1) soil heat storage
土壤蓄热
1.
Active solar heating system with soil heat storage for plastic film greenhouse and its effects
主动式太阳能集热/土壤蓄热塑料大棚增温系统及效果
2.
In this thesis,a new solar active heating system with air collectors collecting and soil heat storage is studied for greenhouses heating.
本论文研制一种以空气为载热介质的太阳能空气集热-土壤蓄热的增温系统,应用于农业温室。
2) soil thermal storage
土壤蓄热
1.
Combined the advantage of soil thermal storage technology and the ground-source heat pump,this article presented a new integrated system which can utilize industrial waste heat and solar thermal energy as well as designed the plan of underground pipe bundle.
为了提高对工业余热、废热和太阳能的利用,结合土壤蓄热技术与土壤源热泵技术的优点,本文提出了土壤蓄热与土壤源热泵集成系统及其地下管群换热器的布置方式。
3) seasonal soil thermal storage
季节性土壤蓄热
1.
A solar-assisted ground source heat pump(SAGSHP)heating system with seasonal soil thermal storage and the mainly operation model in winter and summer were presented.
为了缓解在严寒地区长期应用土壤源热泵系统(GSHP)进行供暖所出现的系统供暖性能系数逐渐降低、出力不足等问题,同时考虑到冬夏太阳能资源的不均匀性,着重介绍了太阳能季节性土壤蓄热热泵供暖系统(SAG- SHP)以及系统冬、夏两季的主要运行模式,并建立了系统各个部分的数学模型,确定了系统各运行模式的转换条件。
2.
Aimed at the problems of low winter soil temperature causing the substandard heating by solar-ground source heat pump during initial operation and annual imbalance in soil heat,a solution of solar seasonal soil thermal storage by the existing devices of solar-ground source heat pump is put forward.
针对严寒地区太阳能-土壤源热泵初期冬季土壤温度过低导致供热不达标、土壤热量以年为周期不平衡等问题,提出利用太阳能-土壤源热泵现有装置进行太阳能季节性土壤蓄热的解决方案。
5) soil thermal storage
土壤蓄冷
1.
Simulation of integrated soil thermal storage and ground-coupled heat pump systems;
土壤蓄冷与土壤耦合热泵集成系统的模拟研究
2.
Annual operating characteristics of integrated soil thermal storage and ground-coupled heat pump system;
土壤蓄冷与土壤耦合热泵集成系统全年连续运行特性分析
3.
Combined the advantages of the ground - coupled heat pump and frozen soil thermal storage technology, a fire - new heat pump air conditioning system - Integrated Soil Thermal Storage and Ground - Coupled Heat Pump System was presented.
结合土壤耦合热泵技术及冻土蓄冷技术的优点,提出一种全新的热泵空调系统形式-土壤蓄冷与土壤耦合热泵集成系统。
补充资料:蓄热式换热
分子式:
CAS号:
性质:工业中的换热方式之一。利用固体填充物贮蓄热量以达到换热目的。当气体通过时,根据气体的温度高于或低于填充物的温度,可将热量传给填充物或从填充物吸取热量。常用于冶金工业,也用于化学工业等。例如炼钢平炉和煤气炉常用来预热空气等。
CAS号:
性质:工业中的换热方式之一。利用固体填充物贮蓄热量以达到换热目的。当气体通过时,根据气体的温度高于或低于填充物的温度,可将热量传给填充物或从填充物吸取热量。常用于冶金工业,也用于化学工业等。例如炼钢平炉和煤气炉常用来预热空气等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条