown in Table 111-9 for El Mokhada gage were carefully considered. It has been assumed that each of the minimum monthly values shown in this table might occur during a single 12-month water year at El Mokhada and that such a combination of minimum monthly discharge represents the minimum year to be expected. The monthly discharges for this minimum year at El Mokhada are shown in Table 111-13. TABLE 111-13 MONTHLY DISCHARGES - MINIMUM YEAR NAHR EL KELB AT EL MOKHADA (Millions of cubic meters) Discharge Month Discharge September 2.68 M arch 19.11 October 2.34 April 26.60 November 3. 15 May 15. 45 December 8.06 June 8.66 January 10.15 July 3.88 February 18.00 August 2.94 Total: 121.02 The flows shown in Tables 111-12 and 111-13 represent average and minimum year flows in the Nahr el Kelb at the gage at El Mokhada. The monthly volume of flows in other parts of this basin during both the average water year and the minimum water year, could not be assumed to vary directly with the contributing drainage areas. It was observed that the Nahr el Kelb above the Jeita Spring was entirely dry during the 1955 irrigation season, because the flow in the upper reaches of the stream had been entirely appropriated for irrigation and domestic water supply usage. The flow of the Nahr es Salib, a tributary of the Nahr el Kelb, was entirely diverted into the Harjel Canal, or English Canal as it is officially called, immediately below the town of Harjel. The flow that entered the El Wata Canal and passed the El Mokhada gaging station during the summer and early fall of 1955, came from Jeita Spring seepage and small springs between Jeita spring and the gaging station. Table 111-14 lists all known miscellaneous discharge measurements made in the Nahr el Kelb Basin. These measurements, in conjunction with those listed in Table III-10, were used to estimate the available flow at the potential dam sites. The estimated available flows at the Jeita, Balloune, Qlayaat, and Mayrouba dam sites were ;considered to vary directly with the contributing drainage areas in re- spect to the flow of the Nahr el K.elb immediately above the Jeita Spring. This flow equals the flow at the El Mokhada gaging station plus the flow into the El Wata Canal, minus the flow from Jeita Spring and the seepage below Jeita Spring. The known measurements were analyzed to estimate the flows of the Jeita Spring and the seepages between Jeita and the gaging station. The monthly flows for the average and minimum years for the Jeita Spring are shown in Table 111-15. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 MISCELLANEOUS DISCHARGE MEASUREMENTS NAHR EL KELB BASIN (Cubic meters per second) Discharge Aug. 8, 1955 0. 142 Oct. 13, 1955 0.137 Oct. 18, 1955 0. 142 Aug. 9, 1955 0. 075 Oct. 13, 1955 0. 052 Nov. 20, 1938 0. 362 Oct. 3, 1939 0. 262 Oct. 1, 1940 0.287 July 30, 1947 0. 462 Oct. 21, 1948 0.201 Aug. 14, 1951 0. 312 Oct. 22, 1951 0. 219 Nov. 2, 1951 0. 220 July 4, 1952 0. 500 Oct. 13, 1955 0.218 Nov. 29, 1955 0. 532 Aug. 8, 1955 0. 051 Oct. 13, 1955 0.022 Nov. 30, 1955 0. 182 Nabaa el Kana Dec. 2, 1955 0. 057 Nabaa Chabrouka Dec. 2, 1955 0. 027 Nahr Chabrouka, Div. Dam Site Dec. 2, 1955 0.068 Nabaa es Sakie Dec. 6, 1955 0.027 Jeita Spring (in Grotto) Dec. 8, 1952 1.786 Nov. 5, 1953 1.674 Oct. 18, 1955 1.117 Dec. 8, 1952 0. 479 Nov. 5, 1953 0. 263 Source de Tannoury Oct. 1955 0. 008 Ain es Souane Nov. 29, 1955 0. 002 Ain Tannour Nov. 29, 1955 0.003 Nabaa Sannine Aug. 12, 1955 0.026 Oct. 10, 1955 0.015 Jan. 12, 1956 0. 075 Nabaa Bakich Anna Bakich Jan. 9, 1956 0. 008 Group Jan. 9, 1956 0. 003 Nabaa Jafar Jan. 9, 1956 0.008 Nabaa Ghabieh Jan. 12, 1956 0.011 Nabaa el Jozat Jan. 13, 1956 0.141 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 ESTIMATED MONTHLY DISCHARGES OF JEITA SPRING AND SEEPAGE BETWEEN JEITA SPRING AND EL MOKHADA GAGING STATION Month Average Year Discharge Minimum Year Discharge September 5.18 4.67 October 5. 49 4. 42 November 5.18 4. 48 December 5. 36 4. 55 January 5. 89 4. 96 February 6.05 5.08 March 7.63 6.29 April 8. 55 7. 00 May 9. 91 8.04 June 9. 07 7.13 July 8, 57 6. 43 August 6.03 5.09 It was extremely difficult to compute the average and minimum year flows for the potential dam sites in the extreme upper end of the Nahr el Kelb Basin. No discharge measurements have been made at the sites except the single measurements made in November and December of 1955. Although flow would otherwise exist at these sites during the entire year, all flows of these small tributaries are used for irrigation during the growing season, except that of El Aassel whose major diversion is for municipal water supply. In the estimate of flows for these diversion dam sites, it was considered that these prior water rights would be respected and that no flows would be available dur- ing the irrigation season for new diversions. The estimated flows at these upper sites (Hardoun, Chabrouka, El Aassel, El Leben, and Fakra) were based on the single meas- urements and on information of the spring and stream flow characteristics as supplied by local residents. The flows at these sites should be used with extreme caution, since the estimates were based on such extremely limited data. Available Irrigation Water In the mountain section of the Nahr el Kelb Basin a number of springs have been developed for domestic water supply and for irrigation. Canals have been constructed over the centuries for conveying the water from these springs to points where it is used for these purposes. No measuring devices have ever been installed at these springs or on these canals, and water distribution is made by estimation. A limited number of dis- charge measurements were made at some of these springs during 1955 as a part of the Lebanese-American technical assistance program for village water supply. The results of these measurements are shown in Table 111-14 and in Table VII-1 in Section VII - DONIESTIC WATER SUPPLY. Table 111-1.4 shows that most of these springs have relatively small discharges. Field reconnaissance indicates that there is insufficient water available to appreciably increase the extent of the irrigs.ted areas. Likewise, as indicated in Section VII, most of the available water in the mountain section will be required for village water supply and for the existing irrigation development. Therefore, no values have been de- termined for the amounts of water being used, or of that available for future use. Pro- vision has been made for future measurement of the water available at springs and in the canals in the mountain section, as well as those in the coastal section. The need and proposed program for this work are discussed in Section IX - ADDITIONAL INVESTI- GATIONS NECESSARY. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 Water is diverted from the Nahr el Kelb into the El Wata Canal to irrigate lim- ited areas of land in the bottom of the valley and a small area north of this basin along the coast. The diverion for the El Wata Canal is located about 250 meters above the El Mokhada gaging station. Some flow measurements have been made on this canal as shown in Table III-10, and indicate a diversion of 0. 37 to 1. 04 cubic meters per second. A staff gage was established in the canal in October 1955 with the expectation that the Min- istry of Public Works would obtain daily stage readings so that daily diversions of flow could be calculated. Flow discharge in the El Wata Canal cannot be correlated to the stage records obtained at the gaging station. The miscellaneous discharge measure- ments of the canal were carefully considered to evolve an estimate of the monthly diver- sions of flow for the minimum and average years. These discharges are shown in Table 111-16. ESTIMATED MONTHLY DIVERSIONS INTO EL WATA IRRIGATION CANAL Average Year Discharge Minimum Year Discharge September 1.40 1.71 October 1.87 2.06 November 1.56 1.27 December 1.48 1.20 January 1.80 1.47 February 1.59 1.29 March 1.70 1.38 April 1.19 1.50 May 1.67 2.09 June 2.12 2.70 July 2.00 2.44 August 1.60 2.01 Water is also released from the Dbaiye Water Supply Canal through gate valve turnouts to supply irrigation flow to small areas of land on the southside, or left bank, of the Nahr el Kelb. The amount of water diverted is very small, as shown in,the list- ing of Table III-10. All of the land suitable for irrigation in the area below the gaging station has been developed for many years, and no expansion of such areas is contemplated. How- ever, the water rights for these irrigated areas probably antedate those owned by the city of Beirut and used for its municipal water supply. Therefore, these irrigation rights will probably continue to be respected and sufficient water will probably be re- leased for them, even if all of the water appears to be necessary for domestic water supply, unless these water rights could be subordinated with equitable compensation. It is estimated that such irrigation diversions at present amount to a maximum of about 1. 0 cubic meters per second. However, with proper care and use of the irrigation water, the diversions could probably be reduced to a third of this amount. From the very limited information supplied by residents in the upper reaches of the Nahr el Kelb, estimates have been made of the amount of water that is diverted for irrigation use in the tributaries where the construction of diversion dams is contem- plated. The estimate of monthly flows for the average and minimum years are listed in Table 111-17. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 ESTIMATED MONTHLY DIVERSIONS INTO IRRIGATION AND MUNICIPAL WATER SUPPLY SYSTEMS UPPER NAHR EL KELB BASIN (Avg = Average year Min = Minimum year) Month Harjel Ouadi Canal Hardoun Ouadi Chabrouka El Aassel _ El Leben - Fakra - Avg Min Avg Min v 1VUn Avg Min A __Mm Avg min Jan. -- - - - - -- 1.00 1.00 -- -- -- -- Feb. - -- -- - -- -- 1.00 1.00 -- -- -- -- Mar. - -- - -- 1.00 1.00 -- -- -- -- Apr. May -- -- 0.31 -- 1.60 - 0.33 1.40 - 0.50 1.00 2.30 1.00 1.90 -- -- -- 0.60 -- 0.40 0.20 June 0.62 0.62 0.74 0.41 0.75 0.49 1.40 1.60 1.40 0.54 0.18 0.18 July 0.62 0.51 0.80 0.27 0.78 0.27 1.30 1.10 0.64 0.25 0.17 0.09 Aug. 0.48 0.41 0.40 0. 17 0.40 0.14 1.10 0.86 0. 32 0.13 0.08 0.04 Sept. 0.38 0. 36 0.20 0. 10 0.21 0.07 0.82 0.67 0.20 0.09 0.04 0.02 Oct. 0.42 0. 36 0.05 0. 07 0.06 0.04 0.72 0. 58 0.07 0.06 0.01 0.01 Nov. -- 0.36 -- - -- -- 1.00 0.75 -- 0.03 -- De c. - - - - 1.00 1.00 =- -- -- -- Water from Jeita Spring is used for power. production at the lower Nahr el Kelb (Mar Elias) Power Plant. This plant has a head of 11 meters and an installed capacity of 160 kilowatts in two units. Omar Ajam, Chief of the Electric Service, Ministry of Public Works, reports that the water capacity of this plant is 2. 4 cubic meters per second, but that during the summer months there is only sufficient water to operate one of the units. Discharge from this plant enters the Nahr el Kelb above the El Mokhada gaging station and is included in the discharge shown for that station in Table 111-9. There is another power plant immediately below Jeita Spring on the south bank of the Nahr el Kelb. Also, a new power plant is under construction on the north bank, about 500 meters below the upper plant. Data and characteristics of these plants are discussed in Section IV - POWER DEVELOPMENT. A small run-of-the-river plant is on the Nahr Hassen below Nabaa el Aassel. Water for Domestic Water Supply he Nahr el Kelb is the principal source of the water supply for the city of Beirut. The intake for the Beirut Water System is below the Mokhada gage, and all water entering the system is measured at the El Mokhada gage. Values shown in Table III-9 include the water diverted for domestic use in Beirut. Additional details are given in Section VII - DOMESTIC WATER SUPPLY. Sites Selected. Nine dam sites were selected as locations for potential power plant diversion structures in the Nahr el Kelb Basin. Only the Mayrouba site has any appreciable storage capacity. The following tabulation indicates the general location of these dam sites and shows the area on the contributing drainage basin above each site. Plate VI-2 shows the location of the dam sites with respect to the proposed basin develop- r;cent, Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7 Dam Site Stream Drainage Area Above Dam Site (sq. cm. Jeita Nahr el Kelb 247 Balloune Nahr el Kelb 215 Qlayaat Nahr es Salib 92 Mayrouba Nahr es Salib 82 Hardoun Ouadi Hardoun 4. 4 Chabrouka Ouadi Chabrouka 15 El Aassel Nahr Hassen 14 El Leben Nahr el Leben 2. 1 Fakra Nahr es Samm 15 Available Water in a Minimum Year. The monthly discharges shown in Table 111-13 for the minimum year were transferred to all of the above sites, by the methods previously outlined. The resulting flows are shown in Table 111-18. Available Water in an Average Year. The monthly discharges shown in Table 111-12 for the average year were transferred to all of the diversion dam sites by the methods previously explained. Table 111-19 shows the available monthly flows at the diversion dam sites for an average year. Inflow Spillway Design Flood - Mayrouba Reservoir The Mayrouba Dam Site, proposed in this investigation, will create a storage reservoir located as shown on Plate VI-2. The reservoir would have a drainage area of about 82 square kilometers. Streams in this area have steep mountain slopes. There is little vegetation over the drainage area, but the geology is such that it has a definite karstic terrain. Faults, solution channels, and other errosive processes evident in the area are characteristics which indicate a fairly high retention capacity. This is further indicated by a number of sizable springs in the upper and middle parts of the basin. Snow occurs over the upper parts of this basin and accumulates in most years to consid- erable depths at the higher elevation. There are believed to be no evidences of snow appreciably effecting flood runoff because of the slow and even snowmelt. The snow, however, tends to produce a somewhat higher base flow in the streams during the sum- mer season, and thus it contributes additional water when most needed for irrigation, municipal water supply, and firm power production. Also, it is the main source of water supply for the springs found in the basin. In general, the surface drainage areas above the springs are small, but judging from the quantity of flow from these springs, the source of water from snowmelt must be from a much larger underground drainage area than is indicated on the surface. Snowmelt has been disregarded in the determina- tion of the inflow design flood. The lack of precipitation data for this basin and the very meager and poor streamflow data available, make it impracticable to develop an inflow design flood for the Nahr el Kelb Basin from such data. The absence of similar information from the other coastal basins in Lebanon made it necessary to use the data from other areas, where hydrologic characteristics appear to be similar to those of the Nahr el Kelb Basin. Unitgraph Derivation. The section of Southern California between Los Angeles and San Diego, and between Los Angeles and San Luis Obispo, resembles generally the coastal section of Lebanon. The San Gabriel, the San Luis Rey, the San Diego Rivers, and other small streams, drain the Los Angeles - San Diego area 'of California which is flanked on the north and on the east by the San Gabriel and Santa Ana Mountains. The Santa Clara, the Ventura, the Santa Ynez and the Santa Maria Rivers drain the Los Angeles - San Luis Obispo area of California which is flanked on the north and east by the northern end of the San Gabriel Mountains. These are predominently sedimentary areas but the formations are generally sandstones, shales, and conglomerates, rather than limestone as in Lebanon. Generally, it contains more vegetative cover than in the karstic limestone terrain of Lebanon; however, its relative runoff is believed to be about the same. Therefore, the values for the Southern California coastal area are believed to be indicative of the runoff peaks and volumes in the rivers of the coastal area of Leb- anon. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLR III - 1$ AVAIL,ABL!9 WATRR AT DIVERSION DAN SITES - MINIMIrM YF;AR (Units in millions of cubic meters) Month Jeita Balloune Qla t Mayrouba Hardoun Chabrouka El Aassel E11LLeben Fakra Sept. 0 0 0 0 0 0 0 0 0 Oct. 0 0 0 0 0 0 0 0 0 Nov. 0 0 0 0 0.07 0.04 0 0.04 0.011 Dec. 4.79 4.19 1.89 1.70 0.12 0.12 0.4 .40 .044 Jan. 6.76 5.92 2.66 2.40 .21 .43 1.3 1.0 .I2 Feb. 14.46 12.65 5.69 5.12 .33 .63 1.7 1.1 .21 Mar. 14.43 12.63 5.68 5.11 .62 1.2 299 1.9 .44 Apr. 21.45 18.77 8.44 7.60 .91 1.6 3.5 2.3 .70 May 9.67 8.46 3.80 3.42 .34 .50 0 .6 .20 June 4.30 3.76 1.69 1.52 0 0 0 0 0 July 0 0 0 0 0 0 0 0 0 Aug. 0 0 0 0 0 0 0 0 0 Total: 75.86 66.38 29.85 26.87 2.60 4.52 10.8 7.54 1.725 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 TABLX Ill - 19 AVAILAB.L1 WATER AT DIV ~ES1ON DAM SIT-+.S - AV1r1tAGE YEAR (Units in millions of cubic meters) Month Jeita Balloune la at Mavrouba Hardoun Chabrouka lit Aaaael L1 Leben Fakra Sept. 0 0 0 0 0 0 0 0 0.0 Oct. 0.15 0.13 0.06 0.05 0.06 0.06 0 0.07 .008 Nov. 1.26 1.10 0.50 0.45 0.12 .12 0 .17 .122 Dec. 11.27 9.86 4.43 3.99 0.22 .3 1.0 1.0 .i91 Jan. 28.07 24.56 11.03 9.93 0.51 1.2 2.0 2.5 .25 Feb. 37.14 32.50 14.61 13.15 1.1 1.7 2.6 3.1 .42 Mar. 43.81 38.33 17.23 15.51 2.7 3.2 4.1 4.8 .88 Apr. 35.51 31.07 13.96 12.57 4.9 4.4 4.8 5.7 1.43 may 19.13 16.74 7.52 6.77 1e6 1.4 1.4 3.1 .40 June 10.64 9.31 4.19 3.77 0.76 .75 .5 0 .18 July 5.30 4.64 2.09 1.88 0 0 0 0 0 Aug. 0.33 0.29 0.13 0.12 0 0 0 0 0 Total: 192.61 166.53 75.75 68.19 11.97 13.21 16.4 20.44 3.681 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 The shape and size of the drainage area above the Mayrouba Dam Site resemble the area above the Casitas Dam Site on Coyote Creek, in the Ventura River Basin of the California coastal area. Coyote Creek has a streamflow record beginning in 1927, and there are a number of rainfall stations in the vicinity of this basin. The dimensionless unitgraph for the Casitas Dam Site shown on Plate 111-3, was derived in December 1953 by the United States Bureau of Reclamation, Region 2 Office. It has been adopted for use in determining the inflow spillway design flood for the Mayrouba Reservoir in the Nahr el Kelb Basin. Lag data for streams in the same section of Southern California, discussed above, were considered in selecting a lag'value for the Nahr el Kelb Basin. Plate III-4 shows the lag relationship curve for Southern California Streams in which the parameter of lag in hours was plotted on log-log paper versus the parameter factor of L x Lea / SZ, in which L = length in miles of longest watercourse from point of collection to boundary of drainage area; Lca = length, in miles, along watercourse from point of collection to a point opposite the centroid of the area, and S = overall slope, in feet per mile, of long- est watercourse, L. A lag time of 1. 43 hours was adopted for the area above the upper end of the Mayrouba Reservoir Site on the basis of the calculated L x Lca / SZ factor of 1. 56. Using this lag time, a 15-minute unit hydrograph was computed from the dimen- sionless graph shown on Plate 111-3. This unit hydrograph, shown on Plate 111-5, has been used to determine the inflow spillway design flood for the Mayrouba Reservoir. Design Storm. The Lebanon coastal drainage basins are directly exposed to moist air moving in From the Mediterranean Sea. During periods when well-developed low pressure systems form in the Eastern Mediterranean, these basins will generally experience heavy orographic-type precipitation in addition to that resulting from con- vergent processes associated with the storm itself. In most respects these basins are similar to the Southern California coastal region. A comparison was made of the design storm values recommended for the Bisri Dam Site drainage basin as presented in the Development Plan for the Litani River Ba- sin4/ and that used over the Coyote Creek drainage basin above Casitas Dam Site. This comparison indicated that the incremental precipitation value for the most intense 6- hour period of the Bisri design storm is probably too small. It is believed that the long- duration design storm value derived for Casitas Dam Site would be appropriate for use in the derivation of the inflow design flood for Mayrouba Dam Site. This gave a total precipitation of 74. 93 centimeters in 65 hours. The distribution of this storm is shown on Plate 111-6. This storm would produce the maximum flood volume of runoff. Although extremely rare, there is evidence of short-duration storms of high intensity occurring in Lebanon. The storm of December 17, 1955 centered over the Nahr Barsa and the Nahr Abou Ali above the city of Tripoli. It produced approximately 102 millimeters of precipitation in two hours. Undoubtedly, topography exerted some influence in the production of this heavy precipitation; however, it appears physically possible for precipitation of this areal extent to occur anywhere along the windward side of the Lebanon Mountains. The distribution of this high-intensity and short-duration storm is shown on Plate 111-6. This storm would produce the maximum peak runoff. Retention Rates. No data are available to determine the actual retention rates in the Nahr el Kelb Basin. However, studies made for the Development Plan for the Litani River Basin and those for Southern California, indicate that a retention rate of 0. 1 inch per hour, or 2. 54 millimeters per hour, is applicable to the Nahr el Kelb Ba- sin. Design Flood Hydrograph. Inflow design floods were computed for the Mayrouba Reservoir using the design storms, the unit hydrograph, and the retention rate discussed above. The hydrographs computed for these floods are shown on Plate 111-7. The high- intensity and short-duration storm produced a peak discharge of 1, 140 cubic meters per second and a 12-hour flood volume of 7. 9 million cubic meters from a rainfall excess of 9. 68 centimeters. The long-duration design storm produced a peak discharge of 775 cubic meters per second and a 3-day flood volume of 49 million cubic meters from a rainfall excess of 59. 98 centimeters. These runoff values include a base flow for the Nahr el Kelb at the Mayrouba Dam Site of one cubic meter per second. Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 0.1 L 0 50 '00 150 200 250 300 350 400 450 500 Percent of ( L.ag + 112 Duration) ON TED STATES 1PA RTMFNI n% TNF ,NTERIOR BUREAU O R. AMATION w TER REsOur,; .Z' RECONNI /SSANCF DIMF_NSIONL E SS GRA PH MAYROUBA DAM SITE NAHR EL KELB Yy 4 _. Rf AMFVDcD_' QT /F~ a, U 70 6 01 cn W 60 5 3. U) 50 4 p m U e o~ 00, 0or Ole 0 40 O e O J~ 3 -J LL- LA- O o~ \ ` v ~e 30 Z cn \v`e \J o~ Y W aZ `~ 2 2 ~` a 20 o o~ e `A m ~ 15 ~ on e 10 0 8 o~ . Q 8 0 7 . = ix T 1 1 7 6 0 X A . "OF 6 0.5 5 Q - 4 e 0" 000' / 0.3 3 0, 0, 0 0 25 30 40 50 60 7080 100 150 200 300 400 500 0.2 UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION 01 I WATER RESOURCES RECONNAISSANCE 2 3 4 5 6 7 8 910 15 20 MEAN FLOOD FLOWS DRAINAGE AREA COASTAL LEBANON SQUARE KILOMETERS h DR.__D_E_D.___SUBMITTED,40,..~4 TR.__R. P.W _ RECOMMENDED! X_~ /~ Cd CH. f,. 4j APPROVED__. j BEIRUT, LEBANON. FEB. 4,I955 OA - 10 - 5 5 4 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 It was concluded that the average of the C. S. and C. V. values as calculated for the 1-, 2-, and 3-day flood volumes for the Nahr Ibrahim at Bazhal be used for the flood frequency studies of the Lebanese coastal streams. A coefficient of variation of 0. 56 and a coefficient of skew of 2. 18 were used in the analyses of the flood frequency studies for both peak discharge and flood volumes. The application of these average values to the mean flows as determined above, resulted in the frequency curves shown on Plates 111-9 through 111-17 for the diversion dam sites selected in the Nahr el Kelb Basin. It was concluded in the flood frequency studies that for any dam site having a drainage area less than 5. 0 square kilometers, consideration should be made for base flow if those sites are located immediately below natural springs. The base flow was considered to be the average flow for the maximum month during the average year. The base flow was added to the frequency values for both the Hardoun and El Leben Diversion Dam Sites. All of the proposed diversion dams will be relatively minor structures. The spillways for all of them have been designed to carry the 50-year flood as determined by the above methods. The peak flow values for the 50- and 100-year floods, in cubic meters per second, as shown by the curves on the above mentioned plates, are as fol- lows: Frequency in Years Jeita Balloune Qlayaat Hardoun Chabrouka El Aassel El Leben Fakra 50 473 437 260 30 78 72 17 78 100 571 527 314 35 94 87 20 94 These values seem reasonable for use in this type of reconnaissance survey. Because of the limited data available for these studies, the peak flows should be recom- puted when additional flood flow data becomes available. Diversion During Construction The frequency curves shown on Plates 111-9 through 111-17 have been used to determine the flows for which diversion should be planned during the construction period. It should be noted, that all floods in Lebanon occur during the 5-month period between November 1 and March 31, with the highest floods most likely to occur between Decem- ber 1 and March 31. Therefore, any construction activities which can be carried out between April 1 and October 31, may have their diversion requirements greatly reduced. The values shown in Table 111-20 have been taken from the frequency curves on the above plates and have been adopted for the selected diversion dam sites. Diversion Frequency Peak Volume (Millions of Cubic Meters) Dam Years (m3/second) 1-Day 2-Day 3-Day Mayrouba 5 114 3.50 6.02 8.12 10 149 4.56 7.84 10.6 25 200 6.12 10.5 14.2 Balloune 5 206 8.45 14.7 19. 7 10 268 11.0 19.1 25.6 25 360 14.8 25.6 34.4 Jeita 5 223 9.50 16.6 22.2 10 291 12.4 21.7 28.9 25 390 16.6 29.1 38.8 Qlayaat 5 123 3.89 6.73 9.04 10 160 5.07 8.77 11.8 25 215 6. 81 11.8 15.8 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 No. Stream Station 1 San Gabriel River 2 San Gabriel River 3 E. FK. San Gabriel River 4 W. FK. San Gabriel River 5 W. FK. San Gabriel River 6 Rogers Creek 7 Devils Canyon 8 Tujunga Creek 9 Big Tujunga Creek 10 N. FK. Mill Creek 11 Arroyo Seco 12 Millard Canyon 13 Rubio Creek 14 Day Creek 15 Cucamonga Creek 16 Lytle Creek 17 San Antonio Creek 18 San Jacinto River 19 San Dieguito River 20 San Luis Rey River 21 San Luis Rey River 22 Santa Ysabel Creek 23 Santa Ysabel Creek 24 San Diego River MAXIMUM RECORDED STREAM FLOW SOUTHERN CALIFORNIA STREAMS near Azuza above San Gabriel Dam No. 1 near Camp Bonita at Camp Rincon near Azuza above San Gabriel Dam No. 2 near Sunland at Tujunga Dam above Tujunga Dam No. 1 near Pasadena near Montrose at Rubio Falls near Etiwanda near Upland near Fontana near Claremont near San Jacinto near Escondido near Mesa Grande near Pala near Mesa Grande near Ramona Note: Data taken from information furnished by the Drainage I Peak discharge Maximum runoff Karem2 area mR3/seatec. m3x106 Volume Dates (incl. 546 2, 662 3/2/38 116 3/2 - 3/5/38 523 2,549 12/20/24 228 1, 303 3/2/38 66.1 2/28 - 3/8/38 963 3/2/28 76.9 3/1 - 3/4/38 702 3/2/38 234 3/2/38 3.64 2/28 - 3/4/38 40 651 3/2/43 275 1, 416 3/2/38 46.0 3/2 - 3/5/38 963 3/2/38 15. 0 207 3/2/38 42 244 3/2/38 9.99 3/1 - 3/3/38 7. 0 146 3/2/38 2. 3 57 3/2/38 119 3/2/38 4.50 2/28 - 3/4/38 26 292 3/2/38 8.70 2/28 - 3/4/38 121 714 3/2/38 32.7 3/1 - 3/4/38 44 606 3/2/38 15.5 3/1 - 3/6/38 363 1,274 2/16/27 785 2,039 1/27/16 541 1,659 1/27/16 103 1/25 - 2/2/16 834 2, 124 11/12/44 150 595 1/27/16 45.0 1/27 - 1/31/16 285 804 1/27/16 71.3 1/27 - 2/1/16 447 1/28/16 78.9 1/27 - 1/31/16 Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246A003400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 60 w I- U 50 45 U 40 LL O 35 v) Z O 30 J J g 25 DR.-- J. M B._ _ _SUBMITTE _ _ NAHR EL KEL BA N D Cf~-?~LIPPROVED_~ BEIRUT,LEBANON MAR.18, 1956 OA - 0 z 0 500 U U 450 400 Cr W 350 W 300 U m D 250 U 200 0 LL 150 a UNITED STATES DEPARTMENT OF THE INTERIOR BUREAU OF RECLAMATION WATER RESOURCES RECONNA/SSANCE FLOOD FREQUENCY JEITA DIVERSION DAMSITE Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7  Sanitized Copy Approved for Release 2011/06/21: CIA-RDP80T00246AO03400510001-7 U) a W 50 I- W 45 U_ 40 co U 35 LL 0 30 U) Z 0 25 20 W J 0 15 a 0 0 J LL DOS VpIUme 40 80 15 20 25 30 35 FREQUENCY IN YEARS 500 0 Z 450 CU W 400 c!7 350 W 1- 300 W 150 Y W a WATER RESOURCES RECONNAISSANCE FLOOD FREQUENCY BALLOUNE DIVERSION DAMSITE NAHR EL KELB BA IN DR.___J.M.B____SUBM/TTE __ TR. _ M. RECOMMENDEDL; !