METHANE FORMATION AND WATER-GAS SHIFT REACTIONS OVER POTASSIUM CARBONATE LOADED ON COAL CHAR AT ELEVATED PRESSURE IN H2-CO-H20 SYSTEM

SETSUJI TONE; SHOICHI KIMURA; TSUTAO OTAKE

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METHANE FORMATION AND WATER-GAS SHIFT REACTIONS OVER POTASSIUM CARBONATE LOADED ON COAL CHAR AT ELEVATED PRESSURE IN H2-CO-H20 SYSTEM

机译：H2-CO-H20系统中高压下煤炭负载碳酸钾的甲烷形成和水煤气变换反应

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References(17) Cited-By(1) The rate of methane formation over potassium carbonate catalyst loaded on coal char was measured at elevated pressure in the range 1.5-2.0 MPa in the H2-CO-H2O system. The rate of simultaneous progress of the water-gas shift reaction was also measured. The effect of gaseous components on these reactions was investigated to obtain the respective rate equations. The existence of H2O in the reactant gas decreased the rate of methane formation through CO hydrogenation and enhanced that through carbon hydrogenation. In the H2-CO-H2O system, the rate of carbon hydrogenation is comparable to that of the CO hydrogenation as reaction temperature becomes high and suitable for steam gasification. The fixed-bed gasification was carried out at 2 MPa and 1023 K, and the exit gas compositions were simulated on the basis of these kinetic data. The calculated results agreed fairly well with the experimental ones.

机译：参考文献（17）（1）在H2-CO-H2O系统中，在压力为1.5-2.0 MPa的高压下，测定了负载在煤焦上的碳酸钾催化剂上甲烷的生成速率。还测量了水煤气变换反应的同时进行的速率。研究了气态组分对这些反应的影响，以获得各自的速率方程。反应气体中H2O的存在降低了通过CO加氢生成甲烷的速率，并通过碳加氢提高了甲烷生成速率。在H2-CO-H2O系统中，随着反应温度升高并适合于蒸汽气化，碳氢化率与CO氢化率相当。固定床气化在2 MPa和1023 K下进行，并根据这些动力学数据模拟出口气体的组成。计算结果与实验结果吻合得很好。

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《Journal of Chemical Engineering of Japan》 |1985年第3期|共页
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SETSUJI TONE; SHOICHI KIMURA; TSUTAO OTAKE;
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1. METHANE FORMATION OVER POTASSIUM CARBONATE CATALYST LOADED ON COAL CHAR [J] . SETSUJI TONE, SHOICHI KIMURA, TSUTAO OTAKE, Journal of Chemical Engineering of Japan . 1984,第5期

机译：煤焦炭负载的碳酸钾催化剂上的甲烷形成
2. Catalytic Activity of Coal Char on Water-Gas Shift Reaction [J] . Dahlia Diniyati, Kayoko Morishita, Liuyun Li Journal of Chemical Engineering of Japan . 2009,第1a3期

机译：煤焦对水煤气变换反应的催化活性
3. Degradation of Mixed Char of Poly (vinyl chloride) with Polyethylene Glycol to Give Hydrocarbons by the Reaction with Potassium Carbonate in Supercritical Water: Formation of Hydrocarbons Containing Lower Amounts of Benzene Accompanied by Formation o [J] . Fuminori Akiyama Bulletin of the Chemical Society of Japan . 2002,第4期

机译：超临界水中碳酸钾与碳酸钾反应降解聚氯乙烯与聚乙二醇的混合碳，制得碳氢化合物：形成邻苯的含碳量较低的碳氢化合物
4. The effect of potassium bromide and sodium carbonate on coal char combustion reactivity [C] . Alejandro Molina, Jeffrey J. Murphy, Christopher R. Shaddix, International Symposium on Combustion . 2005

机译：溴化钾和碳酸钠对煤炭燃烧反应性的影响
5. THE EFFECT OF MINERAL SPECIES ON OIL SHALE CHAR COMBUSTION AND STEAM GASIFICATION (WATER-GAS SHIFT REACTION, CATALYSIS, THERMOGRAVIMETRIC ANALYSIS, ALKALI, ALKALINE EARTH OXIDES). [D] . CAVALIERI, RALPH PHILLIP. 1985

机译：矿物种类对油页岩焦燃烧和蒸汽气化的影响（废水变换反应，催化，热重分析，碱度，碱土金属氧化物）。
6. Metabolic Remodeling in the Pressure‐Loaded Right Ventricle: Shifts in Glucose and Fatty Acid Metabolism—A Systematic Review and Meta‐Analysis [O] . Anne‐Marie C. Koop, Guido P. L. Bossers, Mark‐Jan Ploegstra, 2019

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7. Methane formation over potassium carbonate catalyst loaded on coal char. [O] . TSUTAO OTAKE, SETSUJI TONE, SHOICHI KIMURA, 1984

机译：甲烷形成碳酸钾催化剂上煤炭催化剂。
8. Effects of H sub 2 S on Molten Carbonate Fuel Cells. Literature Survey of Water-Gas Shift Reaction [R] . Remick, R. J., Anderson, G. L. 1985

机译：H sub 2 s对熔融碳酸盐燃料电池的影响。水煤气变换反应文献综述

METHANE FORMATION AND WATER-GAS SHIFT REACTIONS OVER POTASSIUM CARBONATE LOADED ON COAL CHAR AT ELEVATED PRESSURE IN H2-CO-H20 SYSTEM

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