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AuthorGhani, Saud
AuthorElBialy, Esmail A.
AuthorBakochristou, Foteini
AuthorGamaledin, Seifelislam Mahmoud Ahmad
AuthorBen Hughesb, Mohammed Mohammed Rashwana
Available date2020-11-26T11:21:09Z
Publication Date2017
Publication NameEnergy and Buildings
ResourceScopus
URIhttp://dx.doi.org/10.1016/j.enbuild.2017.01.059
URIhttp://hdl.handle.net/10576/17093
AbstractThe stadium Field of Play (FoP) is a large area of grass that affects the stadiums overall thermal performance. This paper experimentally and numerically investigates the thermal performance of stadiums FoP in hot and arid climates. For a period of one year, the temperature readings of the FoP natural grass surface, subsoil at a depth of 200 mm and the surrounding running track were recorded for Khalifa stadium in Doha, Qatar. The temperature measurements were used to assess the accuracy of numerical predictions of the stadium FoP temperature distribution using two different numerical methods. First, a Direct Numerical Simulation (DNS) model was developed to simulate the unsteady heat transfer between the atmosphere and natural turf, and between the soil and turf. The DNS model accounts for radiative, convective, conductive and evaporating heat on the surface for different climates. Second, a prognostic three-dimensional ENVI-met climate model was utilized to simulate the stadium FoP microclimate system. Although the measured and simulated data showed good agreement, differences were noticed at the peak temperatures. In winter and spring seasons, the peak temperature predicted by the DNS model appeared one hour later than the measured peak temperature, while the ENVI-met predicted peak temperature was detected two hours later. The difference is attributed to the treatment of soil thermal capacity and its water content. Both of the numerical models considered the soil temperature as constant near the averaged measured soil data. For the grass surface and subsoil, the DNS model could better predict the temperature change during the day of the four seasons. The research results can be utilized to validate the thermal models proposed to simulate stadiums thermal performance.
Languageen
PublisherElsevier Ltd
SubjectEnergy in sport facilities
Environmental simulation
Microclimate modeling
Stadiums thermal performance
Urban heat island
TitleThermal performance of stadium's Field of Play in hot climates
TypeArticle
Pagination702-718
Volume Number139
dc.accessType Abstract Only


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