拆装型黄麻纤维后墙温室墙体传热特性研究

[目的]为实现日光温室的全年型生产,设计了拆装式黄麻纤维后墙温室,以探讨黄麻纤维材料作为温室拆装墙体的可行性。[方法]以拆装式黄麻纤维后墙温室为试验温室,以当地传统黏土砖后墙日光温室为对照,对温室墙体的热工性能、传热特性以及室内热环境进行了试验研究。[结果]冬季温室内部气温保持在4℃以上,黄麻墙结构保温效果良好;夏季黄麻墙拆除后,室内最高气温在40℃以下。温室墙体内、外表面温度受太阳辐射及室内、外气温的共同影响,呈现与气温相同的日变化规律。室内气温、墙面温度影响墙内各深度层次的温度分布,温度的总体变化趋势是由内表面向外表面沿厚度方向递减。与砖墙相比,黄麻墙蓄热性能较低,但保温隔热效果较好,能量...

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Bibliographic Details
Published in南京农业大学学报 Vol. 41; no. 1; pp. 172 - 180
Main Author 何向丽;王健;郭世荣;孙锦;张剑;倪梦伟;蓝盾
Format Journal Article
LanguageChinese
Published 南京农业大学(宿迁)设施园艺研究院,江苏 宿迁223800 2018
南京农业大学园艺学院,江苏 南京,210095%南京农业大学园艺学院,江苏 南京210095
Subjects
传热
墙体
温室
黄麻纤维
墙体
温室
传热
黄麻纤维
greenhouse
wall
heat transfer
jute fiber
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ISSN1000-2030
DOI10.7685/jnau.201703041

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Summary:[目的]为实现日光温室的全年型生产,设计了拆装式黄麻纤维后墙温室,以探讨黄麻纤维材料作为温室拆装墙体的可行性。[方法]以拆装式黄麻纤维后墙温室为试验温室,以当地传统黏土砖后墙日光温室为对照,对温室墙体的热工性能、传热特性以及室内热环境进行了试验研究。[结果]冬季温室内部气温保持在4℃以上,黄麻墙结构保温效果良好;夏季黄麻墙拆除后,室内最高气温在40℃以下。温室墙体内、外表面温度受太阳辐射及室内、外气温的共同影响,呈现与气温相同的日变化规律。室内气温、墙面温度影响墙内各深度层次的温度分布,温度的总体变化趋势是由内表面向外表面沿厚度方向递减。与砖墙相比,黄麻墙蓄热性能较低,但保温隔热效果较好,能量利用率较高。[结论]黄麻纤维材料保温隔热性能较好,质量轻便于安装与拆卸且建造与维护成本较低,因此可作为一种新型温室墙体材料。
Bibliography:greenhouse ; wall ;jute fiber ; heat transfer
HE Xiangli1 ,WANG Jian1, GUO Shirong1,SUN Jin , ZHANG Jian1 , NI Mengwei1 , LAN Dun1 ( 1. College of Horticulture, Nanjing Agricultural University, Nanjing 210095, China ; 2.Nanjing Agricultural University(Suqian) Academy of Protect Horticulture, Suqian 223800, China)
[ Objectives]In order to achieve the annual production of solar greenhouse, a novel solar greenhouse with removable jute fiber back wall( experiment greenhouse)was designed in this study. This paper aims to explore the feasibility of the jute fiber material as the removable back wall. [ Methods ] The thermal performance, heat transfer characteristics of back walls and indoor thermal environ- ment of greenhouses were studied by using the solar greenhouse with removable jute fiber back wall as the experimental greenhouse and the traditional clay brick back wall greenhouse as control. [ Results ] In winter, the temperature inside the experimental greenhouse were above 4 ℃ ,so the thermal insulation perfor
ISSN:1000-2030
DOI:10.7685/jnau.201703041