New insights on span selection for Chinese solar greenhouses using CFD analyses

•Inside air temperature and solid (wall and soil) temperature distributions in different spans are presented.•Effects of convective and radiative heat transfer on the inside air temperature for different spans.•Analyses of solar gain and heat retention for different spans.•Guidelines for selecting C...

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Bibliographic Details
Published in:Computers and electronics in agriculture 2018-06, Vol.149, p.3-15
Main Authors: Tong, Guohong, Christopher, David M., Zhang, Guoqiang
Format: Article
Language:English
Subjects:
CFD
Greenhouse
Heat transfer
Simulation
Span
Temperature
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Summary:•Inside air temperature and solid (wall and soil) temperature distributions in different spans are presented.•Effects of convective and radiative heat transfer on the inside air temperature for different spans.•Analyses of solar gain and heat retention for different spans.•Guidelines for selecting Chinese Solar Greenhouse spans. Chinese solar greenhouses (CSG), with thin plastic films on the south roof for transmitting the sun’s rays during the daytime and a heavy cover at night over the south roof with large thermal masses in the wall, north roof and soil to retain heat, can be used to produce vegetables and flowers year round without auxiliary heating during the winter. CSG spans can be increased to increase the production area; however, although the effect of increasing the span on the inside climate has been investigated experimentally, there is still no good guidance on selecting a suitable span configuration for growers. This investigation analyzed three groups of span configurations with spans of 10m, 12m and 14m. The first set of designs had all the other dimensions varied in proportion to the span width. The second set had the same dimensions for the north roof and north wall with the other dimensions varied to fit the longer spans. The third set had the same south roof with a longer north roof to fit the longer span. The analyses were based on a 12m span CSG simulation model validated in a former study with the thermal environments predicted using computational fluid dynamics (CFD) analyses. The results show that, for the CSG with all the dimensions varied in the same proportion, the inside air temperature is highest with the 14m span and lowest with the 10m span. For CSG with the same north roof and north wall dimensions, the air temperature is the highest with the 12m span and lowest with the 14 m span. For the configurations using the same south roof size, the 10m span with the taller north wall has similar air temperatures as the 12m span, with temperatures inside both spans being higher than the other 10m span with the shorter north wall height. Analyses of the solar heat gains, heat losses and temperature distributions for each group give good guidance for span selections for the growers.
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2017.09.031