Research on Energy-Saving of the Pebble Thermoregulation Greenhouse

Yu Liang Shi; Ming Dong Chen; Fu Wang

doi:10.4028/www.scientific.net/AMR.594-597.2112

Paper Titles

The Effect of Ventilation Mixed Coefficient on Main Filter Efficiency
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Lanzhou City Sewage Heat Utilization Measurement Analysis
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Research on the Simulation of Auxiliary Boiler System on Ships
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Simulation Based on CFD to Temperature and Flow Fields of Vertical Air Conditioner Operation
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Research on Energy-Saving of the Pebble Thermoregulation Greenhouse
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Study on Temperature Distribution Regularity of Pebble Thermoregulation Greenhouse
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The Influence of Heat and Moisture Transfer in Soil on the Performance of the Ground Heat Exchanger
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Comparing of Temperature Variation with Different Types Greenhouse
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The Application of Catalytic Combustion in Natural Gas Power Generation
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 594-597Research on Energy-Saving of the Pebble...

Research on Energy-Saving of the Pebble Thermoregulation Greenhouse

Abstract:

The pebble thermoregulation system in greenhouse bottom corner is put forward according the characteristics of greenhouse structure and higher energy consumption. The indoor temperature of the pebble thermoregulation greenhouse is monitored in the course of experiment and the temperature change law of greenhouse bottom corner and greenhouse middle is analyzed and heat storage of pebble thermoregulation system is calculated. The results showed that heat storage of pebble thermoregulation system is higher, it is has important theoretical and realistic significance for greenhouse heating in winter.

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Periodical:

Advanced Materials Research (Volumes 594-597)

Pages:

2112-2115

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.594-597.2112

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Online since:

November 2012

Authors:

Yu Liang Shi, Ming Dong Chen, Fu Wang

Keywords:

Energy Consumption (EC), Energy Saving, Greenhouse, Heat Storage, Pebble Thermoregulation System

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References

[1] Liu Yong , FuXiangzhao, Zhang Huiling. Heating Ventilating and Air Conditioning, Vol. 42 (2012), pp.110-113(in Chinese)

Google Scholar

[2] Dai Jianfeng, Luo Weihong, Qiao Xiaojun. Transatins of the Chinese Society of Agriculture Engineering, Vol. 22 (2006), pp.187-191(in Chinese)

Google Scholar

[3] He Fen, Ma Cheng wei. Transaction of the Chinese Society for Agriculture Machinery, Vol. 40 (2009), pp.169-172(in Chinese)

Google Scholar

[4] Wakabayashi Toshiaki, Inassaki Ichiro, Suda Satoshi. Machining Science and Technology, Vol. 10 (2006), pp.59-85

Google Scholar

[5] Wu Feiqing, Xu Fang, Zhang Libin. Transaction of the Chinese Society for Agriculture Machinery, Vol. 42 (2011), pp.180-185(in Chinese)

Google Scholar

[6] Wu Feiqing, Zhang Libin, Xu Fang. Transaction of the Chinese Society for Agriculture Machinery, Vol. 41 (2010), pp.153-158(in Chinese)

Google Scholar

[7] Deng Lingli, Li Baijun, Mao Hanping. Transatins of the Chinese Society of Agriculture Engineering, Vol. 20 (2004), pp.263-266(in Chinese)

Google Scholar

[8] Tong Guohong, Li Baoming, David M Christoper. Transatins of the Chinese Society of Agriculture Engineering, Vol. 23 (2007), pp.178-185(in Chinese)

Google Scholar

[9] Tong Guohong, David M Christoper, Li Tianlai. Transatins of the Chinese Society of Agriculture Engineering, Vol. 26 (2010), pp.253-258 (in Chinese)

Google Scholar

[10] Zuo Zhiyu, Mao Hanping, Zhang Xiaodong. Transaction of the Chinese Society for Agriculture Machinery, Vol. 41 (2010), pp.173-177 (in Chinese)

Google Scholar

[11] Chen Ming dong, Shi Yuliang. Transactions of the Chinese Society of Agricultural Engineering, Vol. 27 (2011), pp.232-235(in chinese)

Google Scholar