Study of space heating by dual-function solar collectors

A novel solar collector named dual-function solar collector (DFSC) has been proven feasible for sup-plying warm air for space heating in winter and hot water during none-heating season by theoretical and experimen-tal studies. While integrated with building, the DFSC becomes component of the envelop...

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Bibliographic Details
Published inChinese science bulletin Vol. 59; no. 16; pp. 1890 - 1895
Main Authors Ji, Jie, Wang, Wu, Sun, Wei, Yu, Zhi
Format Journal Article
LanguageEnglish
Published Heidelberg Springer-Verlag 01.06.2014
Science China Press
Subjects
air
Chemistry/Food Science
China
computer software
Earth Sciences
energy
Engineering
heat transfer
Heating
Humanities and Social Sciences
Life Sciences
multidisciplinary
Panels
Physics
Science
Science (multidisciplinary)
Seasons
Simulation
Solar collectors
solar radiation
Space heating
Warm air
Winter
中国东部地区
仿真结果
双功能
太阳能集热器
委员会
建筑一体化
热水采暖
组成部分
China, People's Rep
China
Solar fraction
Numerical simulation
TRNSYS
Solar space heating
Online AccessGet full text
ISSN1001-6538
1861-9541
DOI10.1007/s11434-014-0217-6

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Summary:A novel solar collector named dual-function solar collector (DFSC) has been proven feasible for sup-plying warm air for space heating in winter and hot water during none-heating season by theoretical and experimen-tal studies. While integrated with building, the DFSC becomes component of the envelope. Because complexly coupling of several heat transfer modes and subjecting to random weather condition, the thermal influence of DFSC on a building remains obscure. In order to investigate the effect of DFSC for passive and active heating, a demon- strating office building integrated with DFSC panels on the southern wall and roof has been built in Hefei, in the east region of China. A simulation project of the whole building system in winter was built by the software TRNSYS with the new component developed for DFSC and compiled into the TRNSYS library based on the validated theoretical method and experimental results from previous studies. The simulation results show that the energy supplied by the DFSC can meet the heating requirement at most of the time of a sunny day, except early morning. More than 30 % solar fraction can be provided during the whole heating season in Hefei, the value further increases to 59 % in a region of high solar irradiance, such as Lhasa. While active DFSC panels are operated to provide fresh warm air through ventilation system, the flow rate shows strong influence on the solar fraction of heating load. With appropriate operation scheme of the active DFSC, more energy savings and thermal comfort can be achieved.
Bibliography:A novel solar collector named dual-function solar collector (DFSC) has been proven feasible for sup-plying warm air for space heating in winter and hot water during none-heating season by theoretical and experimen-tal studies. While integrated with building, the DFSC becomes component of the envelope. Because complexly coupling of several heat transfer modes and subjecting to random weather condition, the thermal influence of DFSC on a building remains obscure. In order to investigate the effect of DFSC for passive and active heating, a demon- strating office building integrated with DFSC panels on the southern wall and roof has been built in Hefei, in the east region of China. A simulation project of the whole building system in winter was built by the software TRNSYS with the new component developed for DFSC and compiled into the TRNSYS library based on the validated theoretical method and experimental results from previous studies. The simulation results show that the energy supplied by the DFSC can meet the heating requirement at most of the time of a sunny day, except early morning. More than 30 % solar fraction can be provided during the whole heating season in Hefei, the value further increases to 59 % in a region of high solar irradiance, such as Lhasa. While active DFSC panels are operated to provide fresh warm air through ventilation system, the flow rate shows strong influence on the solar fraction of heating load. With appropriate operation scheme of the active DFSC, more energy savings and thermal comfort can be achieved.
Jie Ji , Wu Wang , Wei Sun , Zhi Yu(Department of Thermal Science and Energy Engineering, University of Science and Technology of China, Hefei 230026, China)
Solar space heating ; Numericalsimulation; TRNSYS ; Solar fraction
11-1785/N
http://dx.doi.org/10.1007/s11434-014-0217-6
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:1001-6538
1861-9541
DOI:10.1007/s11434-014-0217-6