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The planning and design of Kampong Pakuncen in Yogyakarta based on the green concept

    Erni Setyowati Affiliation
    ; Septana Bagus Pribadi Affiliation
    ; Subrata Aditama K. Aidon Uda Affiliation
    ; Tiara Rizkyvea Debby Affiliation
    ; Bangun I. R. Harsritanto Affiliation

Abstract

This study aims to determine the green concept of a slum “kampong” with the green concept and carbon footprint approach based on daily activities, building materials and fuel consumption as well as to deliver the concept of renewable energy. The carbon footprint is the measure of total amount of carbon dioxide gas emissions directly or indirectly caused by daily main activities and accumulation of products used daily. It is the case study of Kampong Gampingan-Pakuncen, Yogyakarta. This kampong is known as a densely populated kampong located in the city centre not far from Malioboro, the centre of commercial and business districts in Yogyakarta City. The employed methods were the quantitative-comparative method between carbon footprint of existing and planning condition and the quantitative approach of renewable energy. The results showed that the carbon dioxide concentration of Kampong Pakuncen in the existing condition is 1,712.767 tonnes CO2/month while the total amount of carbon dioxide concentration of the design is 1,293.785 tonnes CO2/month, hence 24.462% carbon dioxide concentration reduction. To save energy consumption in daily activities, it is proposed that water wheel as micro-hydro power should be used for electricity.

Keyword : carbon dioxide concentration, slum, city kampong, sustainable, renewable energy, comparative method

How to Cite
Setyowati, E., Pribadi, S. B., Aidon Uda, S. A. K., Debby, T. R., & Harsritanto, B. I. R. (2019). The planning and design of Kampong Pakuncen in Yogyakarta based on the green concept. Journal of Architecture and Urbanism, 43(1), 21-35. https://doi.org/10.3846/jau.2019.6123
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Mar 1, 2019
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References

Abdelhalim, K. (2010). Participatory Upgrading of informal areas – a decision-makers’ guide for action. Participatory Development Programme in Urban Areas (PDP) in Egypt. Cairo: GTZ Office Cairo. Retrieved from https://www.citiesalliance.org/sites/default/files/CA_Images/2010_PDP_Participatory Upgrading of Informal Areas_Decision-makers Guide for Action.pdf

Ali, R., Muhammad, T., Tunku, N., Baharudin, N. H., Idris, S., & Hassan, S. (2016). Environmental impacts of renewable energy. In Electric Renewable Energy Systems (pp. 519-546). Amsterdam, Netherlands: Elsevier Inc. https://doi.org/10.1016/B978-0-12-804448-3.00021-9

Astari, R. G. (2012). Studi Jejak Karbon dari Aktivitas Permukiman di Kecamatan Pademangan Kotamadya Jakarta Utara (Study of Carbon Footprint from settlement activities in Pademangan district, North Jakarta). Jakarta.

Astuti, D. W. (2009). Sustainable slum upgrading in urban Asia. CIB Working Commission W110: Informal Settlements and Affordable Housing, 644.

Benger, S. N. (2014). Towards low carbon city planning in a medium sized low density City. Energy Procedia, 61, 838-841. https://doi.org/10.1016/j.egypro.2014.11.977

Bilgili, M., Bilirgen, H., Ozbek, A., Ekinci, F., & Demirdelen, T. (2018). The role of hydropower installations for sustainable energy development in Turkey and the world. Renewable Energy, 126, 755-764. https://doi.org/10.1016/j.renene.2018.03.089

Bong, C. P. C., Goh, R. K. Y., Lim, J. S., Ho, W. S., Lee, C. T., Hashim, H., … & Takeshi, F. (2017). Towards low carbon society in Iskandar Malaysia: Implementation and feasibility of community organic waste composting. Journal of Environmental Management, 203, 679-687. https://doi.org/10.1016/j.jenvman.2016.05.033

Cao, S., & Li, C. (2011). The exploration of concepts and methods for low-carbon eco-city planning. Procedia Environmental Sciences, 5, 199-207. https://doi.org/10.1016/j.proenv.2011.03.067

Central Bureau of Statistics, Y. M. (2017a). Wirobrajan Sub District in Figures 2017. BPS (Ed.) (2nd ed.). Yogyakarta: CV. Intimagma. Retrieved from https://kominfo.jogjakota.go.id/resources/download/kecamatan-wirobrajan-dalam-ang-ka-2017-14.pdf

Central Bureau of Statistics, Y. M. (2017b). Yogyakarta Municipality in Figures 2017. BPS (Ed.) (1st ed.). Yogyakarta: CV. Lunar Media Sejahtera.

Frisch, T. (2012). Glimpses of another world: The Favela as a Tourist Attraction. Tourism Geographies, 14(2), 320-338. https://doi.org/10.1080/14616688.2011.609999

Ge, J., Luo, X., & Lu, J. (2017). Evaluation system and case study for carbon emission of villages in Yangtze River Delta region of China. Journal of Cleaner Production, 153, 220-229. https://doi.org/10.1016/j.jclepro.2017.03.144

Haque, A. (2016). Solar energy. Electric renewable energy systems. Elsevier Inc. https://doi.org/10.1016/B978-0-12-804448-3/00003-7

Harjoko, T. Y. (2009). Urban acupuncture: An alternative purposive intervention to urban development to generate sustainable positive ripples for “aided self-help” Kampung Improvement. Informal Settlements and Affordable Housing, 163-172.

Jain, A. K. (2009). Low carbon city: Policy, planning and practice. A. K. Jain (Ed.) (1st ed.). New Delhi: Discovery Publishing House PVT.LTD.

Jenssen, T., König, A., & Eltrop, L. (2014). Bioenergy villages in Germany: Bringing a low carbon energy supply for rural areas into practice. Renewable Energy, 61, 74-80. https://doi.org/10.1016/j.renene.2012.08.014

Jiang, P., Chen, Y., Xu, B., Dong, W., & Kennedy, E. (2013). Building low carbon communities in China: The role of individual’s behaviour change and engagement. Energy Policy, 60, 611-620. https://doi.org/10.1016/j.enpol.2013.05.017

Lerner, J. (2014). Urban Acupuncture – celebrating pinpricks of change that enrich city life. In J. Lerner (Ed.), Knight foundation. Washington, DC: Island Press.

Mapes, J., & Wolch, J. (2011). “Living green”: The promise and pitfalls of new sustainable communities. Journal of Urban Design, 16(1), 105-126. https://doi.org/10.1080/13574809.2011.521012

Ministry of Public Works and People Housing. (2016a). Peningkatan Kualitas Terhadap Perumahan Kumuh dan Permukiman Kumuh [Quality Improvement of Slum Housing and Settlements], Pub. L. No. 02/PRT/M/2016, 1. Indonesia: Ministry of Public Work and People Housing. Retrieved from http://jdih.pu.go.id/produk-hukum-detail.html?id=2210

Ministry of Public Works and People Housing. (2016b). RP2KPKP Guideline. R. I. Saputra, A. Harjanti, A. A. Widhijanto, & N. Merlian (Eds.) (2nd ed.). Jakarta, Indonesia: Ministry of Public Work and People Housing. Retrieved from http://kotaku.pu.go.id:8081/pustaka/files/Buku_Panduan_Penyusunan_RP2KPKP.pdf

Moriarty, P., & Wang, S. J. (2014). Low-carbon cities: Lifestyle changes are necessary. Energy Procedia, 61, 2289-2292. https://doi.org/10.1016/j.egypro.2014.12.439

Mulugetta, Y., & Urban, F. (2010). Deliberating on low carbon development. Energy Policy, 38(12), 7546-7549. https://doi.org/10.1016/j.enpol.2010.05.049

Rolfes, M. (2010). Poverty tourism: theoretical reflections and empirical findings regarding an extraordinary form of tourism, 421-442. https://doi.org/10.1007/s10708-009-9311-8

Ruan, Y., Cao, J., Feng, F., & Li, Z. (2017). The role of occupant behavior in low carbon oriented residential community planning: A case study in Qingdao. Energy and Buildings, 139, 385-394. https://doi.org/10.1016/j.enbuild.2017.01.049

Sankhe, S., Vittal, I., Dobbs, R., Mohan, A., Gulati, A., Ablett, J., &… McKinsey. (2010). India’s urban awakening: Building inclusive cities, sustaining economic growth. McKinsey Quarterly, (April), 1-33.

Seo, S., & Hwang, Y. (2001). Estimation of Co2 Emissions in life cycle of residential buildings. Journal f Construction Engineering and Management, 127(October), 414-418. https://doi.org/10.2507/daaam.scibook.2012.30

Setyowati, E., & Pandelaki, E. E. (2018). The concept of sustainable prefab modular housing made of natural fiber reinforced polymer (NFRP). IOP Conference Series: Materials Science and Engineering, 316(1). https://doi.org/10.1088/1757-899X/316/1/012004

Shidan, C., & Qian, S. (2011). “Urban Acupuncture” strategy in the urban renewal. In IEEE (p. 5).

Smith, C., Clayden, A., & Dunnett, N. (2009). An exploration of the effect of housing unit density on aspects of residential landscape sustainability in England. Journal of Urban Design, 14(2), 163-187. https://doi.org/10.1080/13574800802670978

Standardization, T. I. N. SNI 03-7065-2005 Plumbing System Planning Procedure, Pub. L. No. SNI 03-7065-2005, 1 (2005). Indonesia: BSN.

Su, M. R., Chen, B., Xing, T., Chen, C., & Yang, Z. F. (2012). Development of low-carbon city in China: Where will it go? Procedia Environmental Sciences, 13(2011), 1143-1148. https://doi.org/10.1016/j.proenv.2012.01.107

Sudjono, P., & Yudhi, C. O. (2011). Estimation of Co2 emission from development of various sizes of low-cost house. Jurnal Teknik Lingkungan, 17(2), 98-109. https://doi.org/10.5614/jtl.2011.17.2.10

Sugranyes, A., & Mathivet, C. (2010). Cities for all: Proposals and experiences towards the right to the city. Habitat International Coalition (1st ed.). Santiago, Chile, Habitat International Coalition, HIC.

Tan, S., Yang, J., & Yan, J. (2015). Development of the Low-carbon City Indicator (LCCI) Framework. Energy Procedia, 75(Lcci), 2516-2522. https://doi.org/10.1016/j.egypro.2015.07.253

The Indonesian government. (2007). Community Agency Administration Guidelines (2007). Republic of Indonesia. Retrieved from http://hukum.unsrat.ac.id/men/mendagri2007_5.pdf

The Indonesian government. (2015). Amendment to Government Regulation Number 43 of 2014 Concerning Implementation of Law Number 6 of 2014 Regarding The Village, Pub. L. No. 47 of 2015, 35 (2015). Republic of Indonesia. Retrieved from http://www.keuangandesa.com/wp-content/uploads/2016/04/PP-No.-43-Tahun-2014-beserta-PP-No.-47-Tahun-2015-ten-tang-Peraturan-Pelaksanaan-UU-Desa.pdf

The Shack Dwellers Federation Of Namibia. (2009). Community Land Information Program (Clip) Profile Of Informal Settlements In Namibia March 2009. Program, (March). Retrieved from http://www.citiesalliance.org/ca/sites/citiesalliance.org/files/CA_Docs/resources/NamibiaCLIP092.pdf

Walsh, T. M., Xiong, Z., & Sheng, Y. (2012). Singapore Modules – Optimised PV Modules for the Tropics. Energy Procedia, 15, 388-395. https://doi.org/10.1016/j.egypro.2012.02.047

Webb, J., Hawkey, D., & Tingey, M. (2016). Governing cities for sustainable energy: The UK case. Cities, 54, 28-35. https://doi.org/10.1016/j.cities.2015.10.014

Widhianthini, W. (2017). A dynamic model for sustainable tourism village planning based on local institutions. Journal of Regional and City Planning, 28(1), 1. https://doi.org/10.5614/jrcp.2017.28.1.1

Williams, J. (2016). Can low carbon city experiments transform the development regime? Futures, 77, 80-96. https://doi.org/10.1016/j.futures.2016.02.003

Xie, Z., Gao, X., He, J., & Feng, C. (2016). Evaluating rural low-carbon communities: A study of Guangdong Province, China. Energy and Buildings, 133, 777-789. https://doi.org/10.1016/j.enbuild.2016.10.042