A new water-retaining paver block for reducing runoff and cooling pavement
… large water-retention level, the inside of the WR paver block consisted of pervious concrete
that was prepared using a typical water-… the water table in the paver layer. To better read the …
that was prepared using a typical water-… the water table in the paver layer. To better read the …
A drainable water-retaining paver block for runoff reduction and evaporation cooling
… of a dense block and a pervious block. The permeability of the … that a cool pavement reduces
its surface temperature up to 10 C … pavement holds water in the layer close to the pavement …
its surface temperature up to 10 C … pavement holds water in the layer close to the pavement …
The influence of evaporation from porous concrete on air temperature and humidity
Q Yang, F Dai, S Beecham - Journal of Environmental Management, 2022 - Elsevier
… It was also found that having a dual layered porous concrete … 30 C on the pavement
surface temperature in the early … and increased moisture retention near the pavement surface. …
surface temperature in the early … and increased moisture retention near the pavement surface. …
[PDF][PDF] Thermal characteristics of experimental porous pavers
SN Haron, ANA Ghani, AMA Rahman - Jurnal Teknologi, 2016 - journals.utm.my
… A pervious pavement structure are includes a surface layer, a base and a sub-base which to
allow a storm water to … to evaporates and reduce the overall pavement surface temperature. …
allow a storm water to … to evaporates and reduce the overall pavement surface temperature. …
Impacts of the water absorption capability on the evaporative cooling effect of pervious paving materials
… However, the water retention capacity of these materials is … sintered ceramic pervious brick
(CB), pervious concrete brick (… PB could effectively reduce the surface temperature by up to 20 …
(CB), pervious concrete brick (… PB could effectively reduce the surface temperature by up to 20 …
[HTML][HTML] Porous concrete for pedestrian pavements
L Moretti, P Di Mascio, C Fusco - Water, 2019 - mdpi.com
… of 20%; for example, a 10 cm thick concrete layer has a 2 cm … of water squares [36,37] and
water retention chambers [38,39… from the pavement, thus reducing its surface temperature. …
water retention chambers [38,39… from the pavement, thus reducing its surface temperature. …
[PDF][PDF] Evaluation of performance of water-retentive concrete block pavements
A Karasawa, K Toriiminami, N Ezumi… - … on concrete block paving, 2006 - sept.org
… water content measuring system into the cushion sand layer … of concrete block surface color
on road surface temperature … also reducing the amount of evaporation from the road surface…
on road surface temperature … also reducing the amount of evaporation from the road surface…
Permeable pavements and its contribution to cooling effect of surrounding temperature
… Surface, bedding, strength of reservoir layer and the … the pavements to enhance the water
retention. The availability of … , the permeable pavement could give lower surface temperature …
retention. The availability of … , the permeable pavement could give lower surface temperature …
Development of water retentive and thermal resistant cement concrete and cooling effects evaluation
X Wang, X Hu, X Ji, B Chen, H Chen - Materials, 2021 - mdpi.com
… Water absorption capability and water retention capacity of … mixtures to reduce pavement
surface temperature [23,24]. … AC-20 was the bottom layer of SMA pavement. The SMA-13 …
surface temperature [23,24]. … AC-20 was the bottom layer of SMA pavement. The SMA-13 …
[PDF][PDF] Evaporative pavements as an urban heat island (uhi) mitigation strategy: a review
G Manteghi, T Mostofa - Int. Trans. J. Eng. Manag. Appl. Sci. Technol, 2019 - academia.edu
… at its top layer. Water retaining pavements can either be made of cement or asphalt. … irrigation
can aid in the reduction of permeable pavement surface temperature during the day, hence …
can aid in the reduction of permeable pavement surface temperature during the day, hence …