Zobrazeno 1 - 10
of 189
pro vyhledávání: '"J. Crank"'
Autor:
Yuliya Dzyuban, Graces N. Y. Ching, Sin Kang Yik, Adrian J. Tan, Peter J. Crank, Shreya Banerjee, Rachel Xin Yi Pek, Winston T. L. Chow
Publikováno v:
Weather, Climate, and Society. 14:1133-1145
Evidence exists that exposure to weather hazards, particularly in cities subject to heat island and climate change impacts, strongly affects individuals’ physical and mental health. Personal exposure to and sentiments about warm conditions can curr
Autor:
G. Abramowitz, A. Ukkola, S. Hobeichi, J. Cranko Page, M. Lipson, M. G. De Kauwe, S. Green, C. Brenner, J. Frame, G. Nearing, M. Clark, M. Best, P. Anthoni, G. Arduini, S. Boussetta, S. Caldararu, K. Cho, M. Cuntz, D. Fairbairn, C. R. Ferguson, H. Kim, Y. Kim, J. Knauer, D. Lawrence, X. Luo, S. Malyshev, T. Nitta, J. Ogee, K. Oleson, C. Ottlé, P. Peylin, P. de Rosnay, H. Rumbold, B. Su, N. Vuichard, A. P. Walker, X. Wang-Faivre, Y. Wang, Y. Zeng
Publikováno v:
Biogeosciences, Vol 21, Pp 5517-5538 (2024)
Accurate representation of the turbulent exchange of carbon, water, and heat between the land surface and the atmosphere is critical for modelling global energy, water, and carbon cycles in both future climate projections and weather forecasts. Evalu
Externí odkaz:
https://doaj.org/article/0e1f69fbe78f48a0a8a5c2dcdd806470
Publikováno v:
The Science of the total environment.
Health researchers have examined the physiological impacts of extreme air temperature on the human body. Yet, the mental health impacts of temperature have been understudied. Research has shown that the environment can create circumstances that exace
Autor:
Shreya Banerjee, Graces Ching N. Y, Sin Kang Yik, Yuliya Dzyuban, Peter J. Crank, Rachel Pek Xin Yi, Winston T.L. Chow
Publikováno v:
Building and Environment. 225:109646
Autor:
Yuliya Dzyuban, Graces N.Y. Ching, Sin Kang Yik, Adrian J. Tan, Shreya Banerjee, Peter J. Crank, Winston T.L. Chow
Publikováno v:
Landscape and Urban Planning. 226:104496
Publikováno v:
Solar Energy. 177:604-611
Heat mitigation strategies can reduce excess heat in urban environments. These strategies, including solar reflective cool roofs and pavements, green vegetative roofs, and street vegetation, alter the surface energy balance to reduce absorption of su
Autor:
Cassandra R. O’Lenick, Paige Hoel, Jannik Heusinger, Amir Baniassadi, David J. Sailor, Jennifer Boehnert, Christine Wiedinmyer, Olga V. Wilhelmi, Andrew Monaghan, Mary H. Hayden, Xiao Yu, Kai Zhang, Peter J. Crank, Ryan Michael
Publikováno v:
Environmental Health Perspectives
Background: Despite the substantial role indoor exposure has played in heat wave–related mortality, few epidemiological studies have examined the health effects of exposure to indoor heat. As a result, knowledge gaps regarding indoor heat–health
Publikováno v:
The Science of the total environment. 749
We validated seasonal RayMan and ENVI-met mean radiant temperature (TMRT) simulations to assess model performance in a sensitivity analysis from cold to extremely hot conditions. Human-biometeorological validation data were collected in Tempe, Arizon
Autor:
Alberto Muscio, Jiong Zhang, Mat Santamouris, Denia Kolokotsa, Michele Zinzi, Hideki Takebayashi, Anna Laura Pisello, David J. Sailor, Paul Osmond, Zheng Tan, George Ban-Weiss, Riccardo Paolini, Constantinos Cartalis, Tobi Eniolu Morakinyo, Peter J. Crank, Afroditi Synnefa, Edward Ng, Federico Rossi, Haider Taha
Publikováno v:
Journal of Civil Engineering and Management; Vol 24 No 8 (2018); 638-671
Journal of Civil Engineering and Management, Vol 24, Iss 8 (2018)
Journal of Civil Engineering and Management, Vol 24, Iss 8 (2018)
Summarization: Urban greenery is a natural solution to cool cities and provide comfort, clean air and significant social, health and economic benefits. This paper aims to present the latest progress on the field of greenery urban mitigation technique
Publikováno v:
Energy and Buildings. 178:71-83
Over the past three decades, high-albedo roofing has been promoted as a strategy to mitigate the urban heat island effect and reduce cooling energy demand and costs. In addition, high-albedo roofs can increase thermal comfort in non-conditioned build