Performance limitations of adsorption cycles for solar cooling RE Critoph Solar energy 41 (1), 21-31, 1988 | 356 | 1988 |
Review of trends in solid sorption refrigeration and heat pumping technology RE Critoph, Y Zhong Proceedings of the Institution of Mechanical Engineers, Part E: Journal of …, 2005 | 206 | 2005 |
Thermodynamic based comparison of sorption systems for cooling and heat pumping: Comparaison des performances thermodynamique des systèmes de pompes à chaleur à sorption dans … M Pons, F Meunier, G Cacciola, RE Critoph, M Groll, L Puigjaner, ... International Journal of Refrigeration 22 (1), 5-17, 1999 | 203 | 1999 |
The use of psychrometric charts for the optimisation of a thermal swing desiccant wheel A Kodama, T Hirayama, M Goto, T Hirose, RE Critoph Applied Thermal Engineering 21 (16), 1657-1674, 2001 | 200 | 2001 |
Adsorption refrigerator using monolithic carbon-ammonia pair Z Tamainot-Telto, RE Critoph International Journal of Refrigeration 20 (2), 146-155, 1997 | 197 | 1997 |
Carbon–ammonia pairs for adsorption refrigeration applications: ice making, air conditioning and heat pumping Z Tamainot-Telto, SJ Metcalf, RE Critoph, Y Zhong, R Thorpe International journal of refrigeration 32 (6), 1212-1229, 2009 | 173 | 2009 |
Activated carbon adsorption cycles for refrigeration and heat pumping RE Critoph Carbon 27 (1), 63-70, 1989 | 138 | 1989 |
Monolithic carbon for sorption refrigeration and heat pump applications Z Tamainot-Telto, RE Critoph Applied thermal engineering 21 (1), 37-52, 2001 | 135 | 2001 |
Forced convection adsorption cycles RE Critoph Applied Thermal Engineering 18 (9-10), 799-807, 1998 | 129 | 1998 |
Possible adsorption pairs for use in solar cooling RE Critoph, R Vogel International Journal of Ambient Energy 7 (4), 183-190, 1986 | 129 | 1986 |
Study of thermal conductivity, permeability, and adsorption performance of consolidated composite activated carbon adsorbent for refrigeration LW Wang, Z Tamainot-Telto, R Thorpe, RE Critoph, SJ Metcalf, RZ Wang Renewable energy 36 (8), 2062-2066, 2011 | 126 | 2011 |
Development of thermal conductive consolidated activated carbon for adsorption refrigeration LW Wang, SJ Metcalf, RE Critoph, R Thorpe, Z Tamainot-Telto Carbon 50 (3), 977-986, 2012 | 115 | 2012 |
Isothermal sorption characteristics of the BaCl2–NH3 pair in a vermiculite host matrix Y Zhong, RE Critoph, RN Thorpe, Z Tamainot-Telto, YI Aristov Applied Thermal Engineering 27 (14-15), 2455-2462, 2007 | 115 | 2007 |
Thermal conductivity and permeability of consolidated expanded natural graphite treated with sulphuric acid LW Wang, SJ Metcalf, RE Critoph, R Thorpe, Z Tamainot-Telto Carbon 49 (14), 4812-4819, 2011 | 113 | 2011 |
Evaluation of alternative refrigerant—adsorbent pairs for refrigeration cycles RE Critoph Applied Thermal Engineering 16 (11), 891-900, 1996 | 113 | 1996 |
Forced convection enhancement of adsorption cycles RE Critoph Heat Recovery Systems and CHP 14 (4), 343-350, 1994 | 106 | 1994 |
Specific cooling power intensification limits in ammonia–carbon adsorption refrigeration systems RE Critoph, SJ Metcalf Applied Thermal Engineering 24 (5-6), 661-678, 2004 | 100 | 2004 |
An ammonia carbon solar refrigerator for vaccine cooling RE Critoph Renewable Energy 5 (1-4), 502-508, 1994 | 100 | 1994 |
Anisotropic thermal conductivity and permeability of compacted expanded natural graphite LW Wang, Z Tamainot-Telto, SJ Metcalf, RE Critoph, RZ Wang Applied Thermal Engineering 30 (13), 1805-1811, 2010 | 99 | 2010 |
Forced convection adsorption cycle with packed bed heat regeneration: Cycle à adsorption à convection forcée avec régénération thermique du lit fixe RE Critoph International Journal of Refrigeration 22 (1), 38-46, 1999 | 97 | 1999 |