Please use this identifier to cite or link to this item: http://hdl.handle.net/10125/45567

Carbon Impact of Shared Spaces in Urban High Density Residential Projects: China

File SizeFormat 
Xu_Duo_Spring 2016.pdf126.79 MBAdobe PDFView/Open

Item Summary

Title: Carbon Impact of Shared Spaces in Urban High Density Residential Projects: China
Authors: Xu, Duo
Advisor: Llewellyn, Clark
Issue Date: May 2016
Abstract: Reducing greenhouse gas emissions has become a controversial topic that needs to be researched thoroughly. When reducing the carbon emission of urban high density residential buildings, decreasing and carbon emission caused by residents’ behavior along with the carbon emission of construction material and building’s heating/cooling energy consumption is of the same importance, while the former has always been ignored. In the design phase, decisions regarding shared spaces will influence the building’s shape, thus anyway considerable negative effect on carbon emission both at construction stage and building heating and cooling energy consumption. Therefore, it is not welcome when it is related to low-energy buildings. However, shared space such as the opened first floor or balconies can provide amenity places for residence so that on the other hand decrease the frequency of transportation on motor vehicles. This study will analysis the extent to which changes in shared spaces affect the physical and social performance of carbon emission of urban high density residential projects, and thereby provide pre-design information for future reference for residential buildings with less carbon emission and less environmental pollution. The dissertation proves that the value of shared spaces in residential projects lies not only in the humanity aspect, but also in the contribution to carbon emission reduction. This research displays a deeper and wider understanding in shared space, which provides new concepts on shared space for designers, policy makers, as well as normal residents, with which both the sustainability and living quality of the residential building could be enhanced.
Pages/Duration: 119 pages
URI/DOI: http://hdl.handle.net/10125/45567
Appears in Collections:2016



Items in ScholarSpace are protected by copyright, with all rights reserved, unless otherwise indicated.