Keywords: چرخه سولفور ید; Hydrogen; Sulfur-iodine cycle; Electrochemical Bunsen reaction; Electrolytic cell (EC);
مقالات ISI چرخه سولفور ید (ترجمه نشده)
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Keywords: چرخه سولفور ید; Hydrogen; Sulfur-iodine cycle; Electrochemical Bunsen reaction; Electrochemical cell (EC); Flow channel; Pressure drop;
Keywords: چرخه سولفور ید; Hydrogen; Sulfur-iodine cycle; Electrochemical Bunsen reaction; Flowsheet; Thermal efficiency;
Keywords: چرخه سولفور ید; Computational fluid dynamics; Fluent code; Hydrogen iodide decomposition reaction; Hydrogen production; Sulfur-iodine cycle;
Keywords: چرخه سولفور ید; Hydrogen production; Sulfur-iodine cycle; Electrochemical Bunsen reaction; Equilibrium potential;
Keywords: چرخه سولفور ید; Water splitting; Sulfur-iodine cycle; Bunsen reaction;
Keywords: چرخه سولفور ید; Sulfur-iodine cycle; Thermochemical water splitting; Bunsen reaction; SO2 conversion; Kinetic model;
Keywords: چرخه سولفور ید; Sulfur-iodine cycle; Electrochemical Bunsen reaction; Electrolysis; Cation exchange membrane; Hydrogen production;
Keywords: چرخه سولفور ید; Bunsen reaction; Energy and exergy analysis; Efficiency; Sulfur-iodine cycle; Thermochemical hydrogen production;
SO3 decomposition over CuO-CeO2 based catalysts in the sulfur-iodine cycle for hydrogen production
Keywords: چرخه سولفور ید; Hydrogen production; Sulfur-iodine cycle; Sulfuric acid decomposition; Carriers of cerium-copper composite oxides;
Kinetic analysis of Bunsen reaction with HI existence in the thermochemical sulfur-iodine cycle for hydrogen production
Keywords: چرخه سولفور ید; Hydrogen; Sulfur-iodine cycle; Bunsen reaction; Kinetics; Activation energy;
Catalytic performance and durability of Ni/AC for HI decomposition in sulfur-iodine thermochemical cycle for hydrogen production
Keywords: چرخه سولفور ید; SI; sulfur-iodine; AC; activated carbon; Ni/AC; activated carbon with Ni impregnated; XRD; X-ray diffraction analysis; TEM; transmission electron microscope; BET; Brunauer-Emmett-Teller method; Sulfur-iodine cycle; HI decomposition; Ni content; Ca
Structure and SO3 decomposition activity of CeVO4/SiO2 catalysts for solar thermochemical water splitting cycles
Keywords: چرخه سولفور ید; Cerium vanadate; Mesoporous silica; SO3 decomposition; Thermochemical water splitting; Sulfur-iodine cycle;
Catalytic decomposition of sulfuric acid over CuO/CeO2 in the sulfur-iodine cycle for hydrogen production
Keywords: چرخه سولفور ید; Sulfur-iodine cycle; H2SO4 decomposition; CuO/CeO2 catalyst; Vacancy defects; Redox mechanism; Hydrogen production;
Thermal efficiency evaluation of a ZnSI thermochemical cycle for CO2 conversion and H2 production - Complete system
Keywords: چرخه سولفور ید; CO2 conversion; H2 production; ZnSI thermochemical cycle; Sulfur-iodine cycle; Thermal efficiency;
Detailed kinetic modeling of homogeneous H2SO4 decomposition in the sulfur-iodine cycle for hydrogen production
Keywords: چرخه سولفور ید; Sulfur-iodine cycle; H2SO4 decomposition; Kinetic modeling; Sensitivity analysis; Hydrogen production;
A novel thermochemical cycle for the dissociation of CO2 and H2O using sustainable energy sources
Keywords: چرخه سولفور ید; Thermochemical cycle; Carbon dioxide splitting; Water splitting; Zinc-sulfur-iodine cycle; Sulfur-iodine cycle;
Influence of the initial HI on the multiphase Bunsen reaction in the sulfur-iodine thermochemical cycle
Keywords: چرخه سولفور ید; Sulfur-iodine cycle; Thermochemical water-splitting; Bunsen reaction; Kinetic rate; Thermodynamic equilibrium;
Use of PSA for design of emergency systems in a sulfur-iodine cycle
Keywords: چرخه سولفور ید; Hydrogen production; Sulfur-iodine cycle; Probabilistic safety assessment;
Analysis of sulfur-iodine thermochemical cycle for solar hydrogen production. Part I: decomposition of sulfuric acid
Keywords: چرخه سولفور ید; Solar thermochemical water splitting cycles; Sulfur-iodine cycle; Sulfuric acid decomposition;