Zusammenfassung
Wasserstoff als tiefkalte Flüssigkeit muß zwecks Vermeidung unwirtschaftlich hoher Verdampfungsverluste in thermisch isolierten Behältern gespeichert und transportiert werden. Das gleiche gilt hinsichtlich der Isolierung von Leitungen für flüssigen Wasserstoff.
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Literatur
Timmerhaus, K. D.: Fluid Flow and Heat Transfer. In: Applied Cryogenic Engineering, Vance, R. W., Duke, W. H. (eds.), pp. 104–151. New York: Wüey & Sons 1962.
Clark, J. A., Thorogood, R. M.: Heat Transfer. In: Cryogenic Fundamentals, Haseiden, G. G. (ed.), pp. 92–197. London: Academic Press 1971.
Clark, J. A.: Heat Transfer. In: Cryogenic Technology, Vance, R. W. (ed.), pp. 121–195. New York: Wüey & Sons 1963.
Roder, H. M., McCarty, R. D., Hall, W. J.: Computer Programs for Thermodynamic and Transport Properties of Hydrogen. Nat. Bureau of Standards, NBS-TN-625 (1972).
Van Gundy, D. A., Uglum, J. R.: Heat Transfer to an Uninsulated Surface at 20 K. Cryogenic Eng., Vol. 7, pp. 377–384. New York: Plenum Press 1982.
Middleton, R. L., Stukey, J. M., Schell, J. T. et al.: Development of Lightweight External Insulation System for Liquid-Hydrogen Stages of the Saturn V Vehicle. Adv. Cryog. Eng., Vol. 10, pp. 216–223. New York: Plenum Press 1964.
Rittenhouse, J. B.: Application of an Adhesively Bonded Cryogenic Insulation System. N AS A-TM-X-57823, NTIS (1966).
Leonhard, K. E., Oglin, B., Zimni, W. F.: Determination of the Thermal Conductivity, the Specific Heat and the Weight by Volume of Insulations for Rocket Tanks Filled with Liquid Hydrogen. ELDO/ESRO Sci. Tech. Rev., Vol. 2, pp. 3–28 (1967). (In French.)
Dearing, D. L.: Summary of the Saturn S-IV and S-IVB Liquid Hydrogen Tank Internal Insulation Development and Techniques for Future Improvemeni. Bull. Int. Inst. Froid, Annex e 2, 233–246 (1965).
Dearing, D. L.: Development of the Saturn S-IV and S-IVB Liquid Hydrogen Tank Internal Insulation. Adv. Cryog. Eng., Vol. 11, pp. 89–97. New York: Plenum Press 1966.
Lemons, C. R., Watts, C. R., Salmassy, O. K.: Development of Advanced Materials Composites for Use as Insulation for LH2-Tanks. McDonnel-Douglas, Astronautics Co., NASA-CR-124388, NASA-CR-123928 (1973).
McGrew, J. J.: Cellular Insulation for Use with Low Temperature Liquids. US-Pat. No. 3.755–756(1973).
Jonke, R. J.: Insulation Systems for Cryogenic Stages. Rev. Sci. Tech. CECLES/CERS 3,17–48 (1971).
Tarid, H. M., Boissin, J. C., Segel, M. P.: Thermal Insulation for Liquid Hydrogen Space Tankage. Adv. Cryog. Eng., Vol. 12, pp. 274–285. New York: Plenum Press 1967.
Yates, G. B.: PPO Foam: Liquid Hydrogen Insulation. Adv. Cryog. Eng., Vol. 19, pp. 327–337. New York: Plenum Press 1974.
Reed, R. P., Arvidson, J. M., Durcholoz, R. L.: Tensile Properties of Polyurethane and Polystyrene Foams from 76 to 300 K. Adv. Cryog. Eng., Vol. 18, pp. 184–193. New York: Plenum Press 1973.
Klezath, H.: Wärmeisolierung von Speicherbehältern für tiefsiedende Flüssigkeiten. Erdöl-Erdgas85,145–149 (1969).
Johnson, C. L., Hollweger, D. J.: Some Heat Transfer Considerations in Non-Evacuated Cryogenic Powder Insulation. Adv. Cryog. Eng., Vol. 11, pp. 77–88. New York: Plenum Press 1966.
Scott, R. B.: Insulation. In: Cryogenic Engineering, pp. 142–214. New York: von Norstrand 1959.
Kropschot, R. H.: Low-Temperature Insulation. In: Applied Cryogenic Engineering, pp. 152–169. New York: Wiley & Sons 1963.
Jacobs, R. B.: Thermal Insulation, Storage, Transport and Transfer of Liquid Hydrogen. In: Technology and Uses of Liquid Hydrogen, Scott, R. B. (ed.), pp. 106–148. New York: Pergamon Press 1964.
Kropschot, R. H.: Insulation Technology. In: Cryogenic Technology, Vance, R. W. (ed.), pp. 239–250. New York: Wiley & Sons 1963.
Molnar, W.: Insulation. In: Cryogenic Fundamentals, Haseiden, G. G. (ed.), pp. 199–236. London: Academic Press 1971.
Knudsen, M.: Ann. d. Physik 31, 205 (1910); 32,809 (1910); 33,1435 (1910); 593 (1911);6, 149(1930).
Corrucini, R. J.: Gaseous Heat Conduction at Low Pressures and Temperatures. Vacuum 7,8 (1957).
Gerthsen, C.: Physik. Berlin-Heidelberg-New York: Springer 1966.
Weitz, M.: Theorie und Praxis der Vakuumtechnik. Braunschweig: Vieweg & Sohn 1965.
Kropschot, R. H., Burgers, W.: Perlite for Cryogenic Insulation. Adv. Cryog. Eng., Vol. 8, pp. 221–229. New York: Plenum Press 1963.
Hunter, B. J., Kropschot, R. H., Schrodt, J. E., Fulk, M. M.: Metal Powder Additives in Evacuated-Powder Insulation. Adv. Cryog. Eng., Vol. 5, pp. 146–156. New York: Plenum Press 1960.
Knight, B. L., Timmerhaus, K. D., Kropschot, R. H.: Analysis of Thermal Diffusity Evaluation under Transient Conditions for Powder Insulation. Adv. Cryog. Eng., Vol. 18, pp. 112–117. New York: Plenum Press 1973.
Cunnington, G. R.: Apparent Thermal Conductivity of Uncoated Microsphere Cryogenic Insulation. Adv. Cryog. Eng., Vol. 21, pp. 263–271. New York: Plenum Press 1976.
Cunnington, G. R., Tien, C. L.: Heat Transfer in Microsphere Cryogenic Insulation. Adv. Cryog. Eng., Vol. 18, pp. 103–111. New York: Plenum Press 1973.
Tien, C. L., Cunnington, G. R.: Recent Advances in High-performance Cryogenic Thermal Insulation. Cryogenics 12,419–421 (1972).
Nayak, A. L., Tien, C. L.: Thermal Conductivity of Microsphere Cryogenic Insulation. Adv. Cryog. Eng., Vol. 21, pp. 251–262. New York: Plenum Press 1976.
Petersen, P.: The Heat-tight Vessel. Swedish Technical Research Council Rep., No. 706 (1951); see also: Sartryck ur TVF 29,4 (1958).
Kropshot, R. H.: Low Temperature Insulation. In: Applied Cryogenic Engineering, 152–169. New York: Wüey & Sons 1962.
Frost, W.: Heat Transfer at Low Temperatures. New York: Plenum Press 1975.
Caren, R. P., Cunnington, G. R.: Heat Transfer in Multilayer Insulation Systems. Chem. Eng. Progr. Symp. SER, No. 87, Vol. 64, pp. 67–81 (1968).
Glaser, P. E.: Multilayer Insulation for Large Vessels Used in Transporting and Storing Cryogenic Liquids. Mech. Eng. 87,23–27 (1965).
Kutzner, K., Schmidt, F., Wietzke, I.: Radiative and Conductive Heat Transmission Through Superinsulations — Experimental Results for Aluminium Coated Plastic Foils. Cryogenics 13,396–404 (1973).
Sparrow, E. M., Cess, R. D.: Radiation Heat Transfer. Beimond, Calif.: Brooks/Cole Puhl. Comp. 1963.
Coston, R. M.: Handbook of Thermal Design Data for Multilayer Insulation Systems, Vol. 2. Lockheed Missiles and Space Co., Sunnyvale, Calif., Rep. No. NASA-CR 87485 (1967).
Ruccia, F., Hinckley, R.: The Surface Emittance of Vacuum-metallized Polyester Films. Adv. Cryog. Eng., Vol. 12, pp. 218–227. New York: Plenum Press 1967.
Bell, G. et al.: Thermal Performance of Multilayer Insulation Applied to Small Cryogenic Tankage. Adv. Cryog. Eng., Vol. 22. New York: Plenum Press 1977.
Swalley, F. E., Nevins, C. D.: Practical Problems in Design of High-performance Multilayer Insulation System for Cryogenic Stages. Adv. Cryog. Eng., Vol. 10, pp. 208–215. New York: Plenum Press 1965.
Coston, R. M., Nast, T. C.: Experimental Evaluation of the Equations and Parameters Governing Flow Through Multilayer Insulations Düring Evacuation. Adv. Cryog. Eng., Vol. 11, pp. 56–64. New York: Plenum Press 1966.
Vliet, G. C., Coston, R. M.: Thermal Energy Transport Parallel to the Laminations in Multilayer Insulation. Adv. Cryog. Eng., Vol. 13, pp. 671–679. New York: Plenum Press 1968.
Murray, D. O.: Degradation of Multilayer Insulation Systems by Penetrations. Adv. Cryog. Eng., Vol. 13, pp. 680–689. New York: Plenum Press 1968.
Nast, T. C.: Effective Purging of High Performance Multilayer Insulation Systems. Adv. Cryog. Eng., Vol. 11, pp. 49–55. New York: Plenum Press 1966.
Priee, J. W.: Measuring the Gas Pressure within a High-performance Insulation Blanket Adv. Cryog. Eng., Vol. 13, L-l, pp. 662–670. New York: Plenum Press 1968.
Scurlock, R. G., Saull, B.: Development of Multilayer Insulation with Thermal Conductivities below 0,1 juW cm”1K”1. Cryogenics 16,303–311 (1976).
Paivanas, J. A., Roberts, O. P., Wang, D. I. J.: Multishielding — an Advanced Superinsulation Technique. Adv. Cryog. Eng., Vol. 10, pp. 197–207. New York: Plenum Press 1965.
Bell, G. A., Nast, T. C., Wedel, R. K.: Thermal Performance of Multilayer Insulation Applied to Small Cryogenic Tankage. Adv. Cryog. Eng., Vol. 21, pp. 272–282. New York: Plenum Press 1976.
Urbach, A. R., Herring, R. N.: A Long-term Helium Dewar for Space Experiments. Proc. 6th Int. Cryog. Eng. Conf., 154–156, 1974.
Stewart, W. F.: Operating Experience with a Liquid Hydrogen FueledBuick and Refueling System. Proc. 4th Int. Hydrogen Energy Conf., Pasadena (June 1982), Vol. 3, pp. 1071–1093. New York: Pergamon Press 1982.
Niendorf, L. R., Choksi, S. C.: Ultra-efficient Insulation System for Solid Cryogen Coolers. Adv. Cryog. Eng., Vol. 12, pp. 286–299. New York: Plenum Press 1967.
Edeskuty, F. J., Williamson, K. D. jr.: Storage and Handling of Cryogens. Adv. Cryog. Eng., Vol. 17, pp. 56–68. New York: Plenum Press 1972.
Segel, M. P.: Experimental Study of Phenomena of Stratification and Pressurization of Liquid Hydrogen. Adv. Cryog. Eng., Vol. 10, pp. 308–313. New York: Plenum Press 1964.
Birmingham, B. W., Brown, E. H., Class, C. R., Schmidt, A. F.: Vessels for the Storage and Transport of Liquid Hydrogen. J. Res. Nat. Bur. Stand., A; 58, 243–253, Research paper 2757 (1957).
Liebenberg, D. H., Stokes, R. W., Edeskuty, F. J.: Ch Oldown and Storage Losses of Large Liquid Hydrogen Storage Dewars. Adv. Cryog. Eng., Vol. 11, pp. 554–560. New York: Plenum Press 1966.
Füller, P. D., McLagan, J. N.: Storage and Transfer of Cryogenic Fluids. In: Applied Cryogenic Engineering, Vance, R. W., Duke, W. M. (eds.). Sect. I Cryogenic Storage Vessels and Transport Trailers, pp. 215–237, Sect. II Transfer Lines, pp. 238–254. New York: Wiley & Sons 1962.
Edeskuty, F. J.: Nuclear Propulsion. In: Cryogenic Technology, Vance, R. W. (ed.), pp. 352–374. New York: Wüey & Sons 1963.
Sind, C. F.: Transmission of Hydrogen. In: Selected Topics on Hydrogen Fuel, Hard, J. (ed.). NBS-Spec. PubL 419, 1975.
Jacobs, R. B.: Long Distance Transfer of Liquefied Gases. Proc. 2nd Cryog. Eng. Conf., Boulder, Colo., 1956. Nat. Bureau of Stand., 1957.
Croft, A. J.: 14 Meter Liquid Hydrogen Line. Cryogenics 10, 167–168 (1970).
Stuchly, J.: Internally Insulated Cryogenic Pipelines. Adv. Cryog. Eng., Vol. 21, pp. 531–537. New York: Plenum Press 1976.
Thurston, R. S., Rogers, J. D., Skoglund, V. J.: Pressure Oscillations Induced by Forced Convection Heating of Dense Hydrogen. Adv. Cryog. Eng., Vol. 12, pp. 438–451. New York: Plenum Press 1967.
Flieder, W. G., Smith, W. J., Wetmore, K. R.: Flexibility Considerations for the Design of Cryogenic Transfer Lines. Adv. Cryog. Eng., Vol. 5, pp. 111–119. New York: Plenum Press 1960.
Steward, W. G.: Transfer Line Surge. Adv. Cryog. Eng., Vol. 10, pp. 313–323. New York: Plenum Press 1965.
Thurston, R. S.: Probing Experiments on Pressure Oscillations in Two Phase and Super- critical Hydrogen with Forced Convection Heat Transfer. Adv. Cryog. Eng., Vol. 10, pp. 305–312. New York: Plenum Press 1965.
Burke, J. C., Byrnes, W. R., Post, A. H., Ruccia, F. E.: Pressurized Cooldown of Cryogenic Transfer Lines. Adv. Cryog. Eng., Vol. 4, pp. 378–394. New York: Plenum Press 1964.
Bronson, J. C., Edeskuty, F. J., et al.: Problems in Cooldown of Cryogenic Systems. Adv. Cryog. Eng., Vol. 7, pp. 198–205. New York: Plenum Press 1960.
Baker, O.: Design of Pipe Lines for Simultaneous Flow of Oil and Gas. The Oil and Gas Journ.53,185–195 (1954).
Srinivasan, K., Seshagiri, R., Krishna Murthy, M. V.: Analytical and Experimental Investigations on Cooldown of Short Cryogenic Transfer Lines. Cryogenics 74,489–494 (1974).
Beard, C. S.: Cryogenic Valves, a Survey. Cryog. Eng. News 2,62–68 (1967).
Biermann, A. E., Kohl, R. C.: Preliminary Study of aPiston Pump for Cryogenic Fluids. NASA-Memo 3/6/59E, Lewis Res. C. (1959).
Carter, T. A. Jr.: Pumps for Liquid Hydrogen. Cryog. Tech. 3,172–175 (1967).
Knuth, W. H., Farquhar, J., Lindley, B. K.: Design Study of Modification of Ml Liquid Hydrogen Turbopumps for Use in Nuclear Reactor Test Facility. NASA-CR-54422 1965.
Farquhar, J., Lindley, B. K.: Hydraulic Design of Ml Liquid Hydrogen Turbopumps. NASA-CR-54822, 1966.
Ribble, G. H., Jr., Turney, G. E.: Experimental Study of Low Speed Operating Characteristics of a Liquid Hydrogen Centrifugal Turbopump. NASA-TM-X-1861, August 1969.
Stinson, H. P., Strickland, R. J.: Experimental Findings from Zero Tank Net Positive Suction Head Operation of the J-2 Hydrogen Pump. NASA-TN-D-6824, August 1972.
Martin, K. P., Jacobs, R. B., Hardy, R. J.: Performance of Pumps with Liquefied Gases. Adv. Cryog. Eng., Vol. 2, pp. 295–302. New York: Plenum Press 1960.
Pearsall, I. S.: Supercavitating Pumps for Cryogenic Liquids. Cryogenics 12,422–426 (1972).
Di Stefano, J. F., Caine, G. H.: Cavitation Characteristics of Tank-mounted Cryogenic Pumps and their Predicted Performance under Reduced Gravity. Adv. Cryog. Eng., Vol. 7, pp. 277–290. New York: Plenum Press 1962.
Caine, G. H., Schäfer, L., Burgeson, D.: Pumping of Liquid Hydrogen. Adv. Cryog. Eng., Vol. 4, pp, 241–254. New York: Plenum Press 1960.
Morpurgo, M.: Design and Construction of a Pump for Liquid Helium. Cryogenics 17, 91–93 (1977).
Goltzmann, C. F.: High Pressure Liquid Hydrogen and Helium Pumps. Adv. Cryog. Eng., Vol. 5, pp. 289–298. New York: Plenum Press 1960.
Scibbe, H. W.: Bearings and Seals for Cryogenic Fluids. NASA-TM-X-52415, 1968.
Brewe, D. E., Coe, H. H., Scibbe, H. W.: Cooling Studies with High Speed Ball Bearings Operating in Cold Hydrogen Gas. ASLE-Trans., Vol. 12, No. 1, pp. 66–76, Januar 1969.
Coe, H. H., Brewe, D. E., Scibbe, H. W.: Cooling Requirements of Ball Bearings Lubricated by Glass-Fiber-Filled PTFE Retainers in Cold Hydrogen Gas. NASA-TN-D-5607, 26 pp., February 1970.
Wilson, W. A., Martin, K. B., Brennan, J. A., et al.: Evaluation of Ball Bearing Separator Materials Operating Submerged in Liquid Nitrogen. Trans. ASLE 4, 50–58 (1961).
Chelton, D. B., Brennan, J. A., Scott, L. E.: Dry Gas Operation of Ball Bearings at Cryogenic Temperatures. Adv. Cryog. Eng., Vol. 7, pp. 273–276. New York: Plenum Press 1960.
Brewe, D. E., Wisander, D. W., Scibbe, H. W.: Performance of 40-millimeter Bore Bearings with Lead and Lead-alloy Retainers in Liquid Hydrogen at 192 Million DN. NASA- Lewis-Res. C., Tech. Note, NASA-TN-D-6091, November 1982.
Jacobs, R. B.: Prediction of Symptoms of Cavitation. J. Res. NBS, 65 C, No. 3, pp. 156, July/Sept. 1961.
Blackford, J. E., Haiford, P., Tantam, D. H.: Expanders and Pumps. In: Cryogenic Fundamentals, Haseiden, G. G. (ed.), pp. 403–489. London: Academic Press 1971.
Sindt, C. F.: A Summary of the Characterization Study of Slush Hydrogen. Cryogenics 10(5), 372–380 (1970).
McCarty, R. D., Hord, J., Roder, H. M.: Selected Properties of Hydrogen, NBS-Monograph 168, U.S.-Government Printing Office, 1981.
Sindt, C. F., Ludtke, P. R., Daney, D. E.: Slush Hydrogen Fluid Characterization and Instrumentation. NBS-Tech. Note No. 377, 64 pp. (1969).
Schraewer, R., Daus, W.: Herstellung und Förderung von Wasserstoffmatsch. Forschungsbericht NT 200 des BMFT, 1974.
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Peschka, W. (1984). Thermische Isolation, Speicherung und Transport von flüssigem Wasserstoff. In: Flüssiger Wasserstoff als Energieträger. Innovative Energietechnik. Springer, Vienna. https://doi.org/10.1007/978-3-7091-8748-7_4
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