Abstract
This study suggests energy-independent architectural models for residential complexes through the production of solar-energy-based renewable energy. Daegu Metropolitan City, South Korea, was selected as the target area for the residential complex. An optimal location in the area was selected to maximize the production of solar-energy-based renewable energy. Then, several architectural design models were developed. Next, after analyzing the energy-use patterns of each design model, economic analyses were conducted considering the profits generated from renewable-energy use. In this way, the optimum residential building model was identified. For this site, optimal solar power generation efficiency was obtained when solar panels were installed at 25◦ angles. Thus, the sloped roof angles were set to 25◦ and the average height of the internal space of the highest floor was set to 1.8 m. Based on this model, analyses were performed regarding energy self-sufficiency improvement and economics. It was verified that connecting solar power generation capacity from a zero-energy perspective considering the consumer's amount of power consumption was more effective than connecting maximum solar power generation capacity according to building structure. Moreover, it was verified that selecting a subsidizable solar power generation capacity according to the residential solar power facility connection can maximize operational benefits.
Original language | English |
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Article number | 482 |
Journal | Sustainability (Switzerland) |
Volume | 10 |
Issue number | 2 |
DOIs | |
State | Published - 11 Feb 2018 |
Keywords
- Architectural model
- Energy-independent architecture
- Net metering
- Power purchase agreement
- Residential complex
- Solar energy