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Gen. Thermique Fr. 239; 825-834. [54] M. Pons, J. J. Guilleminot (1986) Design of an experimental solar-powered, solid-adsorption ice maker. J. Solar Energ. Trans. ASME. 108(4); 332-337. [55] R. E. Critoph (2002) Carbon-ammonia systems-revious experience, current projects and challenges for the future. Proc. of the Int. Sorption Heat Pump Conf. (ISHPC 2002). China. [56] R. E. Critoph (1993) Laboratory testing of an ammonia carbon solar refrigerator. Proc. of Solar World Congress (ISES). Hungary. [57] M. Li, R. Z. Wang, Y. X. Xu, J. Y. Wu, A. O. Dieng (2002) Experimental study on dynamic performance analysis of a flat-plate solar solid-adsorption refrigeration for ice maker. Renewable Energy. 27; 211-221. [58] M. Li, C. J. Sun, R. Z. Wang, W. D. Ca (2004) Development of no valve solar ice maker. Appl. Thermal Engng. 24; 865-872. [59] E. J. Hu (1998) A study of thermal decomposition of methanol in solar powered adsorption refrigeration systems. Solar Energy. 62; 325-329. [60] F. Buchter, Ph. Dind, M. Pons (2003) An experimental solar-powered adsorptive refrigerator tested in Burkina-Faso. Int. J. of Refr. 26; 79-86. [61] A. Boubakri, M. Arsalane, B. Yous, L. Ali-Moussa, M. Pons, F. Meunier (1992) Experimental study of adsorptive solar powered ice makers in Agadir (Morocco)-1. Performance in actual site. Renewable Energy. 2(1); 7-13. [62] A. Boubakri, M. Arsalane, B. Yous, L. Ali-Moussa, M. Pons, F. Meunier (1992) Experimental study of adsorptive solar powered ice makers in Agadir (Morocco)-2. Influences of meteorological parameters. Renewable Energy. 2(1); 15-21. [63] C. Hildbrand, P. Dind, M. Pons, F. Buchter (2004) A new solar powered adsorption refrigerator with high performance. Solar Energy. 77; 311-318. [64] N. M. Khattab A novel solar-powered adsorption refrigeration module. Appl. Thermal Engng 24 (2004) 2747–2760 [65] R. G. Oliveira (2004) Avaliação de um sistema de refrigeração por adsorção para produção de gelo, operando diferentes tipos de ciclo com baixas temperaturas de geração. Ph.D. Thesis. Dep. Food Engineering, School of Food Engineering, State University of Campinas; Brazil; 185 p. [66] R. Z. Wang, M. Li, Y. X. Xu, J. Y. Wu (2000) An energy efficient hybrid system of solar powered water heater and adsorption ice maker. Solar Energy. 68(2); 189-195. [67] R. Z. Wang, Y. X. Xu, J. Y. Wu, M. Li, H. B. Shou (2002) Research on a combined adsorption heating and cooling system. Appl. Thermal Engng. 22; 603-617. [68] Ph. Grenier, J. J. Guilleminot, F. Meunier, M. Pons (1988) Solar powered solid adsorption cold store. J. Solar Energ. Trans. ASME. 110(3); 192-197. [69] B. B. Saha, A. Akisawa, T. Kashiwagi (2001) Solar/waste heat driven two-stage adsorption chiller: the prototype. Renewable Energy. 23; 93–101. [70] R. Z. Wang, J. Y. Wu, Y. X. Xu, W. Wang (2001) Performance researches and improvements on heat regenerative adsorption refrigerator and heat pump. Energy Conversion & Management. 42; 233-249. [71] Y. L. Liu, R. Z. Wang, Z. Z. Xia (2005) Experimental study on a continuous adsorption water chiller with novel design. Int. J. Refrig. 28(2); 218-230. [72] Z. Z. Xia, R. Z. Wang, J. Y. Wu, D. C. Wang (2003) New type of effective adsorption chiller adopt separate heat pipe (in Chinese). Chinese Patent 200410025398.0. [73] T. Nuñez, W. Mittelbach, H. M. Henning (2004) Development of an adsorption chiller and heat pump for domestic heating and air-conditioning applications. Proc. of the 3rd Int. Conf. on Heat Powered Cycles (HPC 2004). Cyprus. [74] G. Restuccia, A. Freni, S. Vasta, Y. Aristov (2004) Selective water sorbent for solid sorption chiller: experimental results and modeling. Int. J. Refrig. 27; 284-293. [75] M. Z. Ismail, D. E. Angus, G .R. Thorpe (1991) The performance of a solar-regenerated open-cycle desiccant bed grain cooling system. Solar Energy, 46(2); 63-70. [76]T. F. N. Thoruwa, A. D. Grant, J. E. Smith, C. M. Johnstone (1998) A solar-regenerated desiccant dehumidifier for the aeration of stored grain in the humid tropics. Journal of Agr. Engng Res. 71(3); 257-262. [77] H. M. Henning, T. Erpenbeck, C. Hindenburg, I. S. Santamaria (2001) The potential of solar energy use in desiccant cooling cycles. Int. J. of Refr. 24; 220-229. [78] S. M. Lu, W. J. Yan (1995) Development and experimental validation of a full-scale solar desiccant enhanced radiative cooling. Renewable Energy. 6(7); 821-827. [79] The Climasol Project (2005) In: http://www.raee.org /climasol , last access 14/05/2005. [80] L. Z. Zhang (2000) Design and testing of an automobile waste heat adsorption cooling system. Appl. Thermal Engng. 20; 103-114. [81]L.W.Wang,J.Y.Wu,R.Z.Wang,Y.X.Xu,S.G.Wang (2003) Experimental study of a solidified activated carbon-methanol adsorption ice maker. Appl. Thermal Engng. 23; 1453-1462. [82] S. G. Wang, R. Z. Wang (2005) Recent developments of refrigeration technology in fishing vessels. Renewable Energy. 30, 589–600. [83] Z. Tamainot-Telto, R. E. Critoph (1997) Adsorption refrigerator using monolithic carbon ammonia pair. Int. J. of Refr. 20(2); 146-155. [84] L. W. Wang, R. Z. Wang, J. Y. Wu, K. Wang, S. G. Wang (2004) Adsorption ice makers for fishing boats driven by the exhaust heat from diesel engine: choice of adsorption pair. Energy Conversion and Management. 45; 2043-2057. [85] Y. Z. Lu, R. Z. Wang, S. Jianzhou, Y. X. Xu, J. Y. Wu (2004) Practical experiments on an adsorption air conditioner powered by exhausted heat from a diesel locomotive. Appl. Thermal Engng. 24; 1051-1059. [86] S. Jiangzhou, R. Z. Wang, Y. Z. Lu, Y. X. Xu, J. Y. Wu (2002) Experimental investigations on adsorption air-conditioner used in internal-combustion locomotive driver-cabin. Appl. Thermal Engng. 22; 1153-1162. [87] Z. Tamainot-Telto, R. E. Critoph (2003) Advanced solid sorption air conditioning modules using monolithic carbon–ammonia pair. Appl. Thermal Engng. 23; 659-674. [88] HIJC USA Inc. (2005) Waste heat adsorption chiller substitute absorption. In: http://www.adsorptionchiller. bigstep.com/homepage.html, last access in 14/05/2005. 21PDF Image | International Sorption Heat Pump Conference
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