地下蓄热增温是解决高寒地区冬季温室地温不足的有力途径。
The stored energy can supply heat to the shallow earth in the greenhouse in winter.
温室地下蓄热系统贮存的热能大于其消耗的电能,节能效果明显。
The heat saved is more than the electric energy consumption in the heat storage system with significant heat saving effects.
针对温室加温能耗大的突出问题,设计了双层覆盖温室地下蓄热系统。
In order to reduce energy consumption in greenhouse, the underground heat storage system with double-film covering was designed based on the plant physiology.
冬季双层覆盖温室地下蓄热系统蓄热与保温时,测试了温室内外空气温度、湿度、苗床温度。
The air temperature, humidity and the soil temperature inside and outside of greenhouse were measured in the underground heat storage system during heating in winter.
本文旨在利用太阳能代替煤炭,并在加热方式上提出地下蓄热,并与传统的地上煤火加热方式进行比较。
The study is mainly about substituting coal with solar energy. We adopted underground storing heat style and compared it with the traditional heating way of using coal.
根据黄瓜的生理状况设计了三个面积相等的实验温室,其中,一个温室用太阳能地下蓄热系统进行采暖;
According to physiology feature of cucumber, we designed three equips-area greenhouses for experiment, the solar energy underground storing heat system;
根据黄瓜的生理状况设计了三个面积相等的实验温室,其中,一个温室用太阳能地下蓄热系统进行采暖;
According to physiology feature of cucumber, we designed three equips-area greenhouses for experiment, the solar energy underground storing heat system;
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