Comparative Study of Building Performance Efficiency Analysis Methods using EDGE Rating Tools and Sefaira Energy Efficient Design Software

Christian Nindyaputra Octarino; Agustina Tri Mulyani

doi:10.36448/ja.v14i1.3429

Comparative Study of Building Performance Efficiency Analysis Methods using EDGE Rating Tools and Sefaira Energy Efficient Design Software

Christian Nindyaputra Octarino, Agustina Tri Mulyani

Abstract

In term of building planning, design, and management, energy efficient is one of important aspects to be considered. Energy efficient building have a significant impact on its user as well as the environment. Nowadays, energy efficiency needs to be emphasized in architectural design to support environmental sustainability. Simulation methods are currently widely used in the architectural design process to predict building performance in terms of energy efficiency. This study aimed to compare the energy efficient simulation from both EDGE and Sefaira. These two applications have different interfaces and workflows, but both can be used for energy efficiency simulation for architecture. Based on the comparison result, it was found that the two programs are quite equivalent in terms of simulating the level of energy efficiency. However, there are still gaps in the output generated from the simulation, especially in the context of total energy consumption. This is considered to be a result of the different databases from the two applications. In conclusion, these two applications still can be used for building energy simulation which aims to find out the most effective and efficient design.

Keywords

EDGE; energy efficient; sefaira; simulation

Full Text:

PDF

References

Athaillah, A., Iqbal, M., & Situmeang, I. S. (2017). SIMULASI PENCAHAYAAN ALAMI PADA GEDUNG PROGRAM STUDI ARSITEKTUR UNIVERSITAS MALIKUSSALEH. NALARs, 16(2), 113. https://doi.org/10.24853/nalars.16.2.113-124

Fahmi, M. M., & Mutia, F. (2022). OPTIMASI PENGGUNAAN FASAD BERDASARKAN ENERGI DALAM PROSES PERANCANGAN GEDUNG PERKANTORAN DI SURABAYA. 18(1). https://doi.org/10.21831/inersia.v18i1

Handoko, J. P. S., & Ikaputra, I. (2019). PRINSIP DESAIN ARSITEKTUR BIOKLIMATIK PADA IKLIM TROPIS. LANGKAU BETANG: JURNAL ARSITEKTUR, 6(2), 87. https://doi.org/10.26418/lantang.v6i2.34791

Hawkes, D., & Foster, W. (2002). Energy Efficient Buildings: Architecture, Engineering, and Environment. In CIVIL ENGINEERING : American Society of Civil Engineers.

Kirimtat, A., Koyunbaba, B. K., Chatzikonstantinou, I., & Sariyildiz, S. (2016). Review of simulation modeling for shading devices in buildings. In Renewable and Sustainable Energy Reviews (Vol. 53, pp. 23–49). Elsevier Ltd. https://doi.org/10.1016/j.rser.2015.08.020

Kusuma, Y., & Nuzir, F. A. (2022). Penilaian Kinerja Bangunan Hijau dengan EDGE Building App pada Perancangan Klinik yang Menerapkan Strategi Passive Design dari Climate Consultant. JURNAL ARSITEKTUR, 12(1), 65. https://doi.org/10.36448/ja.v12i1.2310

Latifah, N. L., Zhafari, M. I., Tamunu, C. M. P., Padillah, R. M., & Bahar, N. K. (2018). Desain Fasad Bangunan Terkait Kenyamanan Termal. Jurnal Arsitektur Universitas Bandar Lampung, 8, 33–42.

Naboni, E., Malcangi, A., Zhang, Y., & Barzon, F. (2015). Defining the energy saving potential of architectural design. Energy Procedia, 83, 140–146. https://doi.org/10.1016/j.egypro.2015.12.204

Nugroho, A. M., & Iyati, W. (2021). Arsitektur Bioklimatik: Inovasi Sains Arsitektur Negeri untuk Kenyamanan Termal Alami Bangunan.

Octarino, C. N. (2022). Evaluation of Building Envelope Performance on the Kanisius Kalasan Junior High School Building Yogyakarta. Advances in Social Science, Education and Humanities Research, 187–191.

Pemprov DKI Jakarta. (2012). SELUBUNG BANGUNAN - PANDUAN PENGGUNA BANGUNAN GEDUNG HIJAU JAKARTA. Http://Greenbuilding.Jakarta.Go.Id.

Putra, R. M., Wibowo, M. A., & Syfrudin, S. (2020). APLIKASI GREEN BUILDING BERDASARKAN METODE EDGE. Wahana Teknik Sipil, 98–111.

Rabbani, B. A. (2019). Comparative Study of Energy Consumption between OTTV and Sefaira in a House. IOP Conference Series: Earth and Environmental Science, 248(1). https://doi.org/10.1088/1755-1315/248/1/012089

Rattanongphisat, W., & Rordprapat, W. (2014). Strategy for energy efficient buildings in tropical climate. Energy Procedia, 52, 10–17. https://doi.org/10.1016/j.egypro.2014.07.049

Samuratova, T. K., Kaliyeva, Z. E., Makhanov, M., & Yermekova, Z. K. (2019). Energy efficient environment in architecture. E3S Web of Conferences, 116. https://doi.org/10.1051/e3sconf/201911600031

Santoso, A. J., & Antaryama, I. G. N. (2005). KONSEKUENSI ENERGI AKIBAT PEMAKAIAN BIDANG KACA PADA BANGUNAN TINGGI (Anik Juniwati Santoso, et al.). http://puslit.petra.ac.id/~puslit/journals/

Wibawa, B. A., Saraswati, R. S., Chandra, A. B., & Saputro, B. E. (2021). Energy Optimization on Campus Building Using Sefaira. IOP Conference Series: Earth and Environmental Science, 738(1). https://doi.org/10.1088/1755-1315/738/1/012015

DOI: http://dx.doi.org/10.36448/ja.v14i1.3429