CuCl/HCl Electrolyzer Kinetics for Hydrogen Production via Cu-Cl Thermochemical Cycle

机译：通过Cu-Cl热化学循环制氢的CuCl / HCl电解动力学

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An investigation of kinetic properties of the CuCl/HCl electrolytic cell verified methods applied in this study to significantly reduce the catalyst loadings required to achieve a current density of 0.5 A/cm~2 at 0.7 V. The CuCl/HCl electrolytic cell is a key component of the Cu-CI thermochemical cycle. The economic viability of the Cu-Cl thermochemical cycle was significantly improved by reducing the platinum loading required to achieve higher current densities. Electrochemical impedance spectroscopy (EIS) and linear sweep voltammetry (LSV) were employed to investigate overpotentials of the individual electrodes and the electrolytic cell. A laboratory scale CuCl/HCl electrolytic cell was used to verify that the catalyst loading could be reduced by 68 % and still maintain a current density of 0.5 A/cm~2 at 0.7 V.

机译：对本研究中使用的CuCl / HCl电解池的动力学特性进行了研究，旨在显着降低在0.7 V时实现0.5 A / cm〜2的电流密度所需的催化剂负载.CuCl / HCl电解池是关键Cu-Cl热化学循环的组分。通过降低实现更高电流密度所需的铂载量，可大大提高Cu-Cl热化学循环的经济可行性。电化学阻抗谱（EIS）和线性扫描伏安法（LSV）用于研究单个电极和电解池的超电势。使用实验室规模的CuCl / HCl电解池来验证催化剂负载量可以降低68％，并且在0.7 V时仍保持0.5 A / cm〜2的电流密度。

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《International symposium on electrochemical synthesis of fuels》|2013年|15-25|共11页
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Derek M. Hall; Rich S. Schatz; Eric G. LaRow; Serguei N Lvov;
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1. Hydrogen production by the Cu-Cl thermochemical cycle: Investigation of the key step of hydrolysing CuCl_2 to Cu_2OCl_2 and HCl using a spray reactor [J] . Magali S. Ferrandon, Michele A. Lewis, David F. Tatterson, International journal of hydrogen energy . 2010,第3期

机译：通过Cu-Cl热化学循环生产氢气：使用喷雾反应器将CuCl_2水解为Cu_2OCl_2和HCl的关键步骤的研究
2. Experimental study of effect of anolyte concentration and electrical potential on electrolyzer performance in thermochemical hydrogen production using the Cu-Cl cycle [J] . Vaghasia Rahul, Jianu Ofelia A., Rosen Marc A. International journal of hydrogen energy . 2018,第9期

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3. Analytical prediction of heat capacity of molten AgCl and CuCl with application to thermochemical Cu-Cl cycle for hydrogen production [J] . Rajasekaran Bharanidharan, Jianu Ofelia A. International journal of hydrogen energy . 2021,第2期

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4. CuCl/HCl Electrolyzer Kinetics for Hydrogen Production via Cu-Cl Thermochemical Cycle [C] . Derek M. Hall, Rich S. Schatz, Eric G. LaRow, International symposium on electrochemical synthesis of fuels . 2013

机译：CuCl / HCL电解槽通过Cu-Cl热化学循环产生氢气产生动力学
5. Thermodynamics and kinetics of the CuCl(aq)/HCl(aq) electrolyzer for hydrogen production. [D] . Hall, Derek M. 2015

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7. Evaluation of Anode Electrode Materials for Cu-Cl/HCl Electrolyzers for Hydrogen Production [O] . Santhanam Ranganathan, Patrick S. R. Edge, E. Bradley Easton 2016

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8. Thermochemical Hydrogen Production with the Sulfur Dioxide-Iodine Cycle by Utilization of Dipraseodymium Dioxymonosulfate as a Recycle Reagent [R] . Onstott, E. I., de Bruin, D. 1986

机译：利用二巯基二硫酸二镨作为循环试剂，利用二氧化硫 - 碘循环进行热化学制氢

CuCl/HCl Electrolyzer Kinetics for Hydrogen Production via Cu-Cl Thermochemical Cycle

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