Publications
"Global cooling: increasing world-wide urban albedos to offset CO2." Climatic Change 94.3-4 (2009) 275-286.
. . "Proceedings of the Workshop on Cool Building Materials." Workshop on Cool Building Materials, National Institute of Standards and Technology 1994. LBL-35514.
. "Cooling energy savings potential of reflective roofs for residential and commercial buildings in the United States." Energy - The International Journal 25 (1999) 391-407.
. "Evolution of cool roof standards in the United States." Advances in Building Energy Research 2.1 (2008) 1-32. LBNL-736E.
. . "Urban Surfaces and Heat Island Mitigation Potentials." Journal of the Human-Environmental System 11.2 (2008) 85-101.
. "Potentials of urban heat island mitigation." Proceedings of the 1st International Passive and Low Energy Cooling for the Built Evironment 2005: 11.
. "Cooling down the house: residential roofing products soon will boast "cool" surfaces." Professional Roofing March (2005).
. "The effect of variations in convection coefficients on thermal energy storage in buildings Part I - Interior partition walls." Energy and Buildings 9 (1986) 195-211.
. "Calculations in support of SSP 90.1 for reflective roofs." ASHRAE Transactions 104.1A (1998) 984-995.
. Characterizing the fabric of the urban environment: a case study of Salt Lake City, Utah. 2001. LBNL-47851.
. . "Procedure for measuring the solar reflectance of flat or curved roofing assemblies." Solar Energy 82.7 (2008) 648-655.
. "Measured energy savings of light-colored roofs: results from three California demonstration sites." 1998 ACEEE Summer Study on Energy Efficiency in Buildings 1998: 1-13.
. Status of cool roof standards in the United States. Berkeley, CA: Lawrence Berkeley National Laboratory, 2008.
. "Shade trees reduce building energy use and CO2 emissions from power plants." Environmental Pollution 116.1 (2002) S119-S126.
. "Monitoring the energy-use effects of cool roofs on California commercial buildings." Energy and Buildings 37.10 (2005) 1007-1016.
. "Cool buildings and cool communities." Proceedings of the Second International Conference on Buildings and the Environment 1997: 301-308.
. "The potential of vegetation in reducing summer cooling loads in residential buildings." Journal of Climate and Applied Meteorology 26.9 (1987) 1103-1116.
. "Cool surfaces and shade trees to reduce energy use and improve air quality in urban areas." Solar Energy 70 (2001) 295-310.
. . "Free convective laminar flow within the trombe wall channel." Solar Energy 22.2 (1979) 165-174.
. "Cool roofs could save money, save planet." KGO-TV (abc7news). 2009. Television.
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