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Erschienen in:
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2018 | OriginalPaper | Buchkapitel

3. Review of Renewable Biofuels in the Aviation Sector

verfasst von : Derya Unlu, Nilufer Durmaz Hilmioglu

Erschienen in: Advances in Sustainable Aviation

Verlag: Springer International Publishing

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Abstract

The air transport industry has a significant effect on air pollution. Usage of petroleum-derived fuels is responsible for greenhouse gas emissions. Also, these fuels have a high cost. Therefore, development of alternative biofuel from renewable feedstock gains importance. Renewable and sustainable biofuels must be produced and used for the all vehicle engines. This study is related to the synthesis of biofuels and production process. Renewable feedstocks, biofuels, and their production processes are explained.

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Vorheriges Kapitel Ignition Performances of Alternative Fuels Under Altitude Conditions According to Their Aromatic Content
Nächstes Kapitel Case Study of Alternative Jet Fuel Production with Bio-additives from Plant Oils in Ukraine and Poland
Literatur
1.
Köhler, J., Walz, R., Marscheder-Weidemann, F., & Thedieck, B. (2014). Lead markets in 2nd generation biofuels for aviation: A comparison of Germany, Brazil and the USA. Environmental Innovation and Social Transitions, 10, 59–76.CrossRef
2.
Blakey, S., Rye, L., & Wilson, C. W. (2011). Aviation gas turbine alternative fuels: A review. Proceedings of the Combustion Institute, 33, 2863–2885.CrossRef
3.
Upham, P., Tomei, J., & Boucher, P. (2009). Biofuels, aviation and sustainability: Prospects and limits. In S. Gössling & P. Upham (Eds.), Climate change and aviation: Issues, challenges and solutions (1st ed., pp. 309–320). London: Earthscan.
4.
Chiaramonti, D., Prussi, M., Buffi, M., & Tacconi, D. (2014). Sustainable bio kerosene: Process routes and industrial demonstration activities in aviation biofuels. Applied Energy, 136, 767–774.CrossRef
5.
Cantarella, H., Nassar, A. M., Cortez, L. A. B., & Junior, R. B. (2015). Potential feedstock for renewable aviation fuel in Brazil. Environmental Development, 15, 52–63.CrossRef
6.
Sandquist, J., & Güell, B. M. (2012). Overview of biofuels for aviation. Chemical Engineering Transactions, 29, 1147–1152.
7.
Han, J., Elgowainy, A., Cai, H., & Wang, M. Q. (2013). Life-cycle analysis of bio-based aviation fuels. Bioresource Technology, 150, 447–456.CrossRef
8.
Atsonios, K., Kougioumtzis, M. A., Panopoulos, K. D., & Kakaras, E. (2015). Alternative thermochemical routes for aviation biofuels via alcohols synthesis: Process modeling, techno-economic assessment and comparison. Applied Energy, 138, 346–366.CrossRef
9.
Cremonez, P. A., Feroldi, M., Araújo, A. V., Borges, M. N., Meier, T. W., Feiden, A., & Teleken, J. G. (2015). Biofuels in Brazilian aviation: Current scenario and prospects. Renewable and Sustainable Energy Reviews, 43, 1063–1072.CrossRef
10.
Hari, T. K., Yaakob, Z., & Binitha, N. N. (2015). Aviation biofuel from renewable resources: Routes, opportunities and challenges. Renewable and Sustainable Energy Reviews, 42, 1234–1244.CrossRef
11.
Kivits, R., Charles, M. B., & Ryan, N. (2010). A post-carbon aviation future: Airports and the transition to a cleaner aviation sector. Futures, 42, 199–211.CrossRef
12.
Gegg, P., Budd, L., & Ison, S. (2014). The market development of aviation biofuel: Drivers and constraints. Journal of Air Transport Management, 39, 34–40.CrossRef
13.
Pągowski, Z. T. (2003). New perspectives for biofuels in aviation. Journal of KONES Internal Combustion Engines, 10, 3–4.
14.
Zhang, C., Hui, X., Lin, Y., & Sung, C. J. (2016). Recent development in studies of alternative jet fuel combustion: Progress, challenges, and opportunities. Renewable and Sustainable Energy Reviews, 54, 120–138.CrossRef
15.
Zhang, Y., Bi, P., Wang, J., Jiang, P., Wu, X., Xue, H., Liu, J., Zhou, X., & Li, Q. (2015). Production of jet and diesel biofuels from renewable lignocellulosic biomass. Applied Energy, 150, 128–137.CrossRef
16.
Winchester, N., Malina, R., Staples, M. D., & Barrett, S. R. H. (2015). The impact of advanced biofuels on aviation emissions and operations in the U.S. Energy Economics, 49, 482–491.CrossRef
17.
Chuck, C. J., & Donnelly, J. (2014). The compatibility of potential bioderived fuels with Jet A-1 aviation kerosene. Applied Energy, 118, 83–91.CrossRef
18.
Cardona, C. A., Orrego, C. E., & Paz, I. C. (2009). The potential for production of bioethanol and bioplastic from potato starch in Colombia. Fruit, Vegetable and Cereal Science and Biotechnology, 3, 102–114.
19.
Cherubini, F. (2010). The biorefinery concept: Using biomass instead of oil for producing energy and chemicals. Energy Conversion and Management, 51, 1412–1421.CrossRef
20.
Badger, P. C. (2002). Ethanol from cellulose: A general review. In J. Janick & A. Whipkey (Eds.), Trends in new crops and new uses (pp. 17–21). Alexandria: ASHS Press.
21.
Ahmia, A. C., Danane, F., Bessah, R., & Boumesbah, I. (2014). Raw material for biodiesel production. Valorization of used edible oil. Revue des Energies Renouvelables, 17(2), 335–343.
22.
Burns, N. A. (2010). Biomass—the next revolution in surfactants. International News on Fats, Oils and Related Materials, 21(12), 717–780.
23.
Escobar, J. C., Lora, E. S., Venturini, O. J., Yanez, E. E., Castillo, E. F., & Almazan, O. (2009). Biofuels: Environment, technology and food security. Renewable & Sustainable Energy Reviews, 13, 1275–1287.CrossRef
24.
Demirbaş, A. (2005). Bioethanol from cellulosic materials: A renewable motor fuel from biomass. Energy Source Part A, 27, 327–337.CrossRef
25.
Almarsdóttir A.R., & Gunnarsson I.B. (2009). Framleiðsla etanóls úr flóknum lífmassa með hitakærum bakteríum. University of Akureyri.
26.
Demirbaş, A. (2007). Progress and recent trends in biofuels. Progress in Energy and Combustion Science, 33, 1–18.CrossRef
27.
Naik, S. N., Goud, V. V., Rout, P. K., & Dalai, A. K. (2010). Production of first and second generation biofuels: A comprehensive review. Renewable and Sustainable Energy Reviews, 14, 578–597.CrossRef
28.
Hileman, J.I., Ortiz, D.S., Bartis, J.T., Wong, H.M., Donohoo, P.E., Weiss, M.A., Waitz, I.A. (2009). Near-term feasibility of alternative jet fuels. Technical Report.
29.
Corporan, E., DeWitt, M. J., Belovich, V., & Pawlik, R. (2007). Emissions characteristics of a turbine engine and research combustor burning a Fischer-Tropsch jet fuel. Energy Fuel, 21, 2615–2626.CrossRef
30.
Lobo, P., Hagen, D. E., & Whitefield, P. D. (2011). Comparison of PM emissions from a commercial jet engine burning conventional, biomass, and Fischer Tropsch fuels. Environmental Science & Technology, 45, 10744–10749.CrossRef
31.
DeWitt, M. J., Corporan, E., Graham, J., & Donald Minus, D. (2008). Effects of aromatic type and concentration in Fischer-Tropsch fuel on emissions production and material compatibility. Energy Fuel, 22, 2411–2418.CrossRef
32.
33.
Garba, M. U., Alhassan, M., & Kovo, A. S. (2006). A review of advances and quality assessment of biofuels. Leonardo Journal of Sciences, 9, 167–178.
34.
Monlau, F., Barakat, A., Trably, E., Dumas, C., Steyer, J. P., & Carrère, H. (2013). Lignocellulosic materials into biohydrogen and biomethane: Impact of structural features and pretreatment. Critical Reviews in Environmental Science and Technology, 43, 260–322.CrossRef
35.
Contreras, A., Yigit, S., Ozay, K., & Veziroglu, T. N. (1997). Hydrogen as aviation fuel: A comparison with hydrocarbon fuels. International Journal of Hydrogen Energy, 22, 1053–1060.CrossRef
36.
Koroneos, C., Dompros, A., Roumbas, G., & Moussiopoulos, N. (2005). Advantages of the use of hydrogen fuel as compared to kerosene. Resources, Conservation and Recycling, 44, 99–113.CrossRef
37.
Pohl, H. W., & Malychevc, V. V. (1997). Hydrogen in future civil aviation. International Journal of Hydrogen Energy, 22, 1061–1069.CrossRef
38.
39.
Hui, X., Kumar, K., Sung, C. J., Edwards, T., & Gardner, D. (2012). Experimental studies on the combustion characteristics of alternative jet fuels. Fuel, 98, 176–182.CrossRef
40.
Pearlson, M., Wollersheim, C., & Hileman, J. (2013). A techno-economic review of hydroprocessed renewable esters and fatty acids for jet fuel production. Biofuel Bioproducts and Biorefining, 7, 89–96.CrossRef
41.
42.
Yılmaz, İ., İlbaş, M., Taştan, M., & Tarhan, C. (2012). Investigation of hydrogen usage in aviation industry. Energy Conversion and Management, 63, 63–69.CrossRef
43.
Saratale, G. D., Chen, S. D., Lo, Y. C., Saratale, R. J., & Chang, J. S. (2008). Outlook of biohydrogen production from lignocellulosic feedstock using dark fermentation – a review. Journal of Scientific and Industrial Research, 67, 962–979.
44.
Metadaten
Titel
Review of Renewable Biofuels in the Aviation Sector
verfasst von
Derya Unlu
Nilufer Durmaz Hilmioglu
Copyright-Jahr
2018
Buch
Advances in Sustainable Aviation

Print ISBN: 978-3-319-67133-8

Electronic ISBN: 978-3-319-67134-5

Copyright-Jahr: 2018

DOI
https://doi.org/10.1007/978-3-319-67134-5_3

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