Feasibility of Solar Thermal and Photovoltaic Integrated With Building Facade, a Case Study in Thimphu

Authors

  • Aita Bahadur Subba College of Science and Technology (CST), Royal University of Bhutan.
  • Tshewang Lhendup College of Science and Technology (CST), Royal University of Bhutan.
  • Roshan Chettri College of Science and Technology (CST), Royal University of Bhutan.
  • Cheku Dorji College of Science and Technology (CST), Royal University of Bhutan.

DOI:

https://doi.org/10.17102/bjrd.rub.se2.039

Keywords:

facade, rhino, honeybee, ladybug

Abstract

Based on energy simulations, the annual energy demand of the DHI office is estimated to be 3,739 kWh. The total energy includes heating, lighting, and equipment energy requirements. The thermal energy demand of the office is 2,240 kWh and the combined lighting and equipment energy is 1,499 kWh. A radiation analysis of the front of the office is carried out to determine which facade received the most solar radiation. The annual global solar radiation received on building facade are 2.6 kWh/m^2, 2.4 kWh/m^2 and 2.3 kWh/m^2 on south, west and east facing facade respectively. Accordingly, the radiation results concluded that the south-facing facade is the most promising facade, followed by the west-facing facade and the east-facing facade. The proposed STC system, designed to maintain hot water temperature of 55°C, and simulations indicate that it would generate 2,440 kilowatt-hours of heating energy per year. This thermal energy would be sufficient to meet the space heating energy needs of the DHI office. Finally, the possibility of installing photovoltaic (PV) panels on the west-facing facade area 26 m^2 was simulated, suggesting the potential of 2,016 kWh of energy, which could replace the total lighting loads of 1,499 kWh currently received from grid supply.

Author Biographies

Aita Bahadur Subba, College of Science and Technology (CST), Royal University of Bhutan.

Author is a graduate student studying the Master in Renewable Energy at the College of Science and Technology (CST), Phuntsholing, Bhutan. He obtained his diploma of electrical engineer in 2012, from Jigme Namgyel Poly Technique (JNP), Dewathang. He was an official employee of the Punatshangchhu Hydroelectric Project Authority (PHPA-1). He graduated from the Jigme Namgyel Engineering College (JNEC) in 2019 with a bachelor's degree in Power Engineering.

Tshewang Lhendup, College of Science and Technology (CST), Royal University of Bhutan.

Tshewang Lhendup is the principal supervisor of this dissertation, and currently he is the president of Jigme Namgyel Engineering College (JNEC).

Roshan Chettri, College of Science and Technology (CST), Royal University of Bhutan.

Roshan Chettri is the faculty in the electrical engineering department of the College of Science and Technology. He was a co-supervisor of this dissertation.

Cheku Dorji, College of Science and Technology (CST), Royal University of Bhutan.

Cheku Dorji is the faculty in electrical engineering department of the College of Science and Technology. He was also a co-supervisor of this dissertation.

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Published

03-02-2023

How to Cite

Subba, A. B. ., Lhendup, T. ., Chettri, R. ., & Dorji, C. . (2023). Feasibility of Solar Thermal and Photovoltaic Integrated With Building Facade, a Case Study in Thimphu . Bhutan Journal of Research and Development, (2). https://doi.org/10.17102/bjrd.rub.se2.039

Issue

No. 2 (2023): SPECIAL EDITION

Section

Articles

License

Copyright (c) 2023 Aita Bahadur Subba, Tshewang Lhendup, Roshan Chettri, Cheku Dorji

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This work is licensed under a Creative Commons Attribution 4.0 International License.

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