Multi-Objective Optimization of Semi-Isolated Green Energy Cchp System(Sige-Cchp)Under Uncertain Co-Combustion Ratio-Reference-Cited by-同舟云学术

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Multi-Objective Optimization of Semi-Isolated Green Energy Cchp System(Sige-Cchp)Under Uncertain Co-Combustion Ratio

Published:2024 Issue: Volume: Page:
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Author:

ji jie,Wen Wenchao,Xie Yingqi,Xia Aoyun,Wang Wenjie,Ma Mengyu,Xie Jinbo,Yin Qingyuan,Huang Hui,Huang Xiaolong,Zhang Chu,Wang Yaodong

Publisher

Elsevier BV

Reference34 articles.

1. Thermodynamic and economic assessment of a novel CCHP integrated system taking biomass, natural gas and geothermal energy as co-feeds;X Zhang;Energy Conversion and Management,2018

2. Nested optimization design for combined cooling, heating, and power system coupled with solar and biomass energy [J];L Zhang;International Journal of Electrical Power & Energy Systems,2020

3. Achieving high-efficiency conversion and poly-generation of cooling, heating, and power based on biomass-fueled SOFC hybrid system: Performance assessment and multi-objective optimization;P Zhu;Energy Conversion and Management,2021

4. Comparative study of steam injection modes for a proposed biomass-driven cogeneration cycle: Performance improvement and CO2 emission reduction;S Anvari;J]. Applied Energy,2023

5. A sustainable optimal biomass wastedriven CCHP system to boost the nearly zero energy building concept;Ebrahimi-Moghadam A;Energy Conversion and Management,2023

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