TY - JOUR
TI - Design of hybrid heat and power co-generation system
AU - Jin Yingai
AU - Lv Mingjie
AU - Yan Yuying
AU - Quan Mingyu
JN - Thermal Science
PY - 2022
VL - 26
IS - 5
SP - 4119
EP - 4129
PT - Article
AB - The energy revolution considering renewable power is indispensable and  inevitable in the development of modern power industry, yet has been  restricted by many practical problems. The instability of renewable energy  makes the whole power generation system unable to maintain stable output,  which causes fluctuations in the power grid system, and ultimately affects  the user side. Also, there are few researches on hybrid heat and power  co-generation system and when applied to the regional power supply, current  systems converse electric energy to thermal energy to meet the heating  demand of users, which reduces the energy quality. Hybrid two or more kinds  of renewable energy is a way to eliminate instability of renewable energy  power generation system. In this paper, a hybrid heat and power  co-generation system is designed to reach both heat and power demands of  users, a solar-geothermal power generation system was simulated on ASPEN  PLUS platform. The output power, entropy and energy efficiency are analyzed  to optimize the system. Based on the solar-geothermal power generation  system, exergy analysis shows that the parallel heating and power generating  system is much more efficient than the original system.