DAFTAR PUSTAKA

[1] (PUSDATIN) Pusat Data dan Teknologi Informasi. Buku Informasi Statistik 2017. Jakarta-Indonesia, Kementrian Pekerjaan Umum dan Perumahan Rakyat, Sekretariat Jenderal Pusat Data dan Teknologi Informasi, Desember 2017.

[2] Sekretariat Negara Republik Indonesia. Undang – Undang Republik Indonesia Nomor 1 Tahun 2009 Tentang Penerbangan. Jakarta-Indonesia, Biro Perundang-undangan Bidang Perekonomian dan Industri, 12 Januari 2009.

[3] Samhis Setiawan. 367 Nama Bandara Internasional dan Domestik. Jakarta - Indonesia. Diakses dari gurupendidikan.co.id / nama – bandara/.13 April 2020

[4] Akhyari Hananto. Sebenarnya, Ada Berapa Jumlah Pesawat yang Take-off dan Landing per Hari di Indonesia?. Jakarta – Indonesia. Diakses dari goodnewsfromIndonesia.id / 2019/ 02/ 11/ pada 19 Juli 2020. 11 Februari 2019.

[5] European Union – Indonesia Business Network. Aviation. Jakarta – Indonesia. European Union – Indonesia Business Network Sector Report.

2018

[6] (ATR) Avion De Transport Regional. ATR Family. Blagnac Cedex-France, ATR DC/E Marketing - Family booklet, September 2014.

[7] (ATR) Avion De Transport Regional . ATR 72 Flight Crew Operating Manual. Blagnac Cedex-France, Avion De Transport Regional Direction Support Exploitation 1, Juli 1999.

[8] Dwi Febrianto. Analisis Karakteristik Arus Inrush pada Operasi Pensaklaran Lampu Hemat Energi. Depok – Indonesia, Fakultas Teknik Program Studi Teknik Elektro Universitas Indonesia, Desember 2008.

[9] Fatih Tunca, Nevzet Kaya. Thermodynamic Analysis of Gas Turbine – Solid Oxide Fuel Cell (GT-SOFC) Aircraft Auxiliary Power Unit (APU). Turki, Int’l Journal of Advances in Mechanical and Automobile Engg. (IJAMAE) Vol. 4, Issue 1(2017) ISSN 2349-1485 EISSN 2349-1493, 2017.

[10] Wahyu Purwanta. Profil Emisi Gas Buang dari Pesawat Udara di Sejumlah Bandara di Indonesia. Tangerang – Indonesia. Jurnal Teknologi Lingkungan Vol. 16, No. 1. Januari 2015

[11] Gregor Hoogers. Fuel Cell Technology Handbook. New York- United State of Amerika, CRC Press LLC, 2002.

[12] Yu Chen. Fabrication and Characterization of Novel Electrodes for Solid Oxide Fuel Cell for Efficient Energy Conversion. Columbia – United State of Amerika, Mechanical Engineering College of Engineering and Computing University of South Carolina, 2014.

[13] Siamak Farhad. Performance Simulation of Planar Solid Oxide Fuel Cells.

Ontario – Canada, Mechanical Engineering University of Waterloo, 2011.

[14] Meng Ni. Thermo-Electrochemical modeling of amonia-fueled solid oxide fuel cells considering amonia thermal decomposition in the anode.

Kowloon – Hong Kong, International Journal of Hydrogen Energy 36 (2011) 3153-3166, 2011.

[15] Alfred H. White, WM. Melville. The Decomposition of Ammonia at High Temperatures. Lawrence – Kansas. University of Kansas. 14 Januari 1905

[16] Denver Cheddie. Ammonia as a Hydrogen Source for Fuel Cells: A Review.

London – United Kingdom. Hydrogen Energy – Challange and Perspectives, Dragica Minic, IntechOpen, DOI: 10.5772/47759. 17 Oktober 2012

[17] Tetsuo Satoh. Progress Toward Using Ammonia as a Hydrogen Carrier for Fuel Cells. Maryland – United States. Access Intelegence, LLC, Chemical Engineering. 1 Desember 2018

[18] Wentao Wang, Jose Martin Herreros, Athanasios Tsolakis, Andrew Peter Edward York. Ammonia as hydrogen carrier for transportation;

Investigation of the ammonia exhaust gas fuel reforming. Brimingham – United Kingdom. International Journal of Hydrogen Energy 38(23) 9907 – 9917. Agustus 2013

[19] Prof. Dr. Ibrahim Dincer. Clean Fuel Standard Discussion Paper: Amonia (NH3) as a Carbon-Free Fuel. Oshawa – Canada, HydroFuel University of Ontario Institute of Technology, 21 April 2017.

[20] Qianli Ma, Ranran Peng, dan teman-teman. A High-Performance Amonia- Fueled Solid Oxide Fuel Cell. Anhui – Tiongkok, Journal of Power Sources 161 (2006) 95-98, 16 Juni 2006.

[21] Fadjar Nugroho. Apa artinya APU: Auxiliary Power Unit. Indonesia, 23 November 2013. Diakses dari http://www.ilmuterbang.com/artikel - mainmenu - 29 / teori – penerbangan – main menu - 68/735 – apa – artinya – apu – auxilliary – power - unit, 12 Juli 2019.

[22] (EASA) European Aviation Safety Agency. EASA Type-Certificate Data Sheet No. EASA.A.084 for ATR 42 and ATR 72 Transport Category: Large Aeroplanes. Blagnac Cedex-France, European Aviation Safety Agency TCDS No.: EASA.A.084 Issue: 03 ATR 42-ATR 72, 17 Oktober 2012.

[23] Mohammad H. Amadi, Mirhadi dkk. Energy and Exergy Analyses of a Solid Oxide Fuel Cell – Gas Turbine – Organic Rankine Cycle Power Plant with Liquefied Natural Gas as Heat Sink. Basel – Switzerland. Multidisciplinary Digital Publishing Institute – Journal Entropy DOI 10.3390. 22 Juni 2018 [24] Valerie Eveloy, Wirinya Karunkeyoon, Peter Rodgers, Ali Al Alili.

Validation of Solid Oxide Fuel Cell Thermodynamic Models for System- level Integration. International Journal of Thermal and Environmental Engineering, Volume 11, No 1, DOI 10.5383/ijtee.11.01.004. 2016.

[25] Department of Materials Science and Metallurgy. Solid Oxide Fuel Cells (SOFCs). Cambridge – United Kingdom. Diakses dari doitpoms.ac.uk/tlplib/fuel-cells/high_temp_sofc.php, 13 April 2020

[26] Julius Marlissa. Literatur Review: Pemodelan dan Simulasi Sistem.

Indonesia. Pasca Sarjana Universitas Mercu Buana, Juni 2013.

[27] James Larminie, Andrew Dicks. Fuel Cell System Explained, Second Edition. United State of America. John Wiley and Sons, Ltd ISBN: 0-470- 84857-X, 1 Mei 2003

[28] Muhamad Mujari. Desain Konsep Sistem Hybrid Solid Oxide Fuel Cell Gas Turbine (SOFC – GT). Yogyakarta – Indonesia. Skripsi, Departemen Teknik Fisika, Fakultas Teknik, Universitas Gadjah Mada. 2006

[29] Shilahuddin. Analisis Kinerja Sistem Hibrid SOFC (Solid Oxide Fuel Cell) dan MGT (Micro Gas Turbine) sebagai Penggerak Kendaraan Bus.

Yogyakarta – Indonesia. Skripsi, Departemen Teknik Fisika, Fakultas Teknik, Universitas Gadjah Mada. 2015

[30] Anchasa Pramuanjaroenkij, Sadik Kakac, Xiang Yang Zhou. Mathematical analysis of planar solid oxide fuel cell. Florida – United State of America, International Journal of Hydrogen Energy 33 (2008) halaman 2547-2565, Department of Mechanical and Aerospace Engineering, University of Miami, 16 February 2008

[31] Scuola Zanichelli. Avogadro’s law PDF. England. Diakses dari ebook.scuola.zanichelli.it/mandoliniparole/download/23004, 4 Agustus 2019.

[32] Novi Ambarsari. Hukum Avogadro. Indonesia, 29 September 2018. Diakses dari siswapedia.com/hukum-avogadro, 15 Desember 2019.

[33] Department of Physics. IIE3 Modul Electricity II Faraday Constant. Basel – Swiss, Department of Physics University of Basel, February 2017.

[34] Guelph Physics Department. Ohm’s Law. Ontario – Canada, Diakses dari physics.uoguelph.ca/tutorials/ohm/Q.ohm.intro.html, 8 Agustus 2019.

[35] Encyclopaedia Britannica. Joule’s law electronics. United Kingdom, Diakses dari britannica.com/science/joules-law, 8 Agustus 2019.

[36] Fisika Zone. Hukum Boyle. Indonesia, 31 Oktober 2014. Diakses dari fisikazone.com/hukum-boyle/, 14 Desember 2019.

[37] Fisika Zone. Hukum Hukum Gas Ideal. Indonesia, 15 Maret 2014. Diakses dari fisikazone.com/hukum-hukum-gas-ideal/, 15 Desember 2019.

[38] Westfield State University. The Ideal Gas Law. United State. Diakses dari westfield.ma.edu/cmasi/gen_chem1/Gases/ideal%20, 15 Desember 2019.

[39] Kim Thanos, David Wiley, Tom Chapman, dkk. Specific Heat. United State.

Diakses dari courses.lumenlearning.com/ boundless - physics/ chapter/

specific-heat/, 15 Desember 2019.

[40] Ckaus Borgnakke, Richard E. Sonntag. Fundamentals of Thermodynamics.

United State, Don Fowley, John Wiley & Sons, Inc. ISBN 978-1-118- 13199-2, 2013.

[41] Shutdown Margin - SDM. Brayton Cycle – Gas Turbine Engine. United State. Diakses dari nuclear - power.net /nuclear – engineering / thermodynamics/ thermodynamic - cycles/ brayton – cycle – gas – turbine - engine/, 15 Desember 2019.

[42] Juni Edi Purba dan Wulan Dwiyandini. Heat Exchanger (Alat Penukar Panas). Jakarta-Indonesia. Jurusan Teknik Kimia Industri Sekolah Tinggi Manajemen Industri Kementrian Perindustrian Republik Indonesia, 19 November 2013.

[43] Harini. Analisis Perhitungan Laju Perubahan Panas Alat Penukar Kalor Type Pipa Ganda di Laboratorium Universitas 17 Agustus 1945 Jakarta.

Jakarta-Indonesia. Jurnal Konversi Energi dan Manufaktur UNJ Edisi terbit II, Oktober 2017.

[44] Nischal Srivastava. Modeling of Solid Oxide Fuel Cell / Gas Turbine Hybrid Systems. Florida-United State of America. Degree of Master of Science in Department of Mechanical Engineering at The Florida State University. 7 Juli 2006.

[45] Fadi Ishak. Thermodynamic Analysis of Amonia and Urea fed Solid Oxide Fuel Cells. Ontario-Canada. Degree of Masters of Applied Science in Mechanical Engineering in The Faculty of Engineering and Applied Science University of Ontario Institute of Technology. April 2011.

[46] Penyarat Chinda, Pascal Branlt. The Hybrid Solid Oxide Fuel Cell (SOFC) and gas turbine (GT) systems steady state modeling. International Journal of Hydrogen Energy, Elsevier, 2012, 37, pp.9237-9248. 31 Mei 2012.

[47] Youcef Sahh, Bariza Zitouni, Hocine Ben Moussa. Solid Oxide Fuel Cell Thermodynamic Study. Cankaya University Journal of Science and Engineering, Volume 14, No 2. ISSN 2564-7954. 2017.

[48] Yeqing. Theoretical and Experimental Study of Solid Oxide Fuel Cell (SOFC) Using Impedance Spectra. Cambridge-United State of America.

Doctor of Philosophy in Chemical Engineering at the Massachusetts Institute of Technology, Juni 2014.

[49] Sofwan Farohi. Pengaruh Atmosfer terhadap Visibilitas Hilal (Analisis Klimatologi Observatorium Bosscha dan CASA As-Salam dalam Pengaruhnya terhadap Visibilitas Hilal. Semarang-Indonesia. Fakultas Syariah dan Hukum IAIN Walisongo. 2013.

[50] Denver F. Cheddie. Temkin – Pyzhev Kinetics in Intermediate Temperature Amonia – Fed Solid Oxide Fuel Cells (SOFCs). London – UK. International Journal of Power and Energy Research, Vol. 2, No. 3. Juli 2018.

[51] B. G. Kyle. Chemical and Process Thermodynamics. New Jersey – United State of America. Prentice – Hall in Englewood Cliffs ISBN 10 0131286374. 1984

[52] Jorge Coeiro, Mark Pettigrew, John Simmons, Nassia Tzelepi. Solid Oxide Fuel Cell (SOFC) Assessment. Glasglow – United Kingdom. Diakses dari esru.strath.ac.uk /EandE /Web_sites /99-00 /bio_fuel_cells /groupproject /library /sofcassess /pageframe.htm, 26 Januari 2020

[53] M. Lang, C. Bohn, M. Henke, G. Schiller, C. Willich, F. Hauler.

Understanding the Current – Voltage Behavior of High Temperature Solid Oxide Fuel Cell Stacks. Stuttgart – Germany. Journal of The Electrochemical Society, Volume 164, Number 13. 27 Oktober 2017 [54] E. Hosking, D.P. Kenny, R.I. McCormick, S.H. Moustapha, P.Sampath,

A.A. Smailys. The PW 100 Engine: 20 Years of Gas Turbine Technology Evolution. Longueuil – Canada. RTO AVT Symposium on Design Principles and Methods for Aircraft Gas Turbine Engines. Mei 1998 [55] Pratt and Whitney Canada Crop. Type-Certificate Data Sheet No. Im.E.041

for Engine PW100 Series Engine. European Aviation Safety Agency TE.CERT.0052-001 TCDS No.: IM.E.041 Issue: 04. Maret 2018.

[56] Gouzhen Li. The Hydrogen Fuel Pathway for Air Transportation.

California – United States of America. Degree of Master Science in Transportation Technology and Policy of the University of California Davis. 2015