必应词典为您提供water-gas-shift-reaction的释义,un. 水煤气变换反应; 网络释义: 水煤气转化反应;
Water-GasShiftReaction DimitrisI.Kondarides LaboratoryofHeterogeneousCatalysis DepartmentofChemicalEngineering UniversityofPatras GR26504Patras,GREECE RESTOENEWorkshop 8-10June2011 ResidencialaCristalera,MirafloresdelaSierra,Madrid,Spain 1.Introduction 2.IndustrialWGScatalystsandreactors •Effectofthenatureofthe...
Recent kinetic and mechanistic studies of the water-gas shift reaction, H/sub 2/O(g) + CO(g) reversible CO/sub 2/ + H/sub 2/(g), catalyzed by iron and copper catalysts are reviewed. Composition, structure, active sites, preparation methods, additives, and poisons are discussed relative...
The water-gas shift reaction (WGSR) describes the reaction of carbon monoxide and water vapor to form carbon dioxide and hydrogen (the mixture of carbon monoxide and hydrogen is known as water gas):水汽转化反应描述了一氧化碳和水蒸气生成二氧化碳和氢气的反应(一氧化碳和氢气的混合物被...
1)water-gas shift reaction水煤气变换反应 1.Thewater-gas shift reactionon the Cu base catalyst for the one-step dimethyl ether synthesis process was studied in a fixed bed under the reaction conditions of 260℃ and 5.0MPa的条件下,研究了固定床反应器中不同CO空速和CO/H2O比例在甲醇合成催化剂上...
Water Gas Shift Reaction: Research Developments and Applicationsoutlines the importance of hydrogen as a future fuel, along with the various hydrogen production methods. The book explains the development of catalysts for Water Gas Shift (WGS) reaction at different temperatures and steam/CO ratios, and...
1) water-gas shift reaction 水煤气变换反应1. The water-gas shift reaction on the Cu base catalyst for the one-step dimethyl ether synthesis process was studied in a fixed bed under the reaction conditions of 260℃ and 5. 0MPa的条件下,研究了固定床反应器中不同CO空速和CO/H2O比例在甲醇...
Recent kinetic and mechanistic studies of the water-gas shift reaction, H/sub 2/O(g) + CO(g) reversible CO/sub 2/ + H/sub 2/(g), catalyzed by iron and copper catalysts are reviewed. Composition, structure, active sites, preparation methods, additives, and poisons are discussed relative...
Traditional water–gas shift reaction provides one primary route for industrial production of clean-energy hydrogen. However, this process operates at high temperatures and pressures, and requires additional separation of H2 from products containing CO2,
Forsynthesis gaswith the right stoichiometric composition (molar H2/CO-ratio of about 2.1) as can be obtained by auto-thermal reforming of methane, the water gas shift reaction would not be useful, and cobalt catalysts (with no, or almost no water gas shift activity) are suited. ...