Conceptual design and multi-objective optimization of a hybrid system based on direct ammonia protonic ceramic fuel cell and alkali metal thermal electric converter

Author:

Han Yuan,Gao Wenzhi,Qin Yanzhou

Publisher

Elsevier BV

Reference59 articles.

1. COP26: progress, challenges, and outlook;Wang;Environ Sustain,2022

2. Fuel-cycle based environmental and economic assessment of hydrogen fuel cell vehicles in China;Chi;Energy,2023

3. A comprehensive review of solid oxide fuel cells operating on various promising alternative fuels;Xu;Energy Convers Manage,2022

4. Thermodynamic optimization of the solid oxide fuel cell electric power;Sahli;Univ Politehnica Bucharest Sci Bull Ser B Chem Mater Sci,2018

5. Numerical performance analysis of the solid oxide fuel cell for aviation hybrid power system;Liu;Energy,2023

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