Performance Assessment of Compressed Air Energy Storage System Coupled With Biomass Integrated Gasification Combined Cycle System

In order to improve the performance of the compressed air energy storage system, a new scheme of coupling biomass integrated gasification combined cycle system with compressed air energy storage system is proposed. In the energy storage process, the feedwater of the combined cycle system is used to cool the compressed high-temperature air. In the energy release process, a bypass flue is arranged in the heat recovery steam generator of the combined cycle system. The compressed air from the air storage vessel is heated by the bypass flue and then passes directly to the combustor of the combined cycle system. The coupling scheme, which adopts the principle of energy step utilization, can achieve the improvement of system efficiency; at the same time, it can save the heat tank, cold tank expander and other equipment in the conventional compressed air energy storage system. The coupled system is simulated by Ebsilon software, and the thermodynamic and economic analyses of the coupled system are performed. The results show that the round-trip efficiency and the energy storage density of the CAES system in the proposed scheme are 86.14% and 7.48 MJ/m3, respectively, and the total efficiency of the whole coupled system is 37.20%. In addition, the dynamic payback period of the new scheme is 3.73 years, and the net present value is ￥896,500. This work provides new technology options for improving the performance of the CAES system. ©2023 Chin.Soc.for Elec.Eng.