"Cold Bridge" Reconstruction to Optimize Megalopolis' Self-Regulative Thermal Climate Environment

Xin Yi Gu

doi:10.4028/www.scientific.net/AMM.405-408.1611

Paper Titles

Calculation and Analysis of Continuous Welded Rail on Continuous Rigid Frame Bridge
p.1593

Fatigue Tests of Assembly Joints of Truss Main Girders of Temporary Footbridge for Pedestrians and Cyclists
p.1598

The Practice of Concrete Filled Steel Tube Piers to Bridges: A Review
p.1602

A Survey on Formation Multi Unequal Span Masonry Bridges with Curve Shaped Deck: A Case Study on Khan Bridge in Iran
p.1606

"Cold Bridge" Reconstruction to Optimize Megalopolis' Self-Regulative Thermal Climate Environment
p.1611

Analysis and Test on Mechanical Properties of a Flexible Suspension Bridge
p.1616

Structural Design of Newly Developed Temporary Footbridge
p.1623

Success-Degree Comprehensive Evaluation Method for Effectiveness of Bridge Preservation and Replacement
p.1627

Progresses and Perspectives of Damage Identification in Bridge Structure
p.1632

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 405-408"Cold Bridge" Reconstruction to Optimize...

"Cold Bridge" Reconstruction to Optimize Megalopolis' Self-Regulative Thermal Climate Environment

Abstract:

Atmospheric underlying surface change is the main reason for urban heat island and fog and haze. According to constructing a network-like cold bridge as well as coordinating the layout of urban hard underlying surface and soft underlying surface which can promote urban wind-heat movement, urban thermal climate environment may be improved by diffusing heat and solids effectively. As to suzhou, both city regional natural ecological pattern and main urban areal natural ecological environment structure reflect this philosophy.