摘要
为解决可再生能源存在的利用率低等问题,本文结合太阳能热利用技术、太阳能光伏技术、燃料电池系统、地源热泵系统等一系列技术,设计了一套多源热电联产系统。通过计算建筑负荷,在Trnsys仿真平台中建立仿真模型,对系统各部件进出口温度等进行相关分析。同时,为了对比分析系统的性能,在Simulation Studio中,通过连接各个功能不同的模块,建立了单一PV/T系统仿真模型。仿真结果表明,单一PV/T系统的全年平均光电效率为0.0825,全年发电量约为1745 kW·h;带有冷却循环多源系统中的PV/T集热器,其全年平均光电效率为0.1238,比单一系统提高了50.06%,发电量为2560 kW·h,提高了815 kW·h。说明带有冷却循环的多源系统,比单一PV/T系统在发电量及光电效率等方面均有显著提升。该研究可提高再生能源的利用率。
In order to solve the problem of low utilization rate of renewable energy,this paper designs a set of multi-source cogeneration system based on solar thermal utilization technology,solar photovoltaic technology,fuel cell system,ground source heat pump system and so on.By calculating the building load,the simulation model is established in the Trnsys simulation platform,and the correlation analysis of the inlet and outlet temperature of the system components is carried out.At the same time,in order to compare and analyze the performance of the system,through connecting various modules with different functions in simulation studio,a single PV/T system simulation model is established.The simulation results show that the annual average photoelectric efficiency of a single PV/T system is 0.0825,and the annual power generation is about 1745 kW·h;the annual average photoelectric efficiency of PV/T collector with cooling cycle multi-source system is 0.1238,which is 50.06%higher than that of single system,and the power generation is 2560 kW·h,which is 815 kW·h higher than that of single system.The results show that the multi-source system with cooling cycle can significantly improve the power generation and photoelectric efficiency compared with the single PV/T system.The research can improve the utilization rate of renewable energy.
作者
田野
刘涛
马永志
张晨晨
TIAN Ye;LIU Tao;MA Yongzhi;ZHANG Chenchen(College of Mechanical and Electrical Engineering,Qingdao University,Qingdao 266022,China)
出处
《青岛大学学报(工程技术版)》
CAS
2021年第1期81-85,共5页
Journal of Qingdao University(Engineering & Technology Edition)
基金
山东省科技攻关计划项目(2018GGX105007)。
