Study on medium-temperature chemical heat storage using mixed hydroxides Y Kato, R Takahashi, T Sekiguchi, J Ryu International Journal of Refrigeration 32 (4), 661-666, 2009 | 104 | 2009 |
Dehydration and hydration behavior of metal-salt-modified materials for chemical heat pumps H Ishitobi, K Uruma, M Takeuchi, J Ryu, Y Kato Applied thermal engineering 50 (2), 1639-1644, 2013 | 101 | 2013 |
Composite material “Mg (OH) 2/vermiculite”: A promising new candidate for storage of middle temperature heat A Shkatulov, J Ryu, Y Kato, Y Aristov Energy 44 (1), 1028-1034, 2012 | 101 | 2012 |
Ammonia absorption on alkaline earth halides as ammonia separation and storage procedure CY Liu, K Aika Bulletin of the Chemical Society of Japan 77 (1), 123-131, 2004 | 101 | 2004 |
Thermochemical performance of magnesium hydroxide–expanded graphite pellets for chemical heat pump M Zamengo, J Ryu, Y Kato Applied thermal engineering 64 (1-2), 339-347, 2014 | 82 | 2014 |
Ammonia absorption into alkaline earth metal halide mixtures as an ammonia storage material CY Liu, K Aika Industrial & engineering chemistry research 43 (23), 7484-7491, 2004 | 72 | 2004 |
Development of thermal storage material using vermiculite and calcium hydroxide J Kariya, J Ryu, Y Kato Applied Thermal Engineering 94, 186-192, 2016 | 65 | 2016 |
Lithium bromide-mediated reaction performance enhancement of a chemical heat-storage material for magnesium oxide/water chemical heat pumps O Myagmarjav, J Ryu, Y Kato Applied thermal engineering 63 (1), 170-176, 2014 | 62 | 2014 |
Ammonia adsorption on ion exchanged Y-zeolites as ammonia storage material KA Chun Yi Liu Journal of the Japan Petroleum Institute 46 (5), 301-307, 2003 | 60 | 2003 |
Magnesium hydroxide–expanded graphite composite pellets for a packed bed reactor chemical heat pump M Zamengo, J Ryu, Y Kato Applied thermal engineering 61 (2), 853-858, 2013 | 57 | 2013 |
Reactivity enhancement of chemical materials used in packed bed reactor of chemical heat pump ST Kim, J Ryu, Y Kato Progress in Nuclear Energy 53 (7), 1027-1033, 2011 | 56 | 2011 |
Application of lithium orthosilicate for high-temperature thermochemical energy storage H Takasu, J Ryu, Y Kato Applied Energy 193 (1), 74-83, 2017 | 55 | 2017 |
Evaluation of heat output densities of lithium chloride-modified magnesium hydroxide for thermochemical energy storage H Ishitobi, N Hirao, J Ryu, Y Kato Industrial & Engineering Chemistry Research 52 (15), 5321-5325, 2013 | 50 | 2013 |
Composite block of magnesium hydroxide–expanded graphite for chemical heat storage and heat pump M Zamengo, J Ryu, Y Kato Applied thermal engineering 69 (1-2), 29-38, 2014 | 46 | 2014 |
Effect of transition metal mixing on reactivities of magnesium oxide for chemical heat pump J Ryu, R Takahashi, N Hirao, Y Kato Journal of Chemical Engineering of Japan 40 (13), 1281-1286, 2007 | 44 | 2007 |
Dehydration behavior of metal-salt-added magnesium hydroxide as chemical heat storage media J Ryu, N Hirao, R Takahashi, Y Kato Chemistry letters 37 (11), 1140-1141, 2008 | 40 | 2008 |
Optimization of magnesium hydroxide composite material mixed with expanded graphite and calcium chloride for chemical heat pumps ST Kim, J Ryu, Y Kato Applied Thermal Engineering 50 (1), 485-490, 2013 | 36 | 2013 |
Effect of the Cl/Br Molar Ratio of a CaCl2−CaBr2 Mixture Used as an Ammonia Storage Material CY Liu, K Aika Industrial & engineering chemistry research 43 (22), 6994-7000, 2004 | 35 | 2004 |
Energy density enhancement of chemical heat storage material for magnesium oxide/water chemical heat pump O Myagmarjav, M Zamengo, J Ryu, Y Kato Applied Thermal Engineering 91, 377-386, 2015 | 33 | 2015 |
Fourier-Transform Infrared Analysis of the Dehydration Mechanism of Mg (OH) 2 and Chemically Modified Mg (OH) 2 R Kurosawa, M Takeuchi, J Ryu The Journal of Physical Chemistry C 125 (10), 5559-5571, 2021 | 32 | 2021 |