ZHANG Jie,ZOU Zhirong,ZHANG Yong,et al.Performance of Heating Storage Gravel Wall Solar Greenhouse[J].Northern Horticulture,2016,40(02):46-50.[doi:10.11937/bfyy.201602013]
新型砾石蓄热墙体日光温室性能初探
- Title:
- Performance of Heating Storage Gravel Wall Solar Greenhouse
- 文献标志码:
- A
- 摘要:
- 研究了一种新型结构的蓄热墙体日光温室,该温室墙体以砾石为主要材料,由铅丝网笼固定,砾石之间的缝隙可以加强热空气的流动,从而增强墙体的蓄热性能,分析研究了新型砾石墙体结构日光温室与普通砖墙日光温室室内光照强度、温度及墙体内部温度的差别。结果表明:新型砾石墙体结构日光温室与普通砖墙日光温室相比,光照强度没有明显差异;室内平均温度在典型晴天提高了4.0℃,典型阴天提高了5.0℃,典型雪天提高了3.2℃;墙体内部温度均有提高,其中距离内表面40 cm处最为明显,在晴、阴、雪天分别平均提高9.8、6.4、4.8℃。试验表明砾石适宜作为日光温室墙体蓄热材料,保温效果良好。
- Abstract:
- A new structure of the thermal storage wall solar greenhouse was studied and its properties were investigated,the solar greenhouse was built with gravel as the main material,fixed by wire mesh cage,the gap between the gravels can enhance the flow of hot air,thereby enhancing the thermal storage properties of the wall.Lighting performance,temperature and internal temperature of the walls were discussed and analyzed theoretically.The results showed that the new gravel wall compared with ordinary brick wall,there was no significant difference in lighting performance;the average indoor temperature at the typical sunny was improved 4.0℃,at the typical cloudy was improved 5.0℃,at the typical snowy was improved 3.2℃.The temperature of the internal wall increased most evidently at 40 cm from the surface.In sunny,cloudy and snowy,the new gravel wall was improved an average of 9.8℃,6.4℃,4.8℃.The tests showed that the gravel was suitable as storage material of wall in solar greenhouse,and the insulation performance was good.
参考文献/References:
[1]刘志杰,郑文刚,胡清华,等.中国日光温室结构优化研究现状及发展趋势[J].中国农学通报,2007(2):449-453. [2]李天来.我国日光温室产业发展现状与前景[J].沈阳农业大学学报,2005,36(2):131-138. [3]陈端生.中国节能型日光温室建筑与环境研究进展[J].农业工程学报,1994,10(1):123-129. [4]周长吉.日光温室结构优化设计及综合配套技术(四)日光温室围护结构-墙体的保温性能[J].农村实用工程技术,1999(4):7. [5]周长吉.“西北型”日光温室优化结构的研究[J].新疆农机化,2005(6):37-38. [6]亢树华,房思强,戴雅东,等.节能型日光温室墙体材料及结构的研究[J].中国蔬菜,1992(6):1-5. [7]WANG J,LI S,GUO S,et al.Simulation and optimization of solar greenhouses in Northern Jiangsu Province of China [J].Energy and Buildings,2014,78:143-152. [8]董仁杰.太阳能热利用工程[M].北京:中国农业科技出版社,1996:261. [9]佟国红,王铁良,白义奎,等.日光温室墙体传热特性的研究[J].农业工程学报,2003,19(3):186-189. [10]张立芸,徐刚毅,马承伟,等.日光温室新型墙体结构性能分析[J].沈阳农业大学学报,2006,37(3):459-462. [11]李小芳,陈青云.墙体材料及其组合对日光温室墙体保温性能的影响[J].中国生态农业学报,2006(4):185-189. [12]郭慧卿,李振海,张振武,等.日光温室北墙结构与室内温度环境的关系[J].沈阳农业大学学报,1995,26(2):193-199. [13]白义奎,王铁良,姜传军,等.外墙聚苯板复合墙体在日光温室中的应用[J].房材与应用,2002(1):24-27. [14]王宏丽,李晓野,邹志荣.相变蓄热砌块墙体在日光温室中的应用效果[J].农业工程学报,2011,27(5):253-257. [15]薛亚宁,陈超,李清清,等.复合相变蓄热墙体材料应用于日光温室的效果研究[J].北方园艺,2010(15):6-11. [16]张勇,邹志荣,李建明,等.日光温室相变空心砌块的制备及功效[J].农业工程学报,2010,26(2):263-267. [17]高文波,张勇,邹志荣,等.主动采光蓄热型日光温室性能初探[J].农机化研究,2015(7):181-186. [18]张峰,张林华,刘文波,等.带地下卵石床蓄热装置的日光温室增温实验研究[J].可再生能源,2009,27(6):7-9. [19]周文娟,陈家珑,李飞,等.建筑用卵石、碎石(GB/T14685-2011)修订解析[J].建筑技术,2012(7):588-590. [20]中国国家标准化管理委员会.建筑用卵石、碎石[M].北京:中国标准出版社,2011. [21]李天来,韩亚东,刘雪峰,等.日光温室内传热筒与空气间的换热量对气温的影响[J].农业工程学报,2011,27(2):237-242. [22]侯加林,王涛,蒋韬,等.基于有限元分析日光温室土质墙体温度场模拟与验证[J].山东农业科学,2014,46(4):1-6. [23]张勇,邹志荣,李建明.倾转屋面日光温室的采光及蓄热性能试验[J].农业工程学报,2014,30(1):129-137.
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备注/Memo
第一作者简介:张洁(1989-),女,硕士研究生,研究方向为农业生物环境与能源工程。E-mail:363199446@qq.com. 责任作者:邹志荣(1956-),男,博士,教授,博士生导师,研究方向为设施园艺环境。E-mail:zouzhirong2005@163.com. 基金项目:国家大宗蔬菜产业资助项目(CARS-25)。