Abstract
As an emerging country and one of the most populous countries in the world, Indonesia requires a sufficient energy supply to ensure the nation’s continued development. In response to this increasing energy demand, various studies have proposed energy-saving measures; building envelope design is considered to be a typical energy-saving technique. A significant goal in achieving greener buildings is learning how to reduce a building’s energy consumption by applying an efficient energy-saving design. This study used the eQUEST software to investigate how different types of roof construction, glazing and sun-shading techniques affect the energy consumption of residential structures in Indonesia in common scenarios. The results indicate that window shading has the most significant impact on a building’s overall energy consumption, followed by the use of an appropriate glazing, whereas the roof type produced smaller energy efficiency benefits.
Highlights
Indonesia is an archipelago consisting of an estimated 17,508 islands
The results show that the building orientations produce different electricity consumption results
The results showed that design mix 1 can produce a reduction of approximately 19.16% of the total annual energy consumption, whereas design mix 2 can produce a reduction of approximately 17.51% of the total annual energy consumption
Summary
Indonesia is an archipelago consisting of an estimated 17,508 islands. With over 238 million people, Indonesia is the world’s fourth most populous country. This means that the urban population in Indonesia is extremely large and rapidly increasing. Indonesia’s large population growth has caused an even faster increase in demand for energy. From 1980 to 2010, total primary energy production increased by 2.8 fold, whereas energy consumption grew by nearly five-fold [1]. In 2010, approximately 96% of the national energy mix was dominated by fossil fuels. Hydropower and geothermal energy, amounted to less than 4% of the country’s energy portfolio. The total energy demand in 2025 is predicted to be nearly three times higher than
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