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Model aided policy development for the market penetration of natural gas vehicles in Switzerland

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  • Janssen, Arthur
  • Lienin, Stephan F.
  • Gassmann, Fritz
  • Wokaun, Alexander

Abstract

Introduction of alternative fuels in the passenger car fleet is widely discussed in the light of emission reductions. Worldwide experiences show that the market introduction depends on the actions of many stakeholders, like car industry, fuel companies and consumers. The process demands well-timed actions and investments, whilst economic chances and risks are distributed highly unequally. Policy makers set the framework conditions, although the influence of the height and timing of subsidies, tax reductions and other stimulation policies are not well understood yet. The market introduction of alternative fuel vehicles was studied with the example of natural gas cars in Switzerland. Stakeholder analysis and system dynamics modeling techniques were used to characterize the system. Analyses identify difficulties and chances in the market penetration process of natural gas cars. For example, a critical balance between fueling station upgrade investments and natural gas car sales is needed. Further, it is found that large time delays exist between strategic policy actions and frequently used market penetration indicators (e.g. car sales and infrastructure expansion), limiting the ability of policy makers to assess the performance of their strategy. Referring to elements of the Balanced Scorecard approach, a set of five alternative indicators is proposed to better measure the performance of the implemented strategy.

Suggested Citation

  • Janssen, Arthur & Lienin, Stephan F. & Gassmann, Fritz & Wokaun, Alexander, 2006. "Model aided policy development for the market penetration of natural gas vehicles in Switzerland," Transportation Research Part A: Policy and Practice, Elsevier, vol. 40(4), pages 316-333, May.
    • Handle: RePEc:eee:transa:v:40:y:2006:i:4:p:316-333
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    References listed on IDEAS

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    Cited by:

    1. Oliveira, Gabriela D. & Roth, Richard & Dias, Luis C., 2019. "Diffusion of alternative fuel vehicles considering dynamic preferences," Technological Forecasting and Social Change, Elsevier, vol. 147(C), pages 83-99.
    2. Ravigné, E. & Da Costa, P., 2021. "Economic and environmental performances of natural gas for heavy trucks: A case study on the French automotive industry supply chain," Energy Policy, Elsevier, vol. 149(C).
    3. Zhang, Yong & Yu, Yifeng & Zou, Bai, 2011. "Analyzing public awareness and acceptance of alternative fuel vehicles in China: The case of EV," Energy Policy, Elsevier, vol. 39(11), pages 7015-7024.
    4. Tao, Hu & Zhuang, Shan & Xue, Rui & Cao, Wei & Tian, Jinfang & Shan, Yuli, 2022. "Environmental Finance: An Interdisciplinary Review," Technological Forecasting and Social Change, Elsevier, vol. 179(C).
    5. Yeh, Sonia, 2007. "An empirical analysis on the adoption of alternative fuel vehicles:The case of natural gas vehicles," Institute of Transportation Studies, Working Paper Series qt2k09h787, Institute of Transportation Studies, UC Davis.
    6. Adrián Saldarriaga-Isaza, C. & Vergara, Carlos, 2009. "Who switches to hybrids? A study of a fuel conversion program in Colombia," Transportation Research Part A: Policy and Practice, Elsevier, vol. 43(5), pages 572-579, June.
    7. Imran Khan, Muhammad, 2017. "Policy options for the sustainable development of natural gas as transportation fuel," Energy Policy, Elsevier, vol. 110(C), pages 126-136.
    8. Wiedmann, Klaus-Peter & Hennigs, Nadine & Pankalla, Lars & Kassubek, Martin & Seegebarth, Barbara, 2011. "Adoption barriers and resistance to sustainable solutions in the automotive sector," Journal of Business Research, Elsevier, vol. 64(11), pages 1201-1206.
    9. Harrison, Gillian & Thiel, Christian, 2017. "An exploratory policy analysis of electric vehicle sales competition and sensitivity to infrastructure in Europe," Technological Forecasting and Social Change, Elsevier, vol. 114(C), pages 165-178.
    10. Jiali Yu & Peng Yang & Kai Zhang & Faping Wang & Lixin Miao, 2018. "Evaluating the Effect of Policies and the Development of Charging Infrastructure on Electric Vehicle Diffusion in China," Sustainability, MDPI, vol. 10(10), pages 1-25, September.
    11. Wang, Hongxia & Fang, Hong & Yu, Xueying & Wang, Ke, 2015. "Development of natural gas vehicles in China: An assessment of enabling factors and barriers," Energy Policy, Elsevier, vol. 85(C), pages 80-93.
    12. Shafiei, Ehsan & Davidsdottir, Brynhildur & Leaver, Jonathan & Stefansson, Hlynur & Asgeirsson, Eyjolfur Ingi, 2014. "Potential impact of transition to a low-carbon transport system in Iceland," Energy Policy, Elsevier, vol. 69(C), pages 127-142.
    13. Yeh, Sonia, 2007. "An empirical analysis on the adoption of alternative fuel vehicles:The case of natural gas vehicles," Institute of Transportation Studies, Working Paper Series qt92h7g194, Institute of Transportation Studies, UC Davis.
    14. Khan, Muhammad Imran & Yasmeen, Tabassam & Khan, Muhammad Ijaz & Farooq, Muhammad & Wakeel, Muhammad, 2016. "Research progress in the development of natural gas as fuel for road vehicles: A bibliographic review (1991–2016)," Renewable and Sustainable Energy Reviews, Elsevier, vol. 66(C), pages 702-741.
    15. Larizzatti Zacharias, Luis Guilherme & Antunes Costa de Andrade, Ana Clara & Guichet, Xavier & Mouette, Dominique & Peyerl, Drielli, 2022. "Natural gas as a vehicular fuel in Brazil: Barriers and lessons to learn," Energy Policy, Elsevier, vol. 167(C).
    16. Jose J. Soto & Victor Cantillo & Julian Arellana, 2018. "Incentivizing alternative fuel vehicles: the influence of transport policies, attitudes and perceptions," Transportation, Springer, vol. 45(6), pages 1721-1753, November.
    17. Shepherd, Simon & Bonsall, Peter & Harrison, Gillian, 2012. "Factors affecting future demand for electric vehicles: A model based study," Transport Policy, Elsevier, vol. 20(C), pages 62-74.
    18. Gnann, Till & Plötz, Patrick, 2015. "A review of combined models for market diffusion of alternative fuel vehicles and their refueling infrastructure," Renewable and Sustainable Energy Reviews, Elsevier, vol. 47(C), pages 783-793.
    19. Pasaoglu, Guzay & Harrison, Gillian & Jones, Lee & Hill, Andrew & Beaudet, Alexandre & Thiel, Christian, 2016. "A system dynamics based market agent model simulating future powertrain technology transition: Scenarios in the EU light duty vehicle road transport sector," Technological Forecasting and Social Change, Elsevier, vol. 104(C), pages 133-146.
    20. Arteconi, A. & Polonara, F., 2013. "LNG as vehicle fuel and the problem of supply: The Italian case study," Energy Policy, Elsevier, vol. 62(C), pages 503-512.
    21. Blanco, Herib & Gómez Vilchez, Jonatan J. & Nijs, Wouter & Thiel, Christian & Faaij, André, 2019. "Soft-linking of a behavioral model for transport with energy system cost optimization applied to hydrogen in EU," Renewable and Sustainable Energy Reviews, Elsevier, vol. 115(C).
    22. Mohammadreza Zolfagharian & Bob Walrave & A. Georges L. Romme & Rob Raven, 2020. "Toward the Dynamic Modeling of Transition Problems: The Case of Electric Mobility," Sustainability, MDPI, vol. 13(1), pages 1-23, December.
    23. Ponzo, Ricardo & Dyner, Isaac & Arango, Santiago & Larsen, Erik R., 2011. "Regulation and development of the Argentinean gas market," Energy Policy, Elsevier, vol. 39(3), pages 1070-1079, March.
    24. Yeh, Sonia, 2007. "An empirical analysis on the adoption of alternative fuel vehicles: The case of natural gas vehicles," Energy Policy, Elsevier, vol. 35(11), pages 5865-5875, November.
    25. Martin Zsifkovits & Markus Günther, 2015. "Simulating resistances in innovation diffusion over multiple generations: an agent-based approach for fuel-cell vehicles," Central European Journal of Operations Research, Springer;Slovak Society for Operations Research;Hungarian Operational Research Society;Czech Society for Operations Research;Österr. Gesellschaft für Operations Research (ÖGOR);Slovenian Society Informatika - Section for Operational Research;Croatian Operational Research Society, vol. 23(2), pages 501-522, June.

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