For stable year-round production of greenhouse crops with sustainabili的简体中文翻译

For stable year-round production of

For stable year-round production of greenhouse crops with sustainability and high profitability, it is essential to establish a system that encompasses energy-saving and year-round environmental control via the application of renewable energy resources. One such renewable energy resource is the constant soil temperature layer, which is widespread and easily accessible in agricultural fields. However, owing to the low heat capacity and conductivity of media such as soil and air, heat exchange with the constant soil temperature layer has been considered insufficient for temperature control of the entire air volume inside a greenhouse. Therefore, we utilized a novel local temperature control system based on heat exchange between the constant soil temperature layer and the ambient air surrounding greenhouse crops. In the present study, we applied this system to the elevated bed system of strawberry crops with no-heating culture during the winter season. The system, that control the ambient air temperature of strawberry crops, increased fruits yield compared with no-heating, and was estimated 45% reduction of heating load to maintain 8 degrees C or more.
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结果 (简体中文) 1: [复制]
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为了使具有可持续性和高盈利能力的温室作物稳定地全年生产,必须建立一个系统,该系统包括通过应用可再生能源来实现节能和全年环境控制。一种这样的可再生能源是恒定的土壤温度层,其在农业领域中分布广泛并且易于获得。然而,由于诸如土壤和空气之类的介质的低热容量和电导率,与恒定土壤温度层的热交换被认为不足以控制温室内整个空气量。因此,我们利用了一种新颖的局部温度控制系统,该系统基于恒定土壤温度层和温室作物周围环境空气之间的热交换。在目前的研究中,我们将此系统应用于冬季不加热栽培的草莓作物的高床系统。该系统控制草莓作物的环境空气温度,与不加热相比,可提高水果产量,并估计加热负荷可降低45%,以保持8摄氏度或更高。
正在翻译中..
结果 (简体中文) 2:[复制]
复制成功!
For stable year-round production of greenhouse crops with sustainability and high profitability, it is essential to establish a system that encompasses energy-saving and year-round environmental control via the application of renewable energy resources. One such renewable energy resource is the constant soil temperature layer, which is widespread and easily accessible in agricultural fields. However, owing to the low heat capacity and conductivity of media such as soil and air, heat exchange with the constant soil temperature layer has been considered insufficient for temperature control of the entire air volume inside a greenhouse. Therefore, we utilized a novel local temperature control system based on heat exchange between the constant soil temperature layer and the ambient air surrounding greenhouse crops. In the present study, we applied this system to the elevated bed system of strawberry crops with no-heating culture during the winter season. The system, that control the ambient air temperature of strawberry crops, increased fruits yield compared with no-heating, and was estimated 45% reduction of heating load to maintain 8 degrees C or more.
正在翻译中..
结果 (简体中文) 3:[复制]
复制成功!
为了使温室作物全年稳定生产,实现可持续性和高效益,必须通过应用可再生能源建立一个包括节能和全年环境控制的系统。土壤恒温层是一种可再生能源,在农田中分布广泛,使用方便。然而,由于土壤和空气等介质的热容和导热系数较低,与土壤恒温层的热交换被认为不足以控制温室内的整个空气量。因此,我们采用了一种新型的基于土壤恒温层与温室作物周围空气热交换的局部温度控制系统。在本研究中,我们将此系统应用于冬季无暖气栽培草莓作物的高架床系统。该系统控制草莓作物的环境空气温度,与不加热相比,水果产量增加,估计热负荷减少45%,以保持8摄氏度或更高。<br>
正在翻译中..
 
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