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2 Furukawa, H., "Water Adsorption in Porous Metal-Organic Frameworks and Related Materials" 136 (136): 4369-4381, 2014
3 홍상우, "Validity of intra-particle models of mass transfer kinetics in the analysis of a fin-tube type adsorption bed" 대한기계학회 28 (28): 1985-1993, 2014
4 Meunier, F., "Theoretical Performances of Solid Adsorbent Cascading Cycles Using The Zeolite-Water and Active Carbon-Methanol Pairs: Four Case Studies" 6 (6): 491-498, 1986
5 Brown, J. S., "Review of Alternative Cooling Technologies" 64 (64): 252-262, 2014
6 Clausse, M., "Residential Air Conditioning and Heating by Means of Enhanced Solar Collectors Coupled to An Adsorption System" 82 (82): 885-892, 2008
7 Li, T. X., "Progress in The Development of Solid-Gas Sorption Refrigeration Thermodynamic Cycle Driven by Low-Grade Thermal Energy" 40 : 1-58, 2014
8 Kawano, T., "Preparation of Activated Carbon from Petroleum Coke by KOH Chemical Activation for Adsorption Heat Pump" 28 (28): 865-871, 2008
9 Kim, S. N., "Post-Synthetic Modification of Coordination Networks" 14 : 4142-4147, 2012
10 Hong, S. W., "Optimization of A Fin-Tube Type Adsorption Chiller by Design of Experiment" 49 : 49-56, 2015
1 Jeremias, F., "Water and Methanol Adsorption on MOFs for Cycling Heat Transformation Processes" 38 : 1846-1852, 2014
2 Furukawa, H., "Water Adsorption in Porous Metal-Organic Frameworks and Related Materials" 136 (136): 4369-4381, 2014
3 홍상우, "Validity of intra-particle models of mass transfer kinetics in the analysis of a fin-tube type adsorption bed" 대한기계학회 28 (28): 1985-1993, 2014
4 Meunier, F., "Theoretical Performances of Solid Adsorbent Cascading Cycles Using The Zeolite-Water and Active Carbon-Methanol Pairs: Four Case Studies" 6 (6): 491-498, 1986
5 Brown, J. S., "Review of Alternative Cooling Technologies" 64 (64): 252-262, 2014
6 Clausse, M., "Residential Air Conditioning and Heating by Means of Enhanced Solar Collectors Coupled to An Adsorption System" 82 (82): 885-892, 2008
7 Li, T. X., "Progress in The Development of Solid-Gas Sorption Refrigeration Thermodynamic Cycle Driven by Low-Grade Thermal Energy" 40 : 1-58, 2014
8 Kawano, T., "Preparation of Activated Carbon from Petroleum Coke by KOH Chemical Activation for Adsorption Heat Pump" 28 (28): 865-871, 2008
9 Kim, S. N., "Post-Synthetic Modification of Coordination Networks" 14 : 4142-4147, 2012
10 Hong, S. W., "Optimization of A Fin-Tube Type Adsorption Chiller by Design of Experiment" 49 : 49-56, 2015
11 Aristov, Y. I., "New Family of Materials for Adsorption Cooling: Material Scientist Approach" 16 (16): 63-72, 2007
12 Aristov, Y. I., "New Composite Sorbents of Water and Ammonia for Chemical and Adsorption Heat Pumps" 79 (79): 1214-1229, 2006
13 Tokarev, M., "New Composite Sorbent $CaCl_2$ in Mesopores for Sorption Cooling/Heating" 41 (41): 470-474, 2002
14 Aristov, Y. I., "New Composite Adsorbents for Conversion and Storage of Low Temperature Heat: Activity in The Boreskov Institute of Catalysis" 45 (45): 12-19, 2006
15 Kittaka, S., "Mechanism of Freezing of Water in Contact with Mesoporous Silicas MCM-41, SBA-15 and SBA-16: Role of Boundary Water of Pore Outlets in Freezing" 13 : 17222-17233, 2011
16 Gordeeva, L. G., "Impact of Phase Composition on Water Adsorption on Inorganic Hybrides Salt/Silica" 301 (301): 685-691, 2006
17 Cho, K., "Fine Control of Water-Adsorption Properties of Crystalline Microporous Aluminophosphates by Changing Porous Structure and Framework Composition for Application in Water Adsorption Chiller" 17 (17): 5869-5877, 2017
18 Tso, C. Y., "Experimental Performance Analysis on An Adsorption Cooling System Using Zeolite 13X/$CaCl_2$ Adsorbent with Various Operation Sequences" 85 : 343-355, 2015
19 Ng., K. C., "Experimental Investigation of The Silica Gel-Water Adsorption Isotherm Characteristics" 21 (21): 1631-1642, 2001
20 Zhang, L. Z., "Effects of Coupled Heat and Mass Transfers in Adsorbent on The Performance of A Waste Heat Adsorption Cooling Unit" 19 (19): 195-215, 1999
21 Sang Woo Hong, "Effect of the switching time on the performance of an adsorption chiller" 대한기계학회 30 (30): 2387-2395, 2016
22 Glaznev, I., "Composites $CaCl_2$/SBA-15 for Adsorptive Transformation of Low Temperature Heat: Pore Size Effect" 34 (34): 1244-1250, 2011
23 Hong, S. W., "Characteristics of FAM-Z01 Compared to Silica Gels in The Performance of an Adsorption Bed" 104 : 24-33, 2016
24 Aristov, Y. I., "Challenging Offers of Material Science for Adsorption Heat Transformation: A Review" 50 (50): 1610-1618, 2013
25 Niazmand, H., "Bed Geometrical Specifications Effects on The Performance of Silica/Water Adsorption Chillers" 35 (35): 2261-2274, 2012
26 Hong, S. W., "Application of An Embossed Plate Heat Exchanger to Adsorption Chiller" 65 : 142-153, 2016
27 Kim, C., "Alumina-Coated Ordered Mesoporous Silica as An Efficient and Stable Water Adsorbent for Adsorption Heat Pump" 239 : 310-315, 2017
28 Meunier, F., "Adsorption Heat Powered Heat Pumps" 61 (61): 830-836, 2013
29 Kim, Y. -D., "Adsorption Characteristics of Water Vapor on Ferroaluminophosphate for Desalination cycle" 344 : 350-356, 2014
30 Kayal, S., "Adsorption Characteristics of AQSOA Zeolites and Water for Adsorption Chillers" 92 : 1120-1127, 2013
31 Wang, L. W., "A Review on Adsorption Working Pairs for Refrigeration" 13 (13): 518-534, 2009
32 Saha, B. B., "A New Generation Cooling Device Employing $CaCl_2$-in-Silica Gel-Water System" 52 (52): 516-524, 2009
33 Aristov, Y. I., "A Family of New Working Materials for Solid Sorption Air Conditioning Systems" 22 (22): 191-204, 2002
34 Ferey, G., "A Chromium Terephthalate-Based Solid with Unusually Large Pore Volumes and Surface Area" 309 (309): 2040-2042, 2005
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