Counteracting Urban Heat Island Effects in a Global Climate Change Scenario

Counteracting Urban Heat Island Effects in a Global Climate Change Scenario

Author
Francesco Musco
Publish Year
Publisher
Language
Document Type
Main Subject
ISBN

Urban Heat Islands (UHIs) are a microclimatic phenomenon which manifests as a significant increase in the temperature of cities compared to their surrounding areas. Recently the phenomenon has been enforced by the tendency to climate change and in particular by extreme climate events. This book presents and analyzes the results of a project to develop and apply mitigation and adaptation strategies and measures for counteracting the global urban heat islands phenomenon, supported by the EU’s Central Europe Regional Development Fund.



Related Books

img

Hotel building in Damascus city

Show a hotel building in Damascus. The project is a facility consisting of one basement use as a storage rooms and shelter, and ground story and twelve story.

img

A structural study and study of the site of Al-Rahma hospital - Deir Ez-Zour

Presents the structural study and design of Al-Rahma Hospital, located in Deir Ez-Zour, Al-Kanamat area near the Euphrates River. The hospital includes two basement levels and ten floors above ground. The basements house medical imaging rooms, storage spaces, and a shelter.

img

Introduction to finite element analysis : A textbook for engineering students

Covers the basic concepts and applications of finite element analysis. It is specifically aimed at introducing this advanced topic to undergraduate-level engineering students and practicing engineers in a lucid manner. It also introduces a structural and heat transfer analysis software FEASTSMT which has wide applications in civil, mechanical, nuclear and automobile engineering domains.

img

Fundamentals of durable reinforced concrete

The book presents a framework for specification through internationally adopted codes and standards and summarises the background to probabilistic approaches to durability design, providing a state-of-the-art review of mathematical modelling of deterioration mechanisms along with current directions in test methods for performance-based specifications.