KONSEP ECO-AIRPORT UNTUK MEMINIMALISASI EMISI BANDARA KULON PROGO

Sri Mulyani

Abstract


Eco-airport used to reinforce critical decisions and supervision, to improving the operations and quality. In simulation of Urban Modeling Interface (UMI), the environmental component is shown, FAR (Floor Area Ratio) aspects used to determine the density of buildings in an area, Lyfecycle aspect used to determine the amount of pollution produced by the building sector in the region, energy operation aspects used to know the needs of energy are in use. In this study was obtained, the content of the highest CO2 emissions in the building owned by floor 2 of ATC with 679.77 kgCO2 CO2 / m2.


References


Adisasmita, S.A, 1999, “Model Analisis Permitaan Dan pengembangan Bandar udara” ( Studi kasus: Bandar Udara Hasanuddin, Sulawesi Selatan, Pra Proposal Disertasi, Program Pascasarjana, Universitas Hasanuddin, Makasar.

Adisasmita, S.A, 2012, “Penerbangan dan Bandar Udara”, Graha Ilmu, Yogyakarta.

Agus Sugiyono.(2012). “Data Historis Konsumsi Energi dan Proyeksi Permintaan-Penyediaan Energi di Sektor Transportasi”. Prosiding Seminar dan Peluncuran Buku Outlook Energi Indonesia 2012.

Bernard C. Patten , 2014. Reprint of “Systems ecology and environmentalism: Getting the science right” Ecological Engineering 65(2014) pp15-23

Christoph F Reinhart,2013 “Umi- an urban simulation environment for building 2 energy use, daylight and walkability Building Performance Simulation Association, Chambery, France, August 26-28

Darmawan, A. 2012. Proyeksi Permintaan Listrik Sektor Rumah Tangga Menggunakan End-Use Model (Studi Kasus Kota Yogyakarta) Universitas Gadjah Mada: Jurusan Teknik Fisika Fakultas Teknik

E.E.Mangindaan .2013. “Rencana Induk Bandar Udara Baru Di Kulon Progo”Departemen Perhubungan.

FranceRenaud Jaunatre and Elise Buisson, Thierry Dutoit .201. “Can ecological engineering restore Mediterranean rangeland afterintensive cultivation? A large-scale experiment in southern France” Ecological Engineer. 64(2014).pp 202-212

Horonjeff, R., McKelvey, F.X., Sproule, W.J., dan Young, S.B. (2010) : Planning and Design of Airports. 5th ed, The McGraw-Hill Companies, New York, USA

Janic, M. (2000) : Air Transport System Analysis and Modelling. Gordon and Breach Science Publishers, Amsterdam, The Netherlands.

Kementerian Perhubungan, RI, (2011) : Statistik Perhubungan 2010, Buku I. Kementerian Energi dan Sumber Daya Mineral. 2012. Kajian Emisi Gas Rumah Kaca Sektor Transportasi. Jakarta.

Lanang, R. WTP. 2005. Kajian Perencanaa Permintaan Dan Penyediaan Energi Di Wilayah Daerah Istimewa Yogyakarta Menggunakan Perangkat Lunak LEAP. Universitas Gadjah Mada: Jurusan Teknik Fisika Fakultas Teknik

Neufville, R.D. dan Odoni, A. (2013) : Airport Systems: Planning Design, and Management, 2nd Edidtion, McGraw Hill, New York, USA

Peter C.K. (2014) An Improved R unway Simulator– Simulation For Runway System Capacity Estimation. 978-1-4673- 6253-5/13/$31.00 ©2013 IEEE.ENE- 162 Konsep Eco-Airport

Robert McNeel & Associates, 2002.Rhinoceros Level 1 Training Manual level volume 3.0.

Ririn Restu Adiati dan Benno Rahardya. (2012) Estimasi Kondisi Eksisting Sebagai Dasar Rancangan Eco-Airport Bandar Udara Soekarno Hatta.Program Studi Teknik Lingkungan Fakultas Teknik Sipil dan Lingkungan Institut Teknologi Bandung

Septiana, 2014. Proyeksi Konsumsi Energi Kota Yogyakarta.Universitas Gadjah Mada: Jurusan Magister Teknik Sistem.

Suhono. 2010. Kajian Perencanaan Permintaan Dan Penyediaan Energi Listrik Di Wilayah Lunak LEAP. Universitas Gadjah Mada: Jurusan Teknik Fisika Fakultas Teknik.




DOI: http://dx.doi.org/10.28989/senatik.v2i0.40

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