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。
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。
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。
Technical Report
Demonstrating the enormity of the predicted energy growth in India's building sector up to 2050, this report explores the current political framework for energy efficient buildings and the potential for change.
In European countries, buildings are the major energy consumers due to the general low energy performance of the existing building stock. To achieve the ambitioned targets for emissions reduction, it will be necessary to take actions for its large scale renovation. However, today's standards are mainly focused on new buildings, guiding the improvement of the energy performance of the existing buildings into expensive processes and complex procedures that seldom are accepted by users, owners or promoters.
A new analysis framework is developed and applied to assess the benefits of building energy efficiency policies and programs. One of the main advantages of the new energy productivity analysis is that it accounts for both economic and energy performances of energy efficiency actions using only one metric. Specifically, the approach applies the concept of energy productivity to the building sector and accounts for both value added and energy savings of energy efficiency measures.
The German government has developed a variety of policy instruments intended to reduce national CO2 emissions. These instruments include a programme administered by KfW bank, which aims at improving the energy efficiency of buildings. It provides attractive credit conditions or subsidies to finance refurbishment measures which improve the energy efficiency of buildings significantly. The refurbishment programme leads to a reduction in energy use, which benefits private investors by reducing their energy bills.
Heat pumps are relatively simple appliances. They share similar components to refrigerators and air conditioners and effectively move an external source of heat to where it is needed, such as in buildings for heating or the production of hot water. Their key value is efficiency; for each unit of electricity consumed to operate them, they produce multiple units of usable heat. Because of this, they require much less energy input for a similar heating outcome compared to combustion technologies, making them naturally cleaner and generally cost effective to run.