We are proud to prepare the Heat Mitigation Plan of the capital city of Saudi Arabia, Riyadh. The Royal city of Riyadh will be the first city in the world to have such an advanced heat mitigation plan based on fully innovative experimental and theoretical techniques as well as on the use of very advanced heat rejection technologies, as developed by our research team and other international colleagues.
Giulia Ulpiani, Florian Bruederlin Raphael Weidemann, Gianluca Ranzi, Mat Santamouris, Manfred Kohl
M. Santamouris and Geun Young Yun
Renewable Energy
161 (2020) 792e807
The urban heat island is increasing the temperature of cities up to 10 _C and has a very important impact on energy, environmental quality and health. Materials used in the building and urban fabric affect the urban thermal balance and contribute highly to urban overheating. The article presents the progress achieved on the design, development and implementation of mitigation materials presenting a low and very low surface temperature. The recent technological progress and developments concerning natural, light colour, IR reflective, PCM doped, thermochromic, fluorescent, photonic and plasmonic materials is presented.
Laura Carlosena , Alvaro ´ Ruiz-Pardo , Jie Feng , OlatzIrulegi, Rufino J. Hernandez-Minguill , Mattheos Santamouris: , Solar Energy, Volume 208, 15 September 2020, Pages 430-444
The objective of this paper is to present the potential of daytime radiative cooling materials as a strategy to mitigate the Urban Heat Island effect. To evaluate the cooling potential of daytime radiative cooling materials, 15 theoretical materials and seven existing materials were simulated: two radiative cooling materials, a coolmaterial, two white paints, a thermochromic paint and a construction material. The novelty of this study is that it shows that the optimal spectral characteristics of radiative cooling materials depending on the climate conditions and the type of application.
