A Review of Study on Thermal Energy Transport System by Synthesis and Decomposition Reactions of Methanol(Special Issue on International Conference on Power and Energy System)
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概要
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The study on thermal energy transport system by synthesis and decomposition reactions of methanol was reviewed. To promote energy conservation and global environment protection, a two-step liquid-phase methanol synthesis process, which starts with carbonylation of methanol to methyl formate, then followed by the hydrogenolysis of the formate, was studied to recover Wasted or unused discharged heat from industrial sources for the thermal energy demands of residential and commercial areas by chemical reactions. The research and development of the system were focused on the following three points. (1) Development of low-temperature decomposition and synthetic catalysts, (2) Development of liquid phase reactor (heat exchanger accompanying chemical reaction), (3) Simulation of the energy transport efficiency of entire system which contains heat recovery and supply sections. As the result of the development of catalyst, promising catalysts which agree with the development purposes for the methyl formate decomposition reaction and the synthetic reaction are being developed though some studies remain for the methanol decomposition and synthetic reactions. In the fundamental development of liquid phase reactor, the solubilities of CO and H_2 gases in methanol and methyl formate were measured by the method of total pressure decrease due to absorption under pressures up to 1 500 kPa and temperatures up to 140℃. The diffusivity of CO gas in methanol was determined by measuring the diameter and solution time of single CO bubbles in methanol. The chemical reaction rate of methanol synthesis by hydrogenolysis of methyl formate was measured using a plate-type of Raney copper catalyst in a reactor with rectangular channel and in an autoclave reactor. The reaction characteristics were investigated by carrying out the experiments at various temperatures, flow rates and at various catalyst development conditions. We focused on the effect of Raney copper catalyst thickness on the liquid-phase chemical reaction by varying the development time of the catalyst. Investigation results of the catalyst such as surface area, pore radius, lattice size, and photographs of scanning electron microscope (SEM) were also given. In the simulation of energy transport efficiency of this system, by simulating the energy transfer system using two-step liquid phase methanol decomposition and synthetic reactions, and comparing with the technology so far, it can be expected that an innovative energy transfer system is possible to realize.
- 2002-08-15
著者
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Yabe A
National Inst. Advanced Industrial Sci. And Technol. Aist Ibaraki Jpn
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Yabe Akira
Department Of Chemistry University Of Tsukuba
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FUKUDA Katsuya
Department of System Design Engineering, Faculty of Science and Technology, Keio University
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Yabe A
National Institute Of Advanced Industrial Science And Technology (aist)
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Yabe Akira
Mechanical Engineering Laboratory
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Yabe Akira
Mechanical Engineering Laboratory Aist Miti
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Liu Qiusheng
Department Of Nuclear Eng. Kobe University Of Mercantile Marine
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Fukuda K
Department Of Nuclear Eng. Kobe University Of Mercantile Marine
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Fukuda Katsuya
Department Of Nuclear Eng. Kobe University Of Mercantile Marine
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KAJIYAMA Shiro
Mitsubishi Gas Chemical Company
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