Global Urban Heat Island Mitigation provides a comprehensive picture of global UHI micro-thermal interaction in different built environments. The book explains physical principles and how to moderate undesirable consequences of swift and haphazard urban development to create more sustainable and resilient cities. Sections provide extensive discussion on numerous UHI mitigation technologies and their effectiveness in cities around the globe. In addition, the book proposes novel UHI mitigation technologies and strategies while also assessing the effectiveness and suitability of UHI mitigation interventions in various climates and urban forms. Adopts a multidisciplinary approach, bridging theoretical and applied urban climatology with urban heat mitigation - Compiles disparate urban climate research concepts and technologies into a coherent framework - Includes contributions from leaders in fields from around the globe Synthesizes theoretical and applied research on urban heat islands, from formation to mitigation, analyzing cases from cities across the globe Global Urban Heat Island Mitigation provides a comprehensive picture of global UHI micro-thermal interaction in different built environments. It explains the physical principles and how to moderate the undesirable consequences of swift and haphazard urban development to create more sustainable and resilient cities. Global Urban Heat Island Mitigation provides extensive discussion on numerous UHI mitigation technologies and their effectiveness in cities around the globe. It proposes novel UHI mitigation technologies and strategies while assessing the effectiveness and suitability of UHI mitigation interventions in various climates and urban forms. Dr. Khan is an Assistant Professor of Geography at Lalbaba College, Howrah, India. His research incorporates simulation and numerical modeling of global climatic events including urban climate and microclimatic variation using the state-of-the-art Weather Research and Forecasting (WRF) model and Regional Climate Model (RegCM). A key focus of his research is searching for appropriate mitigation strategies and technologies to decrease the overheating of tropical urban areas while also decreasing energy consumption and protecting health. He has commendable expertise in handling data and implementing models in many software platforms. His research contribution has been recognized by some leading researchers in the domain of urban climate research. Hashem Akbari is a Professor at the Department of Building, Civil, and Environmental Engineering, Concordia University, Canada. He has conceived, led, and supervised work in heat-island quantification and mitigation in the United States and abroad. Prior to Concordia University, he was a senior scientist and the leader of the Heat Island Group at the Environmental Energy Technologies Division of Lawrence Berkeley National Laboratory, University of California. He is Chief Editor and Editor of several scientific journals and co-author of 5 books on related to the effects of UHIs, and author of almost 239 scientific papers published in peer reviewed international scientific journals. Francesco Fiorito is an Associate Professor of Architectural Engineering, Polytechnic University of Bari, Italy and Senior Visiting Fellow, University of New South Wales, Australia. His research focuses on the development and assessment of new technologies and systems for buildings, with the aim of reducing building energy demand and improve indoor and outdoor comfort. He is in the editorial board of several scientific journals and has published more than 60 research outputs. Sk Mithun is an Assistant Professor of Geography at Haldia Government College, Vidyasagar University, India. His research primarily focuses on urbanization, urban sprawl, modeling urban growth and land use/land cover dynamics. Dev Niyogi is Dave P. Carelton Centennial Professor in the Department of Geological Sciences at Jackson School of Geosciences, and Department of Civil, Architectural, and Environmental Engineering in the University of Texas at Austin, USA. He was the most recent chair of the American Meteorological Society (AMS) Board of Urban Environment and elected advisory board member of the International Association of Urban Climate. He is currently serving on the AMS Committee on Applied Climatology, and has previously served on AMS Committee on Agriculture and Forest Meteorology, invited member FGDC Spatial Climate Working Group, Member of the Weather Research and Forecast (WRF) model WG-14 (land surface models), and Member of the AGU Biogeochemistry meetings group/spring meeting student awards chair. He has provided invited testimonies to the National Academy study group, planning summer meetings, and Senate Working groups.