Modelling Domestic Emission of City-Level Residential Area Based on Spatial Policy

Chania Rahmah*    -  Institut Teknologi Sumatera, Indonesia
Hediyati Anisia Br Sinamo  -  Institut Teknologi Sumatera, Indonesia

(*) Corresponding Author
DOI: 10.30659/jpsa.v22i2.45540

This study investigates the impact of spatial plan on domestic carbon emissions in the residential areas of Bandar Lampung, Indonesia, through a system dynamic modelling approach. Utilizing spatial planning policies of Bandar Lampung City and carbon emission data, the model simulates emissions from residential areas between 2014 and 2041. The research highlights how spatial plans affect high-density residential developments can slightly increase emissions. Two scenarios are analysed: one adhering to the city's spatial plan limiting building coverage ratio (BCR) to 60%, and another allowing 100% BCR, simulating a scenario with no green space. Results show a marginal increase in emissions under denser conditions, with the current policy yielding emissions of 1,422 Gg CO2 and the denser scenario producing 1,423 Gg CO2 by 2041. The study emphasizes that while spatial planning plays a role in mitigating carbon emissions, further research is needed to integrate broader land use planning elements and other urban characteristics to comprehensively address emission reduction efforts. This preliminary research offers insights into urban sustainability and policymaking, especially in the context of climate change mitigation through sustainable spatial planning. 

  1. BPS. (2022). Emisi Gas Rumah Kaca menurut Jenis Sektor (Ribu Ton CO2e). Https://Bandarlampungkota.Bps.Go.Id/Id/Statistics-Table?Subject=519.
  2. Forrester, J. W. (1968). Industrial Dynamics-After the First Decade. Management Science, 14(7), 398–415.
  3. Hong, S., Hui, E. C. man, & Lin, Y. (2022). Relationship between urban spatial structure and carbon emissions: A literature review. In Ecological Indicators (Vol. 144). Elsevier B.V. https://doi.org/10.1016/j.ecolind.2022.109456
  4. ICLEI. (2019). Global Protocol for Community-Scale Greenhouse Gas Inventories. An Accounting and Reporting Standard for Cities Version 1.1.
  5. IPCC. (2006). 2006 IPCC Guidelines for National Greenhouse Gas Inventories. Http://Www.Ipcc-Nggip.Iges.or.Jp/Public/2006gl/.
  6. Karliansyah, M. R., Sulistyowati, Setyono, P., Himawan, W., Amran, P., Mahalana, A., Zakaria, M., Krisnawati, L., Tambun, J. H., Harsono, T., Rena, T., Darojat, R., & Rumapea, R. M. (2020). Pedoman Teknis Penyusunan Inventarisasi Emisi Pencemaran Udara di Perkotaan.
  7. Karliansyah, M. R., Sulistyowati, Suhadi, D. R., Febrina, A. S., Setyono, P., Himawan, W., Amran, P., Mahalana, A., Zakaria, M., Krisnawati, L., Tambun, J. H., Harsono, M., Rena, T., Darojat, R., & Rumapea, R. M. (2019). Pedoman Teknis Penyusunan Inventarisasi Emisi Pencemar Udara di Perkotaan.
  8. Khoiriah, S. (2025). Kuota LPG 3 Kg di Lampung Tahun 2025 Sebanyak 217.836 MT. Https://Kupastuntas.Co/2025/02/19/Kuota-Lpg-3-Kg-Di-Lampung-Tahun-2025-Sebanyak-217836-Mt.
  9. KLHK. (2022). Emisi Karbon (Ton CO2e) Akibat Karhutla Berdasarkan Provinsi di Indonesia Tahun 2018-2022. Https://Statistik.Menlhk.Go.Id/SisklhkX/Data_statistik/Ppi/Table7_8.
  10. Kota Bandar Lampung, B. (2025). Bandar Lampung Official Statistics. Https://Bandarlampungkota.Bps.Go.Id/.
  11. Kurokawa, J., & Ohara, T. (2020). Long-term historical trends in air pollutant emissions in Asia: Regional Emission inventory in ASia (REAS) version 3. Atmospheric Chemistry and Physics, 20(21), 12761–12793. https://doi.org/10.5194/acp-20-12761-2020
  12. Labiba, D., & Pradoto, W. (2018). Sebaran Emisi CO2 dan Implikasinya Terhadap Penataan Ruang Area Industri di Kabupaten Kendal. Jurnal Pengembangan Kota, 6(2), 164. https://doi.org/10.14710/jpk.6.2.164-173
  13. Lee, J., Akashi, Y., Takaguchi, H., Sumiyoshi, D., Lim, J., Ueno, T., Maruyama, K., & Baba, Y. (2021). Forecasting model of activities of the city-level for management of CO2 emissions applicable to various cities. Journal of Environmental Management, 286. https://doi.org/10.1016/j.jenvman.2021.112210
  14. Leibowicz, B. D. (2017). Effects of urban land-use regulations on greenhouse gas emissions. Cities, 70, 135–152. https://doi.org/10.1016/j.cities.2017.07.016
  15. Liu, W., Zuo, B., Qu, C., Ge, L., & Shen, Q. (2022). A reasonable distribution of natural landscape: Utilizing green space and water bodies to reduce residential building carbon emissions. Energy and Buildings, 267, 112150. https://doi.org/10.1016/j.enbuild.2022.112150
  16. Mostafavi, N., Heris, M., Gándara, F., & Hoque, S. (2021). The Relationship between Urban Density and Building Energy Consumption. Buildings, 11(10), 455. https://doi.org/10.3390/buildings11100455
  17. Paramita, B., Kusuma, H. E., & Matzarakis, A. (2022). Urban performance based on biometeorology index in high-density, hot, and humid cities. Sustainable Cities and Society, 80, 103767. https://doi.org/10.1016/j.scs.2022.103767
  18. Rahmadani, N., Fitri, Y., Retnawaty, S. F., Lestari, D., Mulyani, S., & Selvia, S. (2024). Pemodelan Emisi Gas CO2 dari Lokasi Tempat Pembuangan Akhir di Kota Pekanbaru menggunakan Dispersi AERMOD. Jurnal Wilayah Dan Lingkungan, 12(2), 163–176. https://doi.org/10.14710/jwl.12.2.163-176
  19. Rencana Tata Ruang Wilayah Kota Bandar Lampung 2021-2041, Pub. L. No. Peraturan Daerah Kota Bandar Lampung No 4 Tahun 2021, Peraturan Daerah Kota Bandar Lampung No 4 Tahun 2021 (2021).
  20. Sidqi, F., Sutikno, F. R., & Sari, K. E. (2024). Pemodelan Dispersi Emisi CO2 dari Kegiatan Transportasi di Kawasan Sier Surabaya. Planning for Urban Region and Environment Journal (PURE), 13(4), 11–22.
  21. Sunaryo, E., & Ade, C. (2024). Konsumsi Elpiji 3 Kg di Lampung 699 Metrik Ton per Hari. Https://Lampost.Co/Ekonomi-Dan-Bisnis/Konsumsi-Elpiji-3-Kg-Di-Lampung-699-Metrik-Ton-per-Hari/#goog_rewarded.
  22. Tomkins, P., & Müller, T. E. (2019). Evaluating the carbon inventory, carbon fluxes and carbon cycles for a long-term sustainable world. Green Chemistry, 21(15), 3994–4013. https://doi.org/10.1039/C9GC00528E
  23. Yaman, C. (2024). A Review on the Process of Greenhouse Gas Inventory Preparation and Proposed Mitigation Measures for Reducing Carbon Footprint. Gases, 4(1), 18–40. https://doi.org/10.3390/gases4010002

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