Three Ways to Make Buildings More
Increasingly, companies are demanding more environmental initiatives from
architects. This has led to the emergence of multiple architects who design energy-
saving buildings smart pdlc film. Energy-saving buildings have many benefits for the community and
the environment. A few decades ago, developers were more concerned about the
return on investment of a new building than its environmental impact. Today, the
first question developers ask when evaluating a new building is whether it has a
sustainability plan. In this article, we’ll look at three ways energy-saving buildings
can be made more energy efficient.
New construction techniques have paved the way for energy-saving building
designs ฟิ ล ม์ กรอง แสง บ้าน. Many of these techniques have been used successfully in buildings and
have achieved substantial energy savings without sacrificing comfort and thermal
quality. Buildings can be designed using a variety of energy-efficient materials and
equipment, and the principles are easy to understand. With the help of new
technologies and building controls, energy saving buildings can be implemented in
any construction project. Proper design parameters, proper air change rates, and
careful detailing of components can reduce energy consumption by 50% or more.
Additionally, many of these methods reduce capital costs as well.
In India, buildings account for nearly 30 percent of the nation’s electricity
consumption, and the built environment is rapidly increasing. The Energy
Conservation Building Code, launched by the Ministry of Power’s Bureau of Energy
Efficiency, has the potential to transform construction and generate significant
energy savings. Efforts to build buildings with greater efficiency are an integral part
of India’s climate strategy, which aims to reduce the intensity of carbon emissions by
33 to 35 percent by 2030.
The quality of government regulations that promote energy saving should be
evaluated. The government should also consider the level of energy efficiency
achieved by a project. Currently, this indicator accounts for the most weight of all
factors at the first level, and should be regulated by the government. The
effectiveness of the government’s regulatory performance should be evaluated on
these three factors. Achieving these goals should be the goal of the government. So,
how does it work?
As an example, the government of the United States has set an average target for
energy savings of 60 percent. This target can be easily achieved in areas with
equable climates. But for harsher climates, the target ranges from seventy to ninety
percent. Several buildings have achieved this goal. The most notable achievements
in energy efficiency include the Hydro Place, Toronto, Canada, and St. George’s
School, Wallassey, England.
There are many challenges to energy efficiency. First, there are the issues with grid
interconnections for decentralized electricity generation. Secondly, the benefits of a
higher investment go to the tenants. They may not be motivated to invest in energy
efficiency measures. Further, time pressures and fee structures often constrain the
options of architects and engineers. Innovation and energy-efficiency measures
require a new collaboration between occupiers and construction industry. In
addition, lack of awareness of these issues is a major hindrance.