THERMAL PERFORMANCE OF RESIDENTIAL HAUSE USING GREEN ROOF BY UTILIZING THE PASSION FRUIT PLANTS (PASSIFLORA EDULIS) AS ROOF COVER

Suwaldi Mopangga, Mohamad Jahja, Dewa Gede Eka Setiawan, Mursalin Mursalin, Idawati Supu, Meilan Demulawa, Abdi Gunawan Djafar

Abstract


Urbanization is the movement of people from villages to cities, this has caused an increase in population growth in urban areas resulting in increased demand for development which has reduced land for green spaces, green roofs are present as a farming concept amidst limited land in urban areas as well as assisting in passive cooling. The process of photosynthesis must play a role in roof shading. The selection of vegetation in the form of passion fruit vines as a roof covering material can spread up to 24 m, the object of research is a house in a housing complex by comparing two rooms, using a vegetation roof cover and without a vegetation roof cover, based on the results obtained a room with a vegetation roof cover experienced a decrease in temperature as the growth of vines covered the roof, the results obtained were a comparison between the two rooms, namely 0.1℃ in January, 1.1℃ in February and 2.6℃ in March when the peak temperature is during the day.

Keywords


Green roof, vegetation; temperature

Full Text:

PDF

References


Aldawi, F. et al. (2012) ‘Thermal performance modelling of residential house wall systems’, Procedia Engineering, 49, pp. 161–168. doi: 10.1016/j.proeng.2012.10.124.

Bollman, M. A. et al. (2021) ‘Effects of shading and composition on green roof media temperature and moisture’, Journal of Environmental Management, 281(September 2020), p. 111882. doi: 10.1016/j.jenvman.2020.111882.

Farhadian, M., Asl, S. R. and Ghamari, H. (2019) ‘Thermal Performance Simulation of Hydroponic Green Wall in a Cold Climate Thermal Performance Simulation of Hydroponic Green Wall in a Cold’, Int. J. Architect. Eng. Urban Plan, 29(March), pp. 233–246. doi: 10.22068/ijaup.29.2.233.

Fauzi, R. and Yuslim, S. (2021) ‘Green Pattern Concept for Rooftop Landscape Architecture Study Program, Trisakti University Jakarta, Indonesia’, The Journal of Synergy Landscape, 1(1), p. 1. doi: 10.25105/tjsl.v1i1.9938.

Fibrianto, J. Z. and Hilmy, M. (2018) ‘Efektifitas Pembayangan yang dihasilkan Pohon dan Bangunan di Koridor Jalan Perkotaan Untuk Mencapai Kenyamanan Termal’, EMARA: Indonesian Journal of Architecture, 4(1), pp. 65–70. doi: 10.29080/emara.v4i1.177.

Indrawati, D. M., Suharyadi, S. and Widayani, P. (2020) ‘Analisis Pengaruh Kerapatan Vegetasi Terhadap Suhu Permukaan dan Keterkaitannya Dengan Fenomena UHI’, Media Komunikasi Geografi, 21(1), p. 99. doi: 10.23887/mkg.v21i1.24429.

Jumriya, J., Mulyadi, R. and Hamzah, B. (2019) ‘Pengaruh Pembayangan terhadap Kenyamanan Termal pada Rumah Tinggal di Perumahan Bukti Baruga Antang Makassar’, Jurnal Penelitian Enjiniring, 23(1), pp. 18–24. doi: 10.25042/jpe.052019.03.

Koryati, T. et al. (2021) ‘Peningkatan Ekonomi Keluarga Dengan Memanfaatkan Sistem Hidroponik Pada Masa Pandemi Di Desa Marindal-I Kecamatan Patumbak’, pp. 56–64.

Latifah, N. L. (2015) FISIKA BANGUNAN 1. 1st edn. Edited by D. Nurcahyani. Jakarta: Griya Kreasi (Penebar Swadaya Grup).

Pusat, et al. (2009) ‘ARSITEKTUR HIJAU: Arsitektur Ramah Lingkungan’, Ekoton, 9(1), pp. 75–77. Available at: https://ejournal.unsrat.ac.id/index.php/EKOTON/article/view/288.

Rizaludin, A., Melina, M. and Kusumaningtyas, V. A. (2020) ‘Pengaruh Penyinaran Lampu LED Terhadap Proses Fotosintesis Menggunakan Percobaan Ingenhousz The Effect of LED Light Radiation on Photosynthesis Process Using Ingenhousz Experiment’, Jurnal Kartika Kimia, 3(2), pp. 77–80.

Stein, A. (2018) ‘C LIMATIC I MPACT An Examination of Greenhouse Gas Emissions’, (6036272).

Syahriyah, D. R. (2017) ‘Penerapan Aspek Green Material Pada Kriteria Bangunan Rumah Lingkungan Di Indonesia’, Jurnal Lingkungan Binaan Indonesia, 6(2), pp. 95–100. doi: 10.32315/jlbi.6.2.95.

Yahaya, N. A. and Ahmad, H. (2011) ‘Numerical investigation of indoor air temperature with the application of PCM Gypsum board as ceiling panels in buildings’, Procedia Engineering, 20, pp. 238–248. doi: 10.1016/j.proeng.2011.11.161.

Yuliani, S. et al. (2021) ‘Thermal behaviour of concrete and corrugated zinc green roofs on low-rise housing in the humid tropics’, Architectural Science Review, 64(3), pp. 247–261. doi: 10.1080/00038628.2020.1751054.




DOI: https://doi.org/10.34312/jpj.v5i1.19358

Refbacks

  • There are currently no refbacks.




Copyright (c) 2023 Suwaldi Mopangga, Mohamad Jahja, Dewa Gede Eka Setiawan, Mursalin, Idawati Supu, Meilan Demulawa, Abdi Gunawan Djafar

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