The remaining space is taken up by technical transmission systems (computer, electricity, air condition, heating and water) and also by 18, 3 m3 of soil, the bed for eight Ficus Panda trees.
其他的空间则被技术传输系统(电脑、电力系统、空调设备、冷热水供应系统)和八棵树需要的18.3立方米土壤占用。
The pitch is 105 x 68 metres and has an automated sprinkler system and under-soil heating. The current normal capacity is 63,000.
场地长105米,宽68米,拥有自动洒水系统和地底加热系统,目前能容纳63000人。
Studies are conducted on melting snow and keeping green by electric cable heating system on Beijing sports turf in winter, grass seed selection, and turf soil temperature field.
本文对北京地区草坪冬季电缆电热融雪保绿问题,草种的选择及土壤温度场进行研究,旨在对北京地区草坪电缆加热系统进行优化设计。
One of the agronomic crops that was used to determine the effects of soil heating was grass.
牧草是经常用来测定土壤加热影响的一种农作物。
Using the validated model, simulates the turf soil temperature of different conditions, obtains the optimum parameters of electric cable heating system in Beijing.
采用经过验证的数学模型对不同工况的草坪土壤温度场进行数值模拟分析,得到北京地区草坪电缆加热系统的优化设计参数。
Drying or heating topsoil in commercial production is unnecessary because harmful microbes are ingested by beneficial microbes in healthy soil that is rich in organic matter.
在商业化生产表层土壤干燥或加热是不必要的,因为在健康的土壤,富含有机质有益微生物进入人体有害的微生物。
By equation of heat balance, heating effect of soil in greenhouse has been studied. Scientific basis have been provided to popularize and use greenhouse vegetable planting technology.
利用热量平衡方程探讨了温室内土壤的增温效应,为推广和应用温室蔬菜栽培技术提供科学依据。
It is not necessary to control harmful microbes by heating or drying; rather, take other steps to ensure a healthy microbial population in garden soil.
这是没有必要控制有害的微生物,通过加热或烘干,而是采取其他步骤,以确保一个健康的微生物种群,在园土。
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。
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.
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。
Organics in soil was determined by microwave heating with analyzing determining conditions.
应用微波加热法对土壤中有机质含量进行测定。
In the experiments, oil-contaminated soil was treated using microwave heating with nitrogen as the protection gas, and the heating-up characteristics was received and analyzed.
实验中以氮气为保护气微波辐照各种石油污染土壤样品,测量样品的升温特性。
In the experiments, oil-contaminated soil was treated using microwave heating with nitrogen as the protection gas, and the heating-up characteristics was received and analyzed.
实验中以氮气为保护气微波辐照各种石油污染土壤样品,测量样品的升温特性。
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