permeable pavement (heatstress and infiltration capacity measurements), San Francisco

Permeable Pavement

Measures Heatstress

Climate Adaptation - Solution Rainwater Nuissance

Problem Area - Heatstress Urban Area

Created at: 21 Dec 2014

Description

Heatstress measurements on permeable pavement University of California Davis Campus USA visit December 2014


Samenvatting (Dutch description)

Abstract This dissertation research examines the effects of different cool pavement design and management strategies on improving the thermal environment and mitigating near-surface heat island effects through field measurements, modeling and simulation. In this research, nine experimental test sections were designed, constructed and instrumented and the thermal performance of different types of pavements and management strategies (including high reflectance, high thermal resistance pavement, and permeable pavement with evaporative cooling) were empirically investigated. Different cooling effects were identified for each strategy along with their advantages and associated disadvantages. Relevant properties of pavement materials (e.g. albedo, permeability, thermal conductivity, heat capacity and evaporation rate) were measured in many cases using newly developed methods. With these fundamental materials properties, a local microclimate model was developed, validated and applied to conduct sensitivity analysis on some key parameters to evaluate the thermal impacts of different cool pavement strategies in different climate regions. In addition, the impacts of different strategies on outdoor human thermal comfort were evaluated for different climate regions (Sacramento and Los Angeles in California and Phoenix in Arizona). One type of thermal load associated with building energy use was evaluated for Davis, California. Findings indicate that using high reflectance pavement will reduce pavement surface temperature and consequently might help improve the air quality through reduction of the formation of ground-level ozone. However, increasing the pavement reflectance would affect human thermal comfort during hot periods due to an increase in the Mean Radiant Temperature contributed by the increased reflected radiation striking human bodies. Enhancing the evaporation from the pavement through use of permeable pavement and creating shading on pavement with trees or other devices (e.g. solar panels) are likely to be effective strategies to reduce pavement surface temperature and improve human thermal comfort in hot periods. However, to be effective in arid and semiarid climates such as California, the water level must be kept near the surface of the permeable pavement through infusions of waste water such as waste landscape irrigation. Some cool pavement strategies used to improve the summer thermal environments might make the cold winter slightly colder. Therefore strategies such as evaporation and shading only in summer that can help reduce the summer hot temperatures but will not heavily reduce the winter cold temperature is desirable for some regions.

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