Measuring the environmental efficiency of the global aviation fleet

This research analyses the environmental footprint of the airline industry in an attempt to highlight potential paths for improvement. We develop a directional economic-environmental distance function (DEED) which accounts for the production of both desirable and undesirable output and the potential for constrained increases in input utilization. This research applies the modeling framework to analyze the potential to reduce noise and airborne pollutants emitted by aircraft–engine combinations given the current state of aeronautical technology. The global aircraft–engine market is viewed from the regulatory perspective in order to compare the single environmental and operational efficient frontier to that of the airline carriers, and environmental objectives. The results of DEED are then applied in order to substitute the fleets serving Schipol, Amsterdam and Arlanda, Stockholm airports in June 2010 with the benchmark aircraft. The results highlight the inefficiencies of the current airline fleets and that the IPCC values of externalities are a magnitude of TEN too low to encourage changes in the global fleet hence the need for government intervention.

[1]  Holger Scheel,et al.  Undesirable outputs in efficiency valuations , 2001, Eur. J. Oper. Res..

[2]  P. Rietveld,et al.  The environmental implications of airlines' choice of aircraft size , 2010 .

[3]  Cherie Lu,et al.  Determination and Applications of Environmental Costs at Different Sized Airports – Aircraft Noise and Engine Emissions , 2003 .

[4]  Philip Lawrence,et al.  Meeting the challenge of aviation emissions: an aircraft industry perspective , 2009, Technol. Anal. Strateg. Manag..

[5]  Jasper Dekkers,et al.  How Much Noise Reduction at Airports , 2007 .

[6]  Cynthia Barnhart,et al.  The Global Airline Industry , 2009 .

[7]  R. Färe,et al.  Profit, Directional Distance Functions, and Nerlovian Efficiency , 1998 .

[8]  Boaz Golany,et al.  Foundations of data envelopment analysis for Pareto-Koopmans efficient empirical production functions , 1985 .

[9]  G. Debreu The Coefficient of Resource Utilization , 1951 .

[10]  Tae Hoon Oum,et al.  Air transport liberalization and airport slot allocation: The case of the Northeast Asian transport market , 2014 .

[11]  Kenneth Button,et al.  Transport and the environment , 1999 .

[12]  Youdi Schipper,et al.  Environmental costs in European aviation , 2004 .

[13]  Rolf Färe,et al.  Environmental production functions and environmental directional distance functions , 2007 .

[14]  Adi Raveh,et al.  Presenting DEA graphically , 2008 .

[15]  S. Baughcum,et al.  Scheduled civil aircraft emission inventories for 1992: Database development and analysis , 1996 .

[16]  R. Doganis Flying Off Course: The Economics of International Airlines , 1985 .

[17]  Rolf Färe,et al.  Directional distance functions and slacks-based measures of efficiency , 2010, Eur. J. Oper. Res..

[18]  Jan K. Brueckner,et al.  Airline Emission Charges: Effects on Airfares, Service Quality, and Aircraft Design , 2009, SSRN Electronic Journal.

[19]  Abraham Charnes,et al.  Measuring the efficiency of decision making units , 1978 .

[20]  M. Farrell The Measurement of Productive Efficiency , 1957 .

[21]  Anshuman Khare,et al.  Aviation Industry: Mitigating Climate Change Impacts through Technology and Policy , 2010 .

[22]  Jos Dings External costs of aviation , 2002 .

[23]  J. E. Green,et al.  The potential for reducing the impact of aviation on climate , 2009, Technol. Anal. Strateg. Manag..

[24]  Nicole Adler,et al.  Aircraft trip cost parameters: A function of stage length and seat capacity , 2006 .

[25]  Ian A. Waitz,et al.  The historical fuel efficiency characteristics of regional aircraft from technological, operational, and cost perspectives , 2002 .

[26]  Ian A. Waitz,et al.  Air Transport and the Environment , 2009 .

[27]  Philippe A. Bonnefoy,et al.  Air transportation in a carbon constrained world: Long-term dynamics of policies and strategies for mitigating the carbon footprint of commercial aviation , 2011 .

[28]  F. Hernández-Sancho,et al.  Directional distance functions and environmental regulation , 2005 .

[29]  Jan K. Brueckner,et al.  Airport Noise Regulation, Airline Service Quality, and Social Welfare , 2006, SSRN Electronic Journal.