文献类型：期刊文献

中文题名：Numerical Study of Classical and Composite Solar Walls by TRNSYS

英文题名：Numerical Study of Classical and Composite Solar Walls by TRNSYS

作者：Jibao SHEN[1,2];Stéphane LASSUE[2];Laurent ZALEWSKI[2];Dezhong HUANG[1]

机构：[1]School of Engineering, Shaoxing College of Arts and Sciences, Shaoxing University, Zhejiang 312000, China;[2]Laboratoire d＇Artois de MéThermique et Instrumentation （LAMTI）, Faculté des Sciences Appliquées, Univeristé d＇Artois, 62400 Béthune, France

年份：2007

卷号：16

期号：1

起止页码：46

中文期刊名：热科学学报：英文版

收录：Scopus、CSCD2011_2012、CSCD

语种：中文

中文关键词：太阳能吸热壁;古典墙体;太阳能集热组合墙;数值模拟;TRNSYS

外文关键词：Trombe wall; solar wall; classical wall; composite wall; finite difference method; TRNSYS

中文摘要：实验室 LAMTI 研究几年了学习和象太阳的 Trombe 墙一样的被动的太阳的墙的热表演的优化。因为他们是各种各样的联合的热转移模式的位子并且受到气象学的参数的随机的变化，大楼信封的这些部件有很复杂的行为。使用有限差别方法(频分多路复用) 并且从试验性的结果开始在几期间记录了年，一个模拟模型有关鈥渃o mposite 鈥 ? Trombe 墙被开发并且验证。为了使这个工作更可存取到热的社区，设计，造能集成于 TRNSYS 软件的元素的图书馆的一个模拟模型显得有趣。鈥淭y pe 鈥 ? 因此被执行，频分多路复用与那些相比获得的结果当模特儿。在这个工作，我们把获得的结果与这二个数字方法作比较。假设和模拟的结果也在为鈥渃l assical 鈥 ? Trombe 墙建立的 TRNSYS (类型 36 ) 一个存在模块与那些被面对。学习证明我们开发了的模型是很精确的并且某些假设必须与很多措施被使用。与古典 Trombe 墙相比的合成 Trombe 太阳的墙的优点为冷或多云的气候被加亮。

外文摘要：The laboratory LAMTI has worked for several years on the study and the optimization of the thermal performances of passive solar walls like solar Trombe wall. These components of the buildings envelope have very complex behaviour because they are the seat of various coupled heat transfers modes and are subjected to the random variations of the meteorological parameters. Using the finite difference method （FDM） and starting from experimental results recorded during several years, a simulation model was developed and validated concerning the ＂composite＂ Trombe wall. In order to make this work more accessible to the community of the heat engineers, it appears interesting to build a simulation model which can be integrated into the library of elements of the TRNSYS software. A ＂Type＂ was thus carried out and the results obtained compared with those of the FDM model. In this work we compare the obtained results with these two numerical ways. The assumptions and the results of simulations are also confronted with those of an existing module in TRNSYS （Type 36） established for the ＂classical＂ Trombe wall. The study shows that the models that we developed are very precise and that certain assumptions must be used with a lot of precautions. The advantages of the composite Trombe solar wall compared to the Classical Trombe wall are highlighted for cold and/or cloudy climates.