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Solid sorption heat pumps for tri-generation

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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Solid sorption heat pumps and coolers have a good potential to be used in the air-conditioning, electronic thermal control and transport applications. Recent application is focused on a small-scale combined cold, heat and power system, which utilizes the motor waste heat for cold production (tri-generation system). The main feature of this device is the innovative adsorbent bed consisting of a heat pipe heat exchanger, in which the finned tubes are coated with an active carbon fiber "Busofit", saturated with different metal salts (salt on the fiber). Owing to the advantageous sorption properties of the complex compound and the good heat transfer quality of the heat pipe, an advanced sorption heat pump can be heated efficiently by the low temperature heat source. The heat pump has two sources of cold, namely the low temperature sorbent bed canister and the principal evaporator. The working fluid is ammonia. The experimental results show a specific power of 500-550 W/kg of adsorbent. The most favorable situation is the case, when two sources of cold are welcomed. The goal of this research program is an improvement of the heat pump system from simple case of two reactors with two different salts to complicated system with three reactors, evaporator/condenser and two branches of coolers, acting out of phase to produce heat and cold simultaneously.
Rocznik
Strony
15--28
Opis fizyczny
Bibliogr. 15 poz.,Rys., il., wykr.,
Twórcy
autor
  • Porous Media Labolatory, Luikov Heat & Mass Transfer Institute of National Academy of Sciences of Belarus, P.Brovka str. 15, 220072 Minsk, Belarus, LVASIL@hmti.ac.by
Bibliografia
  • [1] SPINNER B., STITOU D., GRINI P.G.: Cascading sorption machines: new concepts for the power control of solid-gas thermochemical systems towards sustainable technologies, Proc. of the Absorption Heat Pump Conf., Montreal, 1996.
  • [2] LEPINASSE E., MARION M., GOETZ V.: Cooling storage with resorption process. Application to a box temperature control, Appl. Therm. Eng., 21 (2001), 1251-1263.
  • [3] WONGGSUWAN W., KUMAR S., NEVEU P., MEUNIER F.: Review of chemical heat pump technology and applications, Appl. Therm. Eng., 21 (2001), 1489-1519.
  • [4] POELSTRA S., HAIJE W.G., DIJKSTRA J.W.: Techno-economic feasibility of high-temperature high -lift chemical heat pumps for upgrading industrial waste heat, Appl. Therm. Eng., 22 (2002), 1619-1630.
  • [5] VASILIEV L., KANONCHIK L., ANTUKH A., KULAKOV A., ROSIN I.: Waste Heat Driven Solid Sorption Coolers, SAE Technical Paper 941580, 1994.
  • [6] VASILIEV L., NIKANPOUR D., ANTUKH A., SNELSON K., VASILIEV L. JR., LEBRU A.: Multisalt-carbon chemical cooler for space applications, J. Eng. Physics & Thermophysics, 72 (1999), 595-600.
  • [7] MUNKEJORD S. T., MAEHLUM H. S., ZAKERI G. R., NEKSA P., PETTERSEN J.: Micro technology in heat pumping systems, Int. J. Refrigeration, 25 (2002), 471-478.
  • [8] VASILIEV L.L., MISHKINIS D.A., VASILIEV L.L. JR.: Complex Compound/Ammonia Coolers, SAE Technical Paper Series 961462, 26th Int. Conf. on Environmental Systems, Monterey, 1996.
  • [9] VASILIEV L.L., KANONCHIK L.E., ANTUKH A.A., KULAKOV A.G.: NAX zeolite, carbon fiber and CaCl2 ammonia reactors for heat pumps and refrigerators, Adsorption, 2 (1996), 311-316.
  • [10] DELLERO T., SARMEO D., TOUZAIN PH.: A chemical heat pump using carbon fibres as additive, Pt. 1: Enhancement of thermal conduction, Appl. Therm. Eng., 19 (9) (1999), 991-1000.
  • [11] AIDOUN Z., TERNAN M.: Salt impregnated carbon fibres as the reactive medium in a chemical heat pump: the NH3-C0CI2 system, Appl. Therm. Eng., 22 (2002), 1163-1173.
  • [12] AIDOUN Z., TERNAN M.: The synthesis reaction in a chemical heat pump reactor filled with chloride salt impregnated carbon fibers: the NH3-C0CI2 system, Appl. Therm. Eng., 22 (2002), 1943-1954.
  • [13] VASILIEV L.L., GULKO N.V., KHAUSTOV V.M.: Solid adsorption refrigerators with active carbon - acetone and carbon - ethanol pairs, Solid sorption refrigeration Symposium, Paris, France, 1992.
  • [14] VASILIEV L., ZHURAVLYOV A., SHAPOVALOV A.: Evaporative Heat Transfer on Horizontal Porous Tube, in S. Kakac, L. Vasiliev, Y. Bayazitoglu, Y. Yener (ed.), Microscale Heat Transfer. Fundamentals and Applications. NATO Science Series, Series II: Mathematics, Physics and Chemistry (Springer, Netherlands, 2004), 193 (2004), 401-412.
  • [15] VASILIEV L.L., MISHKINIS D.A., ANTUKH A.A., KULAKOV A.G., VASILIEV L.L. JR.: Resorption heat pump, Appl. Therm. Eng., 24 (2004), 1893-1903.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1840-7056
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