印度建筑的减排潜力
可靠证据表明,至2050年印度建筑领域会产生巨幅能源增长,基于此估测,本报告分析了印度目前建筑节能减排的政策框架及其节能潜力。
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可靠证据表明,至2050年印度建筑领域会产生巨幅能源增长,基于此估测,本报告分析了印度目前建筑节能减排的政策框架及其节能潜力。
本报告就四个地区数据质量和数据的可利用性问题进行了分析,同时也提醒了我们需要完成多少工作才能建成一个强大而全面的建筑数据库,并提出了实现这个数据库的可行性建议。
本报告就四个地区数据质量和数据的可利用性问题进行了分析,同时也提醒了我们需要完成多少工作才能建成一个强大而全面的建筑数据库,并提出了实现这个数据库的可行性建议。
Data Annex
Discover where things stand regarding building energy data quality and availability in our four regions, this report reminds us of how far we have to go before a robust and comprehensive set of building data is in place and provides some recommendations of how we can get there.
The Economist Intelligence Unit (EIU) report "Achieving scale in energy-efficient buildings in India: A view from the construction and real estate sectors" commissioned by the GBPN explains the challenges and opportunities of investing in energy efficiency in buildings in India.
A report from the Economist Intelligence Unit (EIU), commissioned by the GBPN finds that while India’s commercial building sector has blazed the energy-effiency trail in the building sector, achieving significant scale will depend on efficiency measures becoming standard practice in the commercial middle market, retrofit and, particularly, the residential building segment.
Executive Summary
GBPN conducted a study on the factors affecting the use of ESCO models for the retrofit of existing buildings in China, identifying current barriers to the development of the Chinese ESCO market, while also researching best-practice examples of ESCOs globally and investigating the feasibility of introducing those examples to China.
Today, buildings still account for almost half of the global energy consumption and carbon emission. This highlights the necessity to increase energy efficiency requirements worldwide in a common effort to reduce the construction sector's impacts on the environment. The current energy policies are driving toward a design that relies on airtight and highly insulated envelopes. As a consequence, energy efficient houses are found to have insufficient indoor air change rates, impacting on the indoor air quality and resulting in higher latent loads.
Cities in developing countries seldom consider the cost increases that regulations impose on development. To build legal housing, developers must meet a high minimum cost threshold established by mandatory standards. Many standards impose costs on building construction, make them less affordable to low-income households, deprive them access to legally built housing, and fuel the formation of slums.
Rapid urbanization poses a significant challenge of accommodating the poor, particularly in developing countries such as China where affordable housing has only been initiated a few years ago and will continue to be developed in the coming years. Two major considerations in affordable housing programs are cost and time, as the ability to meet the needs of low-income households is the main target of these programs. However, it is not a common strategy to address affordable housing shortage by means of incorporating sustainability features.
Thanks to new insights on the impacts that dwellings have throughout their life cycles, there has been increased attention to retrofitting innovative energy systems (IES) in existing housing. This paper uses an explorative case study design to gain more knowledge about the governance aspects of this under-researched topic. The central research question is: Which factors influence the adoption of innovative energy systems in social housing sites during renovation projects? To answer this question, eight large-scale renovation projects in The Netherlands were investigated.
On an average, India has more than 3000 Cooling Degree Days (CDD). The multifamily public housing being constructed under India’s Prime Minister Awas Yojana (PMAY) is aimed at providing formal housing to the society’s Economic Weaker Section (EWS). It is essential that this housing delivers thermally comfortable in-doors to the occupants. This study mapped the design and construction practices followed under PMAY Urban (PMAY-U) against India’s Residential Energy Building Code, Eco Niwas Samhita (ENS). The metric prescribed in ENS is Residential Envelope Transmittance Value (RETV).