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ČEKON, M.
Original Title
Accuracy analysis of longwave sky radiation models in the MZELWE module of the ESP-r program
Type
journal article in Web of Science
Language
English
Original Abstract
Sky radiation models play an important role in the longwave radiation exchange between the opaque surfaces of buildings and their surroundings. The article is focused on an accuracy analysis of sky models implemented in the MZELWE simulation module of the ESP-r program. Dynamic outdoor tests and spectral laboratory methods were used for the validation of thermodynamic procedures in the given simulation module to demonstrate its applicability to calculating the accuracy level of models simulating longwave radiation phenomena. Based on high and low-emissivity properties, the presented issue focuses on vertical opaque walls in relation to highly insolated and weakly insulated building components for which longwave radiation exchange has been observed to be of most significance. Clear sky climatic conditions were predominantly applied for the purpose of validation at a Central European location. Among all the analyzed longwave sky radiation models implemented in the ESP-r program of the MZELWE module, only Clarke’s model provides an applicable result with regard to the overall heat flow measured. The effects of the sky models were compensated by the greater thermal performance of the building components, for which the influence of the longwave radiation exchange on the resulting heat flows was significantly reduced.
Keywords
Sky radiation models; Longwave radiation; MZELWE module; Esp-r; Building simulation
Authors
RIV year
2015
Released
14. 6. 2015
Publisher
Elsevier
Location
Švýcarsko
ISBN
0378-7788
Periodical
ENERGY AND BUILDINGS
Year of study
Number
103
State
Swiss Confederation
Pages from
147
Pages to
158
Pages count
12
BibTex
@article{BUT114968, author="Miroslav {Čekon}", title="Accuracy analysis of longwave sky radiation models in the MZELWE module of the ESP-r program", journal="ENERGY AND BUILDINGS", year="2015", volume="2015", number="103", pages="147--158", doi="10.1016/j.enbuild.2015.06.039", issn="0378-7788" }