Optimization of Energy Efficiency with A Green Building Approach in The Mahata Serpong Apartment

##plugins.themes.academic_pro.article.sidebar##

Published Sep 30, 2024
https://doi.org/10.32722/arcee.v5i02.7042
Download
pdf
Statistic
Vol. 5 No. 02 (2024)

##plugins.themes.academic_pro.article.main##

Alfian Hidayatulloh
Politeknik Negeri Jakarta
Dyah Nurwidyaningrum
Politeknik Negeri Jakarta

Abstract

The crisis of non-renewable energy and environmental conservation have become major concerns worldwide. The Indonesian government has responded by launching a national movement to conserve energy. One concrete step taken is the implementation of the Green Building concept, which minimizes resource consumption and maximizes the use of natural resources. In Indonesia, green building assessments are conducted by the Green Building Council Indonesia (GBCI) through the Greenship tool, while internationally, the EDGE application is used for green building certification. For this research use EDGE application for assessing the study case building. This study aims to optimize energy efficiency at Apartemen Mahata Serpong using the EDGE application. The research is expected to reveal the level of energy savings at Apartemen Mahata Serpong and how well the building meets green building criteria. The study begins with data collection, followed by analysis using the EDGE application. The EDGE analysis shows that the existing energy usage at Apartemen Mahata Serpong is 5,88%. After implementing smart meters and a photovoltaic-based renewable energy system, energy efficiency increased to 8,44%. Utility costs also decreased from Rp. 190,377,164 before optimization to Rp. 186,524,222 after optimization.

##plugins.themes.academic_pro.article.details##

Creative Commons License

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

How to Cite
Hidayatulloh, A., & Nurwidyaningrum, D. (2024). Optimization of Energy Efficiency with A Green Building Approach in The Mahata Serpong Apartment. Applied Research on Civil Engineering and Environment (ARCEE), 5(02), 72–78. https://doi.org/10.32722/arcee.v5i02.7042

References

  1. Chandrasekaran, V., Dvarioniene, J., Vitkute, A., & Gecevicius, G. (2021). Environmental Impact Assessment Of Renovated Multi-Apartment Building Using Lca Approach: Case Study From Lithuania. Sustainability (Switzerland), 13(3). Https://Doi.Org/10.3390/Su13031542
  2. Czétány, L., Vámos, V., Horváth, M., Szalay, Z., Mota-Babiloni, A., Deme-Bélafi, Z., & Csoknyai, T. (2021). Development Of Electricity Consumption Profiles Of Residential Buildings Based On Smart Meter Data Clustering. Energy And Buildings, 252. Https://Doi.Org/10.1016/J.Enbuild.2021.111376
  3. Edge. (2022). Edge Expert Training V3 Delivered By Gbc Indonesia. Www.Edgebuildings.Com
  4. Ghaasyiyah, K. N., Gandarum, D. N., & Walaretina, R. (2020). Implementation Of Net-Zero Energy Building Concept In The Design Facade Architecture Buildings In Central Java.
  5. International Finance Corporation, & Woorld Bank Group. (2024). Edge Building Apps. Https://App.Edgebuildings.Com/User/Profile.
  6. Karima, I. K. A. E. (2022). Analisis_Implementasi_Konektivitas_Indih.
  7. Kusuma, Y., & Nuzir, F. (2022). Penilaian Kinerja Bangunan Hijau Dengan Edge Building App Pada Perancangan Klinik Yang Menerapkan Strategi Passive Design Dari Climate Consultant. Jurnal Arsitektur, 12, 65. Https://Doi.Org/10.36448/Ja.V12i1.2310
  8. Laksmi Widyawati, R. (2018). Green Building Dalam Pembangunan Berkelanjutan Konsep Hemat Energi Menuju Green Building Di Jakarta.
  9. Nur, G. K. (2021). Implementation Of Net-Zero Energy Building Concept In The Design Facade Architecture Buildings In Central Java.
  10. Nur, W., Siadari, A., Chairin, Y., & Erizal, D. (2023). Kajian Perbandingan Asesmen Green Building Bangunan Gedung Baru Menggunakan Sistem Greenship New Building Versi 1.2 Dan Versi 2.0.
  11. Permana, A. Y., Wijaya, K., Nurrahman, H., Farah, A., & Permana, S. (2020). Pengembangan Desain Micro House Dalam Menunjang Program Net Zero Energy Buildings (Nze-Bs).
  12. Perumnas, & Samesta Mahata Serpong. (2024). Samesta Mahata Serpong Transit Oriented Development. Https://Www.Mahataserpong.Id/.
  13. Pp Nomor 33 Tahun 2023. (2023). Peraturan Pemerintah Republik Indonesia Nomor 33 Tahun 2023.
  14. Retno, D.P., Elizar, E., Syamsunur, D., & Putri, T. R. P. (2023). Bantuan Teknis Asesmen Kinerja Energi Berbasiskan Standar Kinerja Edge Pada Perumahan Graha Timur Raya – Pekanbaru. Dinamisia : Jurnal Pengabdian Kepada Masyarakat, 7(6), 1602–1610. Https://Doi.Org/10.31849/Dinamisia.V7i6.17181
  15. Reztrie, N. D. (2023). Kriteria Penilaian Bangunan Hijau Pada Hunian Vertikal Menurut Preferensi Masyarakat.
  16. Rizaldy, F., & Yuwono, B. E. (2019). Analisis Peningkatan Peringkat Sertifikasi Green Building Terhadap Efisiensi Dan Konservasi Energi Gedung Alamanda Tower Analysis Of Rating Improvement Of Green Building Certification On Energy Efficiency And Conservation Alamanda Tower Building.
  17. Rizki, R. (2022). Pengaruh Efisiensi Energi Dan Air Pada Bangunan Dalam Penerapan Eco-Green Rabudin Rizki. In Jurnal Arsitektur (Vol. 19, Issue 2). Http://Journals.Ums.Ac.Id/Index.Php/Sinektika
  18. Sri Rahayu, W., & Rijanto, T. (2019). Rancang Bangun Sistem Pendinginan Menggunakan Air Untuk Meningkatkan Daya Keluaran Pada Modul Photovoltaic Berbasis Arduino Mega 2560 Dan Kendali Fuzzy.
  19. Wahyu Guzri, A. (2022). Jurnal Ilmiah Teknik Sipil dan Arsitektur (JITAS) Penilaian Kriteria Green Building Pada Bangunan Hotel Harper Wahid Hasyim Medan Assessment Of Green Building Criteria In The Harper Wahid Hasyim Medan Hotel Building. Jurnal Ilmiah Teknik Sipil Dan Arsitektur, 1(2), 68–76. https://doi.org/10.31289/jitas.v1i2.1451
  20. World Bank Group, & International Finance Corporation. (2024). Global Solar Atlas. Https://Globalsolaratlas.Info/Map?C=21.453069,-56.953125,2.