The doi above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
doi: 10.4121/0009e400-e620-45fb-8d7e-3b72a7be88bb

van Huijgevoort, Marjolein; Cirkel, Dirk Gijsbert; Voeten, Joris (2024): Dataset accompanying the publication: Climate adaptive solution for artificial turf in cities: integrated rainwater storage and evaporative cooling. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/0009e400-e620-45fb-8d7e-3b72a7be88bb.v1

Dataset

• Climate and Climate Change
• Atmosphere and Weather
• Built Environment and Design
• Environmental Sciences
• Environment

artificial turf, climate adaptation, evapotranspiration, sport fields, temperature

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06-2020/03-2022

CC BY 4.0

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by Marjolein van Huijgevoort , Dirk Gijsbert Cirkel , Joris Voeten

This dataset is related to a study performed to test a system for rainwater storage below artificial turf and evaporative cooling of artificial turf. The dataset contains results of a field experiment in Amsterdam, the Netherlands. The field experiment included measurements of meteorological variables, like temperature, precipitation, and radiation, for natural grass, cooled artificial turf and conventional artificial turf.

This dataset is a result of the TKI project CitySports and is co-financed with PPS funding from the Topconsortia for Knowledge & Innovation (TKI’s) of the Ministry of Economic Affairs and Climate.

Abstract of the paper:

The number of artificial turf fields in cities has increased due to increased pressure on outside sport facilities caused by a higher population density. Downsides of these fields are changes in thermal conditions and decreased infiltration of rain. Artificial turf can reach very high surface temperatures leading to unfavourable playing conditions and contributing to the urban heat island effect. In this study the possibilities of a subsurface water storage and capillary irrigation system for evaporative cooling of artificial turf based on rainwater capture, storage and reuse are investigated. The system consists of an 85 mm water-retention subbase with capillary columns, a capillary shockpad and a natural infill. First, a laboratory experiment was conducted to test the evaporative potential of the system with different types of infill and artificial turf. Next, four research plots were designed in Amsterdam, The Netherlands, which consisted of natural grass, conventional artificial turf and two versions of the cooled artificial turf system (non-infill and standard). Evaporation from the cooled artificial turf reached maximum values around 4 mm/d during summer and surface temperatures were significantly lower than at the conventional artificial turf. Rainwater was stored below the fields. By combining these functions, these fields can help cities adapt to climate change.

• 2024-05-24 first online, published, posted

4TU.ResearchData

csv

Climate adaptive solution for artificial turf in cities: integrated rainwater storage and evaporative cooling

• TKI CitySports [more info...] Topconsortia for Knowledge & Innovation (TKI’s) of the Ministry of Economic Affairs and Climate

KWR Water Research Institute, Nieuwegein, the Netherlands
Wageningen University and Research, Environmental Sciences Group, Wageningen, the Netherlands