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Drying Technology
An International Journal
Volume 17, 1999 - Issue 7-8
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Original Articles

SIMULATION OF HYDRATION/DEHYDRATION OF CaO/Ca(OH)2 CHEMICAL HEAT PUMP REACTOR FOR COLD/HOT HEAT GENERATION

Hironao Ogura Dept. of Applied Chemistry, Kyushu Institute of Technology, Tobaia, Kitakyushu, 804-8550, JAPAN
,
Rui Shimojyo Dept. of Applied Chemistry, Kyushu Institute of Technology, Tobaia, Kitakyushu, 804-8550, JAPAN
,
Hiroyuki Kage Dept. of Applied Chemistry, Kyushu Institute of Technology, Tobaia, Kitakyushu, 804-8550, JAPAN
,
Yoshizo Matsuno Dept. of Applied Chemistry, Kyushu Institute of Technology, Tobaia, Kitakyushu, 804-8550, JAPAN
&
Arun S. Mujumdar Dept. of Chemical Engineering, McGill University, Montreal, Quebec, H3A 2B2, CANADA
Pages 1579-1592 | Published online: 27 Apr 2007

Citations (25)

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Read on this site (3)

Hironao Ogura, Hiroki Ishida, Hiroyuki Kage & Arun S. Mujumdar. (2003) Enhancement of Energy Efficiency of a Chemical Heat Pump-Assisted Convective Dryer. Drying Technology 21:2, pages 279-292.
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Hironao Ogura, Hiroki Ishida, Ryuta Yokooji, Hiroyuki Kage, Yoshizo Matsuno & Arun S. Mujumdar. (2001) EXPERIMENTAL STUDIES ON A NOVEL CHEMICAL HEAT PUMP DRYER USING A GAS–SOLID REACTION. Drying Technology 19:7, pages 1461-1477.
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Hiranao Ogura & AronS. Mujumdar. (2000) PROPOSAL FOR A NOVEL CHEMICAL HEAT PUMP DRYER. Drying Technology 18:4-5, pages 1033-1053.
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Articles from other publishers (22)

O. Bartoli, R. Chacartegui, A. Carro, C. Ortiz, U. Desideri & J.A. Becerra. (2022) Analysis of an energy storage system using reversible calcium hydroxide in fluidised-bed reactors. Applied Thermal Engineering 217, pages 119180.
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P.R. Chauhan, S.C. Kaushik & S.K. Tyagi. (2022) A review on thermal performance enhancement of green cooling system using different adsorbent/refrigerant pairs. Energy Conversion and Management: X 14, pages 100225.
Crossref
Yawen REN & Hironao OGURA. (2022) Numerical investigation on performance improvement of CaSO<sub>4</sub> solar chemical heat pump. Journal of Thermal Science and Technology 17:2, pages 22-00058-22-00058.
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Yawen Ren & Hironao Ogura. (2021) Performance evaluation of off-grid solar chemical heat pump for cooling/heating. Solar Energy 224, pages 1247-1259.
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Paul D. Armatis, Aman Gupta, Piyush Sabharwall, Vivek Utgikar & Brian M. Fronk. (2021) A chemical‐absorption heat pump for utilization of nuclear power in high temperature industrial processes . International Journal of Energy Research 45:10, pages 14612-14629.
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Boyan Wang, Zhiyuan Wang, Yan Ma & Yijing Liang. (2021) Heat Transfer Enhancement of Indirect Heat Transfer Reactors for Ca(OH)2/CaO Thermochemical Energy Storage System. Processes 9:7, pages 1136.
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J.T. Chen, B.Q. Xia & C.Y. Zhao. (2020) Topology optimization for heat transfer enhancement in thermochemical heat storage. International Journal of Heat and Mass Transfer 154, pages 119785.
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Aya Maruyama, Ryo Kurosawa & Junichi Ryu. (2020) Effect of Lithium Compound Addition on the Dehydration and Hydration of Calcium Hydroxide as a Chemical Heat Storage Material. ACS Omega 5:17, pages 9820-9829.
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Qasim Ranjha, Nasser Vahedi & Alparslan Oztekin. (2019) High-temperature thermochemical energy storage – heat transfer enhancements within reaction bed. Applied Thermal Engineering 163, pages 114407.
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Yi Yuan, Yingjie Li & Jianli Zhao. (2018) Development on Thermochemical Energy Storage Based on CaO-Based Materials: A Review. Sustainability 10:8, pages 2660.
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Qasim Ranjha & Alparslan Oztekin. (2017) Numerical analyses of three-dimensional fixed reaction bed for thermochemical energy storage. Renewable Energy 111, pages 825-835.
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Alexandr Shkatulov & Yuri Aristov. (2015) Modification of magnesium and calcium hydroxides with salts: An efficient way to advanced materials for storage of middle-temperature heat. Energy 85, pages 667-676.
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C. Roßkopf, M. Haas, A. Faik, M. Linder & A. Wörner. (2014) Improving powder bed properties for thermochemical storage by adding nanoparticles. Energy Conversion and Management 86, pages 93-98.
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P. Pardo, A. Deydier, Z. Anxionnaz-Minvielle, S. Rougé, M. Cabassud & P. Cognet. (2014) A review on high temperature thermochemical heat energy storage. Renewable and Sustainable Energy Reviews 32, pages 591-610.
Crossref
Hongxia Zhang & Hironao Ogura. (2014) Studies on Hydration Reaction Rates of Various Size CaO Particles for Chemical Heat Storage/Pump. JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 47:7, pages 587-594.
Crossref
F. Schaube, I. Utz, A. Wörner & H. Müller-Steinhagen. (2013) De- and rehydration of Ca(OH)2 in a reactor with direct heat transfer for thermo-chemical heat storage. Part B: Validation of model. Chemical Engineering Research and Design 91:5, pages 865-873.
Crossref
F. Schaube, A. Kohzer, J. Schütz, A. Wörner & H. Müller-Steinhagen. (2013) De- and rehydration of Ca(OH)2 in a reactor with direct heat transfer for thermo-chemical heat storage. Part A: Experimental results. Chemical Engineering Research and Design 91:5, pages 856-864.
Crossref
F. Schaube, L. Koch, A. Wörner & H. Müller-Steinhagen. (2012) A thermodynamic and kinetic study of the de- and rehydration of Ca(OH)2 at high H2O partial pressures for thermo-chemical heat storage. Thermochimica Acta 538, pages 9-20.
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Hironao Oguraa. (2012) Energy Recycling System Using Chemical Heat Pump Container. Energy Procedia 14, pages 2048-2053.
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Y. Kato, Y. Sasaki & Y. Yoshizawa. (2005) Magnesium oxide/water chemical heat pump to enhance energy utilization of a cogeneration system. Energy 30:11-12, pages 2144-2155.
Crossref
Bostjan Cerkvenik, Yukitaka Kato & Franz Storkenmaier. (2002) Applicability of Calcium Oxide in a Cascading Sorption Cooling System.. JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 35:10, pages 969-976.
Crossref
Yukitaka Kato, Atsushi Minakami, Guangzhe Li & Yoshio Yoshizawa. (2009) Operability of a thermally driven magnesium oxide/water chemical heat pump. The Canadian Journal of Chemical Engineering 79:4, pages 536-541.
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