基于TRNSYS的严寒地区农宅多能互补供暖系统性能及效益分析  

PERFORMANCE AND BENEFIT ANALYSIS OF MULTI-ENERGY COMPLEMENTARY HEATING SYSTEM FOR RURAL RESIDENCES IN SEVERE COLD REGIONS BASED ON TRNSYS

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作  者:王宏伟[1] 黄策 赫娜[1] WANG Hong-wei;HUANG Ce;HE Na(Shenyang jianzhu university municipal and environmental engineering school,110168,Shenyang,China)

机构地区:[1]沈阳建筑大学市政环境工程学院,沈阳110168

出  处:《建筑技术》2024年第S2期109-112,共4页Architecture Technology

基  金:辽宁省教育厅基本科研项目(JYTMS20231575)

摘  要:本研究以沈阳市某农宅为研究对象,建立了两种基于太阳能的多能互补供暖系统,通过TRNSYS仿真平台分别模拟了太阳能集热器联合电磁能加热器和太阳能集热器联合空气源热泵的供暖效果。结果显示,两种系统均能有效供暖,且在整个供暖季,太阳能联合电磁能系统COP为2.72,太阳能联合空气源热泵系统的COP为3.24。This study focuses on a rural residence in Shenyang,where two multi-energy complementary heating systems based on solar energy have been established.The TRNSYS simulation platform was utilized to simulate the heating effects of a solar collector combined with an electromagnetic heater and a solar collector combined with an air source heat pump,respectively.The results indicate that both systems can effectively provide heating.Throughout the heating season,the coefficient of performance(COP)for the solar-electromagnetic system is 2.72,while that for the solarair source heat pump system is 3.24.

关 键 词:严寒地区 农宅 供暖 多能互补 

分 类 号:TU74[建筑科学—建筑技术科学]

 

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