UNCLA.4S IF I ED Thrritc-44+444.- � ' _ FIELD DOCUMENT ROUTING AND ACTION RECORD (b)(1: INSTRUCTIONS: Routing designations, either individuals or units, are to be placed in the "TO" column. Comments are to be numbered to correspond to the number in the "TO" column. Each comment is to be underlined with �a line drawn across the "COMMENTS" column. Each recipient of the attached document is to place his initials in the proper space following the corresponding numbered routing. The date the document is forwarded to the next routing is to be placed in the prover column. The last routing on this sheet shall be the unit in which the basic document is to be filed. If the holding unit is other than the central files, the central file shall be the next to the last routing to in- sure proper control clearances. THIS DOCUMENT ROUTING AND ACTION RECORD IS TO REMAIN ATTACHED TO THE BASIC RECORD DOCUMENT AS A PERMANENT RECORD. , FROM DOCUMENT SYMBOL AND NU 'aro Chief, DOCUMENT DATE 1960 ACTION SUSPENSE DATE 10 November TO LOCATION DATE FORWARDED OFFICER INITIALS COMMENTS I 4' \kocr /5-09,61/ / O/' OS 117, 74: d--- e 44, xitizuf a . An catbise! io. v ....... / 11. 12. 13. DOCUMENT PROCESSING DATA INDEXED 1 4. ABSTRACTED FILE NUMBER ------""--- FORM NO. 861 I DEC 55 C014.1-+ETATTAL Approved for Release: 2016/10/24 C05416081 UNCL ASS IF I ED I 40 I ST.,.N001F10 !ON NO. 04 4 Nor (7773a...1211' Approved for Release: 2016/10/24 C05416081 Office Memorandum UNITED STATES GOVERNMENT TO Chief of Statio FROM : Chief, SUBJECT: Report of Hot Air Personnel Balloon Flight Test I. Sponsors of Test: TSD/ED DATE: 10 November 1960 Contractor, Raven Industries, Sioux Falls, South Dakota II. Purpose of Test: To determine the feasibility and. practicality of hot air for use as the lifting medium for personnel balloons by testing hot air generating equipment and. a nylon-mylar material balloon. III. Date, Time and Place of Test: a. Date and Time - 22 October 1960, 0600 to 0930 hours. Place Balloon Launched - In Nebraska approximately 250 miles south of Sioux Falls at an abandoned Air Force Base called Bruning State Airport. IV. Material Tested.: A 40 ft. personnel balloon constructed of nylon-mylar cloth material equipped with a propane burner to provide continuous hot air during flight. Two propane bottles, containing a total of 83 lbs. of fuel, were utilized as fuel source during the flight. V. Background: TSD/EB awarded a contract to Raven Industries for the development of a hot air system for personnel balloons. Specifications called for development of a suitable balloon for use with hot air and generating equipment or burners to utilize kerosene or fuel oil (diesel). jr� Approved for Release: 2016/10/24 C0541608 Approved for Release: 20-16/10/24 CB5416081 The contractor has produced a satisfactory 40 ft. balloon frabricated of nylon-mylar material that will withstand heat and is extremely durable. A ten foot diameter opening has been incorporated into the top of the balloon for release of the gas for landing. The opening is tied. off for flight and can be released by either a primary release squib system or alternate manual release system. This method. of releasing the gas permits reuse of the balloon, versus the old. method of ripping a panel used with the polyethelene balloons. The lower portion of the balloon (see photo #8 lower dark part of balloon) is made of nonflammable glass cloth to prevent ignition of the balloon from the flame of the burner. To date the contractor has been unable to provide a satisfactory burner for utilization of low-grade petroleum such as fuel oil or kerosene. The difficulty being the residue deposit that forms over the burner and smothers the flame after 15 to 20 minutes of operation. A propane burner and propane fuel was used for the test. VI. The Test Flight: a. At 0600 on 22 October 1960 balloon launching preparations commenced. The balloon was launched. at 0908, wind. West about 3 mph, ground. temperature 59�F. The flight terminated. after a duration of 18 minutes, at 0926. No ballast was carried on the flight. Free lift when the balloon was launched. was sufficient to result in a rate of ascent of about 250 ft/min. With a burner output of about 3/4 maximum capacity the balloon achieved equilibrum at about 500 ft. altitude. After about 18 minutes of flight at 500 ft. the pilot by decreasing the hot air output of the burner commenced to descend for a practice landing. Due to a combination of the decrease of hot air input into the balloon and atmospheric cooling the balloon reached a rate of descent of about 400 ft/min. The pilot attempted to check the rapid rate of descent to a safe landing speed by opening the burner to fullblast to obtain the maximum hot air output. Although the rate of descent was decreased somewhat, equilibrum could not be obtained due to the incapability of the burner to produce sufficient hot air rapidly. Because descent could not be checked before contacting the surface the pilot extinguished the burner at an altitude of 50 ft. to preclude Approved for Release 2016/10/24 C0541608 Approved for Release: 2016/10/24 C05416081 II- setting the rig on fire on landing. Prior to landing when several feet above the ground the pilot activated, the squib release mechanism thereby opening the 10 ft. hole at the top of the balloon and releasing the hot air' for landing The landing was made without difficulty even though the rate of descent was quite rapid- A series of numbered photos of the layout, equipment, inflation, launching) flight, and post landing are included, with this report. Photos as follows: # 1 shows the balloon laid. out, two propane bottles, burner left center, and. two Kollsman kerosene heaters. # 2 and. 3 show a close up of the propane burner and. inflation duct. Lower part of balloon made of nonflammable glass cloth. # 4 shows the balloon partially inflated using one of the heaters as the hot air source. # 5 shows the lower portion of the balloon rigged with the propane burner and. two propane bottles, At this stage the propane burner has been lit and. the final inflation of the balloon was being completed. An auxiliary bottle was used for this so. as not to use up the fuel from the bottles rigged, for flight. # 6 shows one of the helpers in the pilot's seat serving as ballast to help hold the balloon. Inflation almost completed- # 7 shows the pilot in the seat, inflation completed and tie auxiliary bottle being held: and disconnected by one of the helpers. Instrukents can be seen on each side of the pilot. # 8 shows the balloon in flight. # 9 and. 10 show the rig as it landed after the flight of about 18 minutes. Note the pilots seat in the lower left of photo #9. No damage was incurred to any of the equipment as a result of the flight. - 3 - Approved for Release: 2016/10/24 C0541608 Approved for Release: 2016/10/274-6-65.41-60-81 L-11 tt VII. Comments: a. The Balloon: (a sample of the balloon material is attached to this report.) This was the first and. to-date the only balloon fabricated of nylon-myler material. Due to itE lightweight1(40 ft. balloon weight is 74 lbs.) durability and resistance to heat the material appears very suitable for personnel balloons. Results of this test indicated the material to be satisfactory. b. The Burner: The propane burner used. proved to be unsatisfactory. Although sufficient continuous hot air could be generated at maximum output setting to compensate for loss of hot air due to atmospheric cooling and. maintain equilibrum during flight, it was impossible to check descent and. regain eouilibrum once a descent was initiated.. It is estimated that a burner having double the output capacity of the present burner would. be required. in order to provide the margin of control capability required. for successful and safe operations. VIII. Conclusions: a. From the viewpoint of feasibility it can be concluded that hot air is satisfactory as the lifting gas for use with personnel balloon. b. From the viewpoint of practicability for covert operations it can be concluded at least at this stage of development that the system is not suitable. Conditional on the development of a burner that utilizes a low-grade petroleum, or perhaps a solid. fuel, I do not believe that this system holds much promise for covert operational use. c. It is concluded that the nylon-mylar material is most satisfactory for personnel ballons. pproved for Release: 2016/10/24 C05416081 Approved for Release: 2016/10/24 C05416081 .; IX. Recommendations: It is recommended that consideration be given to the development of nylon-mylar material personnel balloons for use in the 0Th personnel balloon training course. Involved in the development would. be the incorporation of a 60 lbs, valve and a modification of the lower part of the present model to accommodate the gondola. A substantial saving could be realized in the utilization of slch a balloon-because the same balloon could be used over and over indefinitely. 5 pproved for Release: 2016/10/24 C05416081 ye" i,/���� Approved for Release: 2016/10/24 CO5416081 - vie Chief of Statiouj of riot Air Person ye industries, Siot,r %�1s, South Ikkot To determine the f use as the lifting hot air generating balloon. , Date, Time Launched - In Nebraska south of Sioux Falls at an abandoned V. Backgeoun balloons by testin to .0930 hours. pycninately 250 miles trsunnal balloon constructed of nylon-mlylar cloth mipped with a propane burner to provie. continuous Two prepane bottles, containing a total of fuel, were utilized as fuel source during the WEB awarded a co tract tcj Raven Thdustris for the of a hot or vs.tarn forpersonnel called for dcve) opnent of a snitable balloon for use wa'th hot air and gene_ burners to heneane fuel oil (diese Approved for Release: 2016/10/24 C05416081 � Approved for Release: 2016/10/24 60-54166871-72' has been i of the gas and can be or alternat or 40 ft. balloon of nylmamylar material t w 11 withstand extremely durable. A ten foot diameter opening oryorated into the top of the balloon for release landing. The opening is tied off for flight by either a primary release .squib y manual release systam. This method of releasing the gas permits reuse of the balloon, versus the old method of ripping a panel used-with:the nolyetheiene balloons. The lower .portion of the balloon (else photo fa lower dark part of balloon)' is made of nonflammable glass cloth to prevent ignition of the balloon from the, flame of the burner. TO date the contractor has been Unable to provide a . satisfactory burner for utilization of loa-grade petroleum such as fuel oil or kerosene. The difficulty being the residue deposit that forms over the burner and soothers the flame after 15 to 20 minutes of operation._ A propane burner and pronane fuel was used for the test. VI. The Test F11 a. At 0600 on 22 October 1960 balloon launMr rePafltionE commenced. The balloon was launched at 0908, wind West 3 mph, ground temperature 59�F. The flight terminated duration of 18 minutes, at 0926 No ballast was carried on the flight. ftec lift when the balloon was launched. was suffic result in a ate of ascent of about 250 ft/mm. Wi burner output of about 3/4 maximum capacity the balloon achieved equilibrum at about 500 ft. altitude. After about 18 minutes of flight at 500 ft. the pilot by decreasing the hot air output of the burner commenced to descend for a practice landing. Due to a combination of the decrease of hot air input into the balloon and atmospheric cooling the balloon -cached a rate of descent of about CO4 ft/min. The pilot attempted to chock the rapid rate of descent to safe landing speed by opening the burner to fullblast to obtain the maximum hot air output. Although the rate of descent was decreased somewhat, equllibraa could not be obtained due to the incanability of the burner to produce sufficient hot air raoidly. Because descent could not be checked before contacting the surface the pilot extinguished the burner at en altitude of 50 ft to preclude Approved for Release 2016/10/24 C0541608 Approved for Release: 2016/10/24 CO5416081- ,liktar--- /W the ' on fi.ce on 3sud1ng. Prior to landing when feet above the ground the pilot activated the Sqnib me' lax thereby opening the 10 ft'. hole at.the he balloon and releasing the hot sir for 1ana1/14. made without difficulty even though the was. rapid. � series of nunbered. D.hotos. of the layout, equipment inflation, launching, flight, and post lending are indluded with this report. Photos asfollows: vs the balLoon load out, two prosoe ho left center, and two Kollsmaz # 2 and 3 show aclose up of the propane burne inflation duct. Lower part balloon made of nonflnab1e aess clothg&.I4 shows heaters hot air sot g:one of the 5 shows thelowet portion of :the balloon rigged, withthe propane burner and two propane bottles, At this stage tie propane burner has been lit and the final inflation of the be/loon was being completed. An auxiliary bottle was used for this so as not to use up the fuel from the bottles rigged for flight. # 6 shows one of the helpers in serving as ballast to help hold the balloon. lnf]stlon almost ompleted, 7 shove the -pilot in the seat, inflation completed and tie aindliary bottle being held and disconnected by one of the helpers.. Instrtmlents den be seen on each side of the pilot. t a shows the balloon in flight. 9 and 10 show the rig as it landed after the ldgh about 18 minutes. Note the pilots seat is the low of photo #9. No damage was incurred to ay of the equipment as a result of the flicht. pproved for Release: 2016/10/24 C05416081 Approved for Release: 2016/10/24 C05416081i This was the fi of nylon-myler Due to itt:.lightwei ttabilitr and resi very suitab test indicated the urner: a attached ft. balloon weight is 74 lbs to heat the inatenal appears onnel balloons. Results of this aaterial to be satisfactory. The propane burner used proved un s'i Although sufficient continuous hot air couJA be generated at msrLaum put setting to ccnipennate for loos of ho air due to atmospheric cooling and maintain equalibnm during flight, it was impossible to check descent and regain equilibrum once a descent was iniciated It .is estimated that a burner having double the output capacity' of the present burner would be required in order to provide the gin of control capability respired for successful and safe CiPeration. . Conc].usior tnn the viewpoint hot air is satisfactory as the sonnel balloon. eluded that use with b. From the vicupoint of pranticablity for covert operation it can be concluded at least at this stage of development that the system is not suitable. Conditional-on the development of a burner that utilizes a low-Lade petroleum or Perhaps a solid fuel, do not believe that this system holds much promise for covert operational use, It s concluded that the nylon-mylar material is ri satisfactory for personnel bollons. Approved for Release: 2016/10/24 C0541608