A REVIEW OF THERMALLY ACTIVATED COOLING TECHNOLOGIES FOR COMBINED COOLING, HEATING AND POWER SYSTEMS
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Ruzhu Wang | J. Deng | G. Han
[1] R. K. Collier,et al. An Analytical Examination of Methods for Improving the Performance of Desiccant Cooling Systems , 1991 .
[2] Adel Nasser,et al. A heat-recovery cooling system to conserve energy in gas-turbine power stations in the Arabian Gulf , 1991 .
[3] V. C. Mei,et al. An assessment of desiccant cooling and dehumidification technology , 1992 .
[4] M. D. Staicovici. Polybranched regenerative GAX cooling cycles , 1995 .
[5] B. Mohanty,et al. Enhancing gas turbine performance by intake air cooling using an absorption chiller , 1995 .
[6] Giovanni Restuccia,et al. Selective water sorbents for multiple applications, 1. CaCl2 confined in mesopores of silica gel: Sorption properties , 1996 .
[7] Yousef S.H. Najjar,et al. Enhancement of performance of gas turbine engines by inlet air cooling and cogeneration system , 1996 .
[8] Reinhard Radermacher,et al. Absorption Chillers and Heat Pumps , 1996 .
[9] Yu. I. Aristov,et al. Selective water sorbents for multiple applications, 4. CaCl2 confined in silica gel pores: Sorption/desorption kinetics , 1997 .
[10] D. Y. Goswami,et al. A review of liquid desiccant cooling , 1998 .
[11] I. Eames,et al. A review of adsorbents and adsorbates in solid–vapour adsorption heat pump systems , 1998 .
[12] Felix Ziegler,et al. Recent developments and future prospects of sorption heat pump systems , 1999 .
[13] Yong Tae Kang,et al. An advanced GAX cycle for waste heat recovery: WGAX cycle , 1999 .
[14] Saffa Riffat,et al. Application of combined heat-and-power and absorption cooling in a supermarket , 1999 .
[15] Patrick E. Phelan,et al. Economic feasibility of combined heat and power and absorption refrigeration with commercially available gas turbines , 2001 .
[16] M. Molina-Sabio,et al. Sepiolite-based adsorbents as humidity controller , 2001 .
[17] Ruzhu Wang,et al. Performance improvement of adsorption cooling by heat and mass recovery operation , 2001 .
[18] Takao Kashiwagi,et al. Solar/waste heat driven two-stage adsorption chiller: the prototype , 2001 .
[19] S. Chungpaibulpatana,et al. A review of absorption refrigeration technologies , 2001 .
[20] R. Schneider,et al. Trigeneration in the food industry , 2002 .
[21] William A. Ryan. New Developments in Gas Cooling , 2002 .
[22] N. Velázquez,et al. Methodology for the energy analysis of an air cooled GAX absorption heat pump operated by natural gas and solar energy , 2002 .
[23] G. Cacciola,et al. A family of new working materials for solid sorption air conditioning systems , 2002 .
[24] Joel Hernández-Santoyo,et al. Trigeneration: an alternative for energy savings , 2003 .
[25] DEVELOPMENT OF TRIPLE-EFFECT ABSORPTION CHILLER-HEATER , 2003 .
[26] Piero Colonna,et al. Industrial trigeneration using ammonia–water absorption refrigeration systems (AAR) , 2003 .
[27] Agis M. Papadopoulos,et al. Perspectives of solar cooling in view of the developments in the air-conditioning sector , 2003 .
[28] Borong Lin,et al. Combined cogeneration and liquid-desiccant system applied in a demonstration building , 2004 .
[29] Ruzhu Wang,et al. Energy efficiency and economic feasibility of CCHP driven by stirling engine , 2004 .
[30] Ahmed Bellagi,et al. Solar cooling with the absorption principle: first and Second Law analysis of an ammonia—water double-generator absorption chiller , 2004 .
[31] Hans-Martin Henning,et al. Solar assisted air conditioning of buildings – an overview , 2004 .
[33] Yunho Hwang,et al. Potential energy benefits of integrated refrigeration system with microturbine and absorption chiller , 2004 .
[34] H. M. Sabir,et al. Analytical study of a novel GAX-R heat driven refrigeration cycle , 2004 .
[35] Yong Tae Kang,et al. Performance analysis of advanced hybrid GAX cycles: HGAX , 2004 .
[36] Alberto Coronas,et al. Performance analysis of combined microgas turbines and gas fired water/LiBr absorption chillers with post-combustion , 2005 .
[37] Ruzhu Wang,et al. Study of a novel silica gel-water adsorption chiller. Part II. Experimental study , 2005 .
[38] R. E. Critoph,et al. Review of trends in solid sorption refrigeration and heat pumping technology , 2005 .
[39] Ruzhu Wang,et al. Experimental investigation of a micro-combined cooling, heating and power system driven by a gas engine. , 2005 .
[40] Gerhard Schmitz,et al. Experiences with a gas driven, desiccant assisted air conditioning system with geothermal energy for an office building , 2005 .
[41] Yi Jiang,et al. New type of fresh air processor with liquid desiccant total heat recovery , 2005 .
[42] Aly M. Elzahaby,et al. Performance analysis of dehumidification rotating wheel using liquid desiccant , 2005 .
[43] Steven Slayzak,et al. PERFORMANCE ASSESSMENT OF A DESICCANT COOLING SYSTEM IN A CHP APPLICATION INCORPORATING AN IC ENGINE , 2005 .
[44] Steven B. Kraines,et al. CO2-emissions reduction potential and costs of a decentralized energy system for providing electricity, cooling and heating in an office-building in Tokyo , 2006 .
[45] Dieter Boer,et al. Theoretical analysis of a novel integrated energy system formed by a microturbine and a exhaust fired single-double effect absorption chiller , 2006 .
[46] Amir A. Zadpoor,et al. Performance improvement of a gas turbine cycle by using a desiccant-based evaporative cooling system , 2006 .
[47] Alojz Poredoš,et al. Economics of a trigeneration system in a hospital , 2006 .
[48] Takao Kashiwagi,et al. Study on a dual-mode, multi-stage, multi-bed regenerative adsorption chiller , 2006 .
[49] K. Daou,et al. Desiccant cooling air conditioning : a review , 2006 .
[50] Kai Choong Leong,et al. Numerical study of an internal-reforming solid oxide fuel cell and adsorption chiller co-generation system , 2006 .
[51] Ruzhu Wang,et al. Adsorption refrigeration- : An efficient way to make good use of waste heat and solar energy , 2006 .
[52] Ruzhu Wang,et al. COMBINED COOLING, HEATING AND POWER: A REVIEW , 2006 .
[53] R. Wang,et al. Research on a compact adsorption room air conditioner , 2006 .
[54] Y. Kang,et al. Comparisons of Mechanical and Chemical Treatments and Nano Technologies for Absorption Applications , 2006 .
[55] Ugo Bardi,et al. Solar trough concentration for fresh water production and waste water treatment , 2007 .
[56] Renato Lazzarin,et al. A new heat pump desiccant dehumidifier for supermarket application , 2007 .
[57] Ruzhu Wang,et al. Development of an experimental prototype of an integrated thermal management controller for internal-combustion-engine-based cogeneration systems , 2007 .
[58] Reinhard Radermacher,et al. Absorption chiller crystallization control strategies for integrated cooling heating and power systems. , 2007 .
[59] Uli Jakob,et al. EXPERIMENTAL INVESTIGATION OF BUBBLE PUMP AND SYSTEM PERFORMANCE FOR A SOLAR DRIVEN 2.5 KW DIFFUSION ABSORPTION COOLING MACHINE , 2007 .
[60] Ruzhu Wang,et al. Performance Analysis of an Innovative Multimode, Multisalt and Multieffect Chemisorption Refrigeration System , 2007 .
[61] Hongguang Jin,et al. α–h Diagram and principle of exergy coupling of GAX cycle , 2007 .
[62] Y. Kang,et al. Absorption performance enhancement by nano-particles and chemical surfactants in binary nanofluids , 2007 .
[63] Pierluigi Mancarella,et al. Trigeneration Primary Energy Saving Evaluation for Energy Planning and Policy Development , 2007 .
[64] Hans-Martin Henning,et al. Micro tri-generation system for indoor air conditioning in the Mediterranean climate , 2007 .
[65] Ruzhu Wang,et al. Use of compound desiccant to develop high performance desiccant cooling system , 2007 .
[66] M. A. Darwish,et al. Building air conditioning system using fuel cell: Case study for Kuwait , 2007 .
[67] Yu. I. Aristov,et al. Sorption equilibrium of methanol on new composite sorbents “CaCl2/silica gel” , 2007 .
[68] Luisa F. Cabeza,et al. Economics and climate change emissions analysis of a bioclimatic institutional building with trigeneration and solar support , 2008 .
[69] Reinhard Radermacher,et al. Field performance measurements of a heat pump desiccant unit in dehumidification mode , 2008 .
[70] R. Lizarte,et al. Air conditioning using an air-cooled single effect lithium bromide absorption chiller: Results of a trial conducted in Madrid in August 2005 , 2008 .
[71] Xiaosong Zhang,et al. Experimental study on a new internally cooled/heated dehumidifier/regenerator of liquid desiccant systems , 2008 .
[72] Solar Cooling with an Ammonia/Water Absorption Chiller , 2008 .
[73] Tianshu Ge,et al. Experimental investigation on a one-rotor two-stage rotary desiccant cooling system , 2008 .
[74] Assensi Oliva,et al. Recent developments in the design of a new air-cooled, hot-water-driven H2O-LiBr absorption chiller. , 2008 .
[75] Toufic El Asmar. REACt : self-sufficient renewable energy air-conditioning system for Mediterranean countries , 2008 .
[76] C. Oliet,et al. Modelling of the heat exchangers of a small capacity, hot water driven, air-cooled H2O–LiBr absorption cooling machine , 2008 .
[77] A.A.M. Hassan,et al. Dehumidification of air with a newly suggested liquid desiccant , 2008 .
[78] O. García-Valladares,et al. Theoretical and experimental evaluation of an indirect-fired GAX cycle cooling system , 2008 .
[79] A. Freni,et al. Composites “lithium halides in silica gel pores”: Methanol sorption equilibrium , 2008 .
[80] Nelson Fumo,et al. Emission operational strategy for combined cooling, heating, and power systems , 2009 .
[81] Zeliang Yang,et al. Analytical method for evaluation of gas turbine inlet air cooling in combined cycle power plant , 2009 .
[82] Hui Li,et al. Laboratory research on combined cooling, heating and power (CCHP) systems , 2009 .
[83] Fabio Polonara,et al. Distributed generation and trigeneration: energy saving opportunities in Italian supermarket sector , 2009 .
[84] Jianjun Xia,et al. Performance analysis on the internally cooled dehumidifier using liquid desiccant , 2009 .
[85] Reinhard Radermacher,et al. Performance characterization of gas engine generator integrated with a liquid desiccant dehumidification system , 2009 .
[86] Pedro J. Mago,et al. Analysis and optimization of CCHP systems based on energy, economical, and environmental considerations , 2009 .
[87] Ilias P. Tatsiopoulos,et al. Comparative techno-economic analysis of ORC and gasification for bioenergy applications , 2009 .
[88] E. Arquis,et al. Study of heat and mass transfer in a dehumidifying desiccant bed with macro-encapsulated phase change materials , 2009 .
[89] Takuto Araki,et al. Cycle analysis using exhaust heat of SOFC and turbine combined cycle by absorption chiller , 2009 .
[90] Reinhard Radermacher,et al. Application of waste heat powered absorption refrigeration system to the LNG recovery process , 2009 .
[91] Xiaohua Liu,et al. Effect of regeneration mode on the performance of liquid desiccant packed bed regenerator , 2009 .
[92] Enrichment of ammonia concentration from aqua-ammonia vapors by using 3A molecular sieve , 2009 .
[93] Meng-Hui Li,et al. Vapour pressures, densities, and viscosities of the aqueous solutions containing (triethylene glycol or propylene glycol) and (LiCl or LiBr) , 2009 .
[94] Alberto Coronas,et al. A basis for the development of new ammoniawatersodium hydroxide absorption chillers , 2009 .
[95] Danxing Zheng,et al. Performance of one and a half-effect absorption cooling cycle of H2O/LiBr system , 2009 .
[96] F. Meunier,et al. Comparison of adsorption systems using natural gas fired fuel cell as heat source, for residential air conditioning , 2009 .
[97] Ruzhu Wang,et al. Development of a novel two-stage liquid desiccant dehumidification system assisted by CaCl2 solution using exergy analysis method , 2010 .
[98] New type of sorption composite for chemical heat pump and refrigeration systems. , 2010 .
[99] Yuri I. Aristov,et al. Novel ammonia sorbents “porous matrix modified by active salt” for adsorptive heat transformation: 3. Testing of “BaCl2/vermiculite” composite in a lab-scale adsorption chiller , 2010 .
[100] Zacharias B. Maroulis,et al. Design of a combined heating, cooling and power system: Sizing, operation strategy selection and parametric analysis , 2010 .
[101] Takahiko Miyazaki,et al. The performance analysis of a novel dual evaporator type three-bed adsorption chiller , 2010 .
[102] Yong Tae Kang,et al. The effects of nanoparticles on absorption heat and mass transfer performance in NH3/H2O binary nanofluids , 2010 .
[103] L. W. Wang,et al. Experimental study of a novel CaCl2/expanded graphite-NH3 adsorption refrigerator , 2010 .
[104] Reinhard Radermacher,et al. Field performance measurements of a heat pump desiccant unit in heating and humidification mode , 2010 .
[105] Ying Li,et al. Performance research of a micro-CCHP system with adsorption chiller , 2010 .