Towards a more sustainable surface transport infrastructure: a case study of applying multi criteria analysis techniques to assess the sustainability of transport noise reducing devices

The surface transport infrastructure (i.e. road and rail) has seen increasing pressure in recent years to achieve better sustainability performance. Transport Noise Reducing Devices (NRDs) form a major part of the surface transport infrastructure system in mitigating undesirable surface noise pollution to impacted communities. Their sustainability is a growing interest for practitioners and policy makers in this area as NRDs projects now have to balance integrating and assessing social, environmental, and economic objectives besides meeting key technical requirements. This paper presents an account of the first study carried out to assess the absolute sustainability of NRDs via the application of multi criteria analysis (MCA) techniques. The general procedure, selection of criteria, data gathering, and the use of three MCA techniques, SAW (Simple Additive Weighting), PROMETHEE (Preference Ranking Organisation MeTHod for Enrichment Evaluations), and ELECTRE III (Elimination et Choice Translating Reality), to assess the absolute sustainability of two built and operating European NRDs projects (one in Spain, and one in Italy) is presented. The novel concept of defining an Optimal Hypothetic Ideal Solution (OHIS) to assess the sustainability of NRDs in absolute terms to achieve this end is also introduced and discussed. The presented case studies will thus provide a useful model for practitioners to adopt or amend to conduct their own assessments of NRDs' sustainability. The paper further concludes that the generation of index values by the three MCA techniques to denote the overall absolute sustainability of solutions is a useful feature for communicating the sustainability of NRDs across a broad range of stakeholders, and for conducting “what-if” analyses. The presented research could also support broader aims of developing harmonized sustainability standards for the NRDs industry to adopt and so forward the sustainability transport agenda.

[1]  Bernard Roy,et al.  Problems and methods with multiple objective functions , 1971, Math. Program..

[2]  M. El-Haram,et al.  A framework model for assessing sustainability impacts of urban development , 2009 .

[3]  G. R. Watts,et al.  Transport infrastructure: making more sustainable decisions for noise reduction , 2013 .

[4]  Stephen M. Redpath,et al.  Using Decision Modeling with Stakeholders to Reduce Human–Wildlife Conflict: a Raptor–Grouse Case Study , 2004 .

[5]  Ching-Lai Hwang,et al.  Multiple attribute decision making : an introduction , 1995 .

[6]  N. Olewiler Environmental sustainability for urban areas: The role of natural capital indicators , 2006 .

[7]  Franklin Farell Roadmap to a Single European Transport Area: Towards a competitive and resource efficient transport system , 2014 .

[8]  Mohan M. Kumaraswamy,et al.  Sustainability appraisal in infrastructure projects (SUSAIP) , 2005, Automation in Construction.

[9]  Erwin M. Schau,et al.  Towards Life Cycle Sustainability Assessment , 2010 .

[10]  Ni-Bin Chang,et al.  Integrated carbon footprint and cost evaluation of a drinking water infrastructure system for screening expansion alternatives , 2012 .

[11]  Stefano Tarantola,et al.  Sensitivity Analysis in Practice: A Guide to Assessing Scientific Models , 2004 .

[12]  Barry J. Adams,et al.  Developing sustainability criteria for urban infrastructure systems , 2005 .

[13]  R. Ashley,et al.  Sustainable Water Services: a Procedural Guide , 2004 .

[14]  K. D. Rothley,et al.  DESIGNING BIORESERVE NETWORKS TO SATISFY MULTIPLE, CONFLICTING DEMANDS , 1999 .

[15]  Dicksen Tanzil,et al.  Transforming sustainability strategy into action : the chemical industry , 2005 .

[16]  Crina Oltean-Dumbrava,et al.  Procurement of Sustainable Noise-Reducing Devices: State-of-the-Art Review from EU Project QUIESST , 2012 .

[17]  Ni-Bin Chang,et al.  An AHP-based fuzzy interval TOPSIS assessment for sustainable expansion of the solid waste management system in Setúbal Peninsula, Portugal , 2011 .

[18]  Rainer Brüggemann,et al.  Aspects of decision support in water management--example Berlin and Potsdam (Germany) I--spatially differentiated evaluation. , 2004, Water research.

[19]  Evangelos Triantaphyllou,et al.  Multi-criteria Decision Making Methods: A Comparative Study , 2000 .

[20]  M. Ramachandran,et al.  Application of multi-criteria decision making to sustainable energy planning--A review , 2004 .

[21]  Bertrand Mareschal,et al.  The PROMCALC & GAIA decision support system for multicriteria decision aid , 1994, Decis. Support Syst..

[22]  Emanuel Samouilidis,et al.  Project Ranking in the Armenian Energy Sector Using a Multicriteria Method for Groups , 2003, Ann. Oper. Res..

[23]  Crina Oltean-Dumbrava,et al.  “Top-Down-Bottom-Up” Methodology as a Common Approach to Defining Bespoke Sets of Sustainability Assessment Criteria for the Built Environment , 2014 .

[24]  Toru Nakamura WHITE PAPER, European transport policy for 2010 : time to decide , 2004 .

[25]  Roland Clift,et al.  Decision support methodology for complex contexts , 2008 .

[26]  A. Price,et al.  Managing for sustainability: findings from four company case studies in the UK precast concrete industry , 2010 .

[27]  Ron Janssen,et al.  Decision support for integrated wetland management , 2005, Environ. Model. Softw..

[28]  G. Herath Incorporating community objectives in improved wetland management: the use of the analytic hierarchy process. , 2004, Journal of environmental management.

[29]  Cengiz Kahraman,et al.  An integrated fuzzy multi-criteria decision making methodology for material handling equipment selection problem and an application , 2010, Expert Syst. Appl..

[30]  Jutta Geldermann,et al.  Development of a multiple criteria based decision support system for environmental assessment of recycling measures in the iron and steel making industry , 1998 .

[31]  Daniel Vanderpooten,et al.  Ranking projects for an electricity utility using ELECTRE III , 2007, Int. Trans. Oper. Res..

[32]  Marta Herva,et al.  Review of combined approaches and multi-criteria analysis for corporate environmental evaluation , 2013 .

[33]  Andrew S. Chang,et al.  Framework for developing construction sustainability items: the example of highway design , 2012 .

[34]  Anna L. Carew,et al.  Teaching sustainability as a contested concept: capitalizing on variation in engineering educators' conceptions of environmental, social and economic sustainability , 2008 .

[35]  P. Vincke,et al.  Note-A Preference Ranking Organisation Method: The PROMETHEE Method for Multiple Criteria Decision-Making , 1985 .

[36]  B. Roy THE OUTRANKING APPROACH AND THE FOUNDATIONS OF ELECTRE METHODS , 1991 .

[37]  R. Ashley,et al.  Sustainability Criteria for Decision Support in the UK Water Industry , 2002 .

[38]  G. Anand,et al.  Selection of lean manufacturing systems using the PROMETHEE , 2008 .

[39]  S. Bell,et al.  Sustainability Indicators: Measuring the Immeasurable? , 1999 .

[40]  Joachim H. Spangenberg,et al.  Design for Sustainability (DfS): the interface of sustainable production and consumption , 2010 .

[41]  A. Brent,et al.  Assessing the sustainability performances of industries , 2005 .