Evolving Green Aviation Transport System: A Hoilistic Approah to Sustainable Green Market Development

Abstract

Aviation is one of the fastest growing industries as well as transportation modes in the world. Global aviation contributes about 2% of global greenhouse gas emissions and supports 8% of the world economic activity in terms of GDP. With the phenomenal growth in air trafficking by the national and international airliners the total carbon space available for flying is getting progressively diminished and the consequential emission levels are also becoming alarming over passage of time. The paper describes the concept of evolution of Green Transport system with focus on manufacturing of green aircraft and sustainable green marketing involving green supply chain. This entails introduction of New and innovative technologies, including aircraft designing, improving operational efficiency, air traffic control & monitoring etc; combined with emission mitigation efforts towards sustainable growth of the industry, can make enormous improvements in emission control and reduction in a planned and system-based manner. These integrated approaches are proposed to be used to harmonize the systems and processes that can essentially constitute the suggested framework of the Green Aviation Transport system. The paper, inter alia, discusses various conceptual, strategic, technological and economic and environmental dimensions of the Green Aviation transport system with focus on creating new Green Marketing opportunities for the aviation industry in future.

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A. Sarkar, "Evolving Green Aviation Transport System: A Hoilistic Approah to Sustainable Green Market Development," American Journal of Climate Change, Vol. 1 No. 3, 2012, pp. 164-180. doi: 10.4236/ajcc.2012.13014.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Green Transport, “Resource Optimization in the Road Sector in PRC Main Report—Analysis and Policy Recommendations (Draft),” 2008.
[2] EPA, “Draft Inventory of US Greenhouse Gas Emissions and Sinks: 1990-2010,”
[3] IPCC, “IPCC Special Report Aviation and the Global Atmosphere,” 1999.
[4] IPCC Working Group III, “The Fourth Assessment Report: Climate Change 2007—Mitigation of Climate Change, Chapter 5: Transport and Its Infrastructure,” Data source is from World Bank, 2004.
[5] U. Eichhorst, “Adapting Urban Transport to Climate Change,” In: GTZ, Ed., Sustainable Transport: A Sourcebook for Policy Makers in Developing Cities, Germany, 2009. http://www.sutp.org/index.php?option=com_docman&task=cat_view&gid=29&Itemid=54&lang=en
[6] L. Tarrason, et al., “Study on Air Quality Impacts of Non- LTO Emissions from Aviation”, NMI, 2004.
[7] S. R. H. Barrett, et al., “Global Mortality Attributable to Aircraft Cruise Emissions”, Environmental Science & Technology, 2010, Vol. 44, No. 19, pp. 7736-7742. doi:10.1021/es101325r
[8] GAO, “Report to Congressional Committees: Aviation and Climate Change,” United States Government Accountability Office, 2009.
[9] Environmental Protection Agency, “Inventory of US Greenhouse Gas Emissions and Sinks,” 1990-2001. http://yosemite.epa.gov/oar/globalwarming.nsf/UniqueKeyLookup/LHOD5MJQ6G/$File/2003-final-inventory.pdf, April 15, 2003. Estimates are presented in units of terra-grams of carbon dioxide equivalents (Tg CO2 Eq.), which weight each gas (e.g., CO2 and NOx) by its Global Warming Potential, or GWP, value
[10] ICAO, Environmental Report 2010, Chapter 2.
[11] National Aeronautics and Space Administration, “Environmentally Responsible Aviation (ERA) Project Partnership for Air Transportation Noise and Emissions Reduction (PARTNER),” NASA, 2008.
[12] Airbus, “Global Market Forecast 2000-2019 Toulouse,” Fr: Airbus Ind., 2007.
[13] Boeing, “Current Market Outlook, ”, Boeing Co., Seattle, 2008.
[14] IPCC, “Report on Aviation and the Global Atmosphere, Conducted at the Request of the International Civil Aviation Organization,” 1999.
[15] Carbon footprint. http://www.2celsius.org/new/2011/01/03/aviation-industrys-attempt-at-flying-green/
[16] ATAG, “ATAG and GARDN Sign Agreement to Promote Environmental Research in Aviation,” 2012. http://www.newswire.ca/en/story/943107/atag-and-gardn-sign-agreement-to-promote-environmental-research-in-aviation
[17] Imperial College London, “Green Aviation 2011: A Symposium,” organized by the Green Aviation Forum of Imperial College London, 2011. https://workspace.imperial.ac.uk/greenaviation/Public/Green%20Aviation%202011.pdf
[18] IATA, “Aviation and Climate Change Pathway to Carbon-Neutral Growth in 2020,” 2009. http://www.iata.org/SiteCollectionDocuments/AviationClimateChange_PathwayTo2020_email.pdf
[19] GAO, “Aviation and the Environment: NextGen and Research and Development Are Keys to Reducing Emissions and Their Impact on Health and Climate,” Statement of Gerald L. Dillingham, 2008.
[20] Design Science and Technology Sub-Group, “Greener by Design, Mitigating the Environmental Impact of Aviation: Opportunities and Priorities,” Report of the Greener by Design Science and Technology Sub-Group, 2005.
[21] D. McCollum, G. Gould and D. Greene, “Greenhouse Gas Emissions from Aviation and Marine Transportation: Mitigation Potential and Policies,” Prepared for the Pew Center on Global Climate Change, 2009.
[22] A. Jane, J. A. Leggett, Elias, Bart and D. T. Shedd, “Avia- tion and the European Union’s Emission Trading Sche- me”, CRS Report for Congress, Congressional Research Service, 2012 www.crs.gov
[23] N. Moharamnejad and S. Azarkamand, “Implementation of Green Productivity Management in Airline Industry,” International Journal of Environmental Science and Technology, Vol. 4, No. 1, 2007, pp. 151-158.
[24] “The Potential for Renewable Energy Sources in Aviation,” http://www.iccept.ic.ac.uk/pdfs/PRESAV%20final%20report%2003Sep03.pdf
[25] G. Rotorcraft, “Clean Sky Joint Technology Initiative,” 7th Framework Programme, Green Rotorcraft ITD CA version 1, 2009.
[26] K. Lumpur, “Carbon-Neutral Growth by 2020,” 2009. http://www.iata.org/pressroom/pr/Pages/2009-06-08-03.aspx
[27] ICCT, “Efficiency Trends for New Commercial Jet Aircraft,” 2009.
[28] NRC, “NRC Meeting of Experts on NASA’s Plans for System-Level Research in Environmental Mitigation,” National Harbor, MD, 2009. http://www.aeronautics.nasa.gov/calendar/20090514.htm
[29] GBI Research Group, “Green Aviation Market to 2020— Stringent Regulations to Drive Investment in Green Tech- nologies,” 2010.
[30] S. Baughcun, et al., “Scheduled Aircraft Emission Inventories for 1992,” Database Development and Analysis, NASA Contract Report No. 4700, NASA Langley Research Centre, 1996.
[31] Green Aviation & Logistics Group. http://www.cssgroupsite.com/lighthouse/green-aviation-logtics-group-realises-its-vision-towards-protecting-the-environment/
[32] Sustainable (Green) Aviation, 2012. http://web2.aiaa.org/CourseDetail.aspx?id=4601
[33] J. Akermann, “Sustainable Air Transport—on Track in 2050,” 2005.
[34] Air Transport Action Group (ATAG, 2010), “Beginner’s Guide to Aviation Efficiency,” www.enviro.aero

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