火用
环境科学
蒸发器
吸收式制冷机
制冷
工艺工程
空调
性能系数
热电联产
水冷
冷却能力
固体氧化物燃料电池
聚光镜(光学)
发电
可用能
核工程
热回收通风
涡轮机
可再生能源
功率(物理)
高效能源利用
废物管理
汽车工程
发电站
电力系统
工作温度
余热
能量(信号处理)
储能
能源
气体压缩机
蒸发冷却器
燃气轮机
工程类
能量回收
制冷剂
空气冷却
营业成本
作者
Yunis Khan,Pawan Kumar Singh,Deepak Singh,Kaushalendra Kumar Dubey,Sumit Chawla,Rohit Kumar Singh Gautam
标识
DOI:10.1177/09544062251408259
摘要
This study introduces a hybrid energy generation system that couples a solid oxide fuel cell with a gas turbine to enable simultaneous power generation and room cooling through a vapor absorption refrigeration system (VARS). To maintain uninterrupted cooling, a water storage reservoir is incorporated as a supplementary heat source for the VARS. Comprehensive thermodynamic, economic, and environmental evaluations were carried out using computational modeling of the proposed setup. The results demonstrate that the integrated system attains an energy efficiency of 50.18% and an exergy efficiency of 48.03%, while producing power output of 551.29 kW under the specified operating conditions. The small-scale VARS provides a cooling capacity of 5.275 kW for air conditioning at an evaporator temperature of 5°C, with a coefficient of performance of 0.752. The overall operating cost rate was calculated as 33.57 $/h, and CO 2 emissions were estimated at 394.70 kg/MWh of generated energy.
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