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西北地区日光温室土墙厚度及其保温性的优化
引用本文:杨建军,邹志荣,张 智,王云冰,张志新,燕 飞. 西北地区日光温室土墙厚度及其保温性的优化[J]. 农业工程学报, 2009, 25(8): 180-185. DOI: 10.3969/j.issn.1002-6819.2009.08.033
作者姓名:杨建军  邹志荣  张 智  王云冰  张志新  燕 飞
作者单位:西北农林科技大学园艺学院,杨凌,712100
基金项目:陕西省“13115”科技创新工程项目(2007ZDGC-03)
摘    要:西北地区95%以上日光温室为土质墙体围护结构,各地温室墙体厚度差异较大。为寻求西北地区节能日光温室土质墙体的最佳厚度,对西北地区新疆维吾尔族自治区塔城市、陕西省杨凌区、甘肃省白银市和宁夏回族自治区银川市等四省区应用面积最广的不同厚度土质墙体节能日光温室环境指标进行分析,研究墙体保温性能和传热特性。综合建造成本和土地利用率得出陕西杨凌地区的最佳厚度为1.0 m,甘肃白银地区的最佳厚度为1.3 m,宁夏银川地区的最佳厚度为1.5 m,新疆塔城地区的最佳厚度为1.4 m。这样的厚度在当地可以满足保温要求,当达到当地的最佳厚度时,再通过增加墙体厚度对提高温室室内环境温度效果不明显。

关 键 词:日光温室,土质墙体,厚度优化,放热量,西北地区
收稿时间:2008-12-09
修稿时间:2009-04-01

Optimization of earth wall thickness and thermal insulation property of solar greenhouse in Northwest China
Yang Jianjun,Zou Zhirong,Zhang Zhi,Wang Yunbing,Zhang Zhixin and Yan Fei. Optimization of earth wall thickness and thermal insulation property of solar greenhouse in Northwest China[J]. Transactions of the Chinese Society of Agricultural Engineering, 2009, 25(8): 180-185. DOI: 10.3969/j.issn.1002-6819.2009.08.033
Authors:Yang Jianjun  Zou Zhirong  Zhang Zhi  Wang Yunbing  Zhang Zhixin  Yan Fei
Affiliation:College of Horticulture;Northwest Agriculture and Forest University;Yangling 712100;China
Abstract:More than 95% Solar Greenhouse walls were built with earth in Northwest China, the thickness of the earth walls changed with areas. In order to find out the optimal earth wall thicknesses of Solar Greenhouse in the Northwest China, the study chose some earth wall of solar greenhouses used widely in the Northwest China from Tacheng City in Xinjiang Uigur Autonomous Region, Yangling Region in Shanxi Province, Baiyin City in Gansu Province and Yinchuan City in Ningxia Hui Autonomous Region. The environmental indexes of the regions were compared and analyzed, and the heat release at night and heat transfer characteristics were researched The results showed that the optimal thickness was 1.0 m in Yangling Region, 1.3 m in Baiyin City, 1.5 m in Yinchuan City and 1.4 m in Tacheng City, mainly based on the cost of construction and land utilization rate considered comprehensive. These thicknesses can meet the requirements of the local insulation property. It is not significant to increase the thermal insulation effect with again increasing the thickness when reached the optimization.
Keywords:solar greenhouse   earth wall   thickness optimization   heat release   Northwest China
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