Research Article
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Year 2022, Volume: 5 Issue: 3, 241 - 248, 30.09.2022
https://doi.org/10.35208/ert.1109868

Abstract

References

  • [1]. Xiao, F., Hu, Z. H., Wang, K. X., and Fu, P. H. “Spatial distribution of energy consumption and carbon emission of regional logistics,” Sustainability, 7(7), 9140-9159, 2015.
  • [2]. Friedlingstein, P., Andrew, R.M., Rogelj, J., Peters, G.P., Canadell, J.G., Knutti, R.; Luderer, G., Raupach, M.R., Schaeffer, M. and Vuuren, D.P.V. “Persistent growth of CO2 emissions and implications for reaching climate targets”, Nat. Geosci. 7, 709–715, 2014.
  • [3]. Manabe, S. “Role of greenhouse gas in climate change”, Tellus A: Dynamic Meteorology and Oceanography, 71 (1), 1620078, 2019.
  • [4]. Wang, Q., Wang, S., and Li, R. “Determinants of decoupling economic output from carbon emission in the transport sector: A comparison study of four municipalities in China”, International Journal of Environmental Research and Public Health, 16 (19), 3729, 2019.
  • [5]. Ren, Y., and Fan, T. “Ecological land protection or carbon emission reduction? comparing the value neutrality of mainstream policy responses to climate change”, Forests, 12(12), 1789, 1-17, 2021.
  • [6]. Türk Standartları Enstitüsü (TSE). “Kurumsal karbon ayakizi”, Available: https://www.iso.org.tr/sanayi-kongresi/doc/Kurumsal_Karbon_Ayakizi_ISO_Kongre_TSE.pdf (accessed: 24 April 2022).
  • [7]. Zhang, S., Lee, C.K.M., Chan, H.K., Choy, K.L. and Wu, Z. “Swarm intelligence applied in green logistics: A literature review”, Engineering Applications Artificial Intelligence, 37, 154–169, 2015.
  • [8]. Corbett, C.J. and Klassen, R.D. “Extending the horizons: environmental excellence as key to improving operations”, Manufacturing and Service Operations Management, 8(1), 5-22, 2006.
  • [9]. Gonzalez, C., Korchia, M., Menuet, L. and Urbain, C. “How do socially responsible consumers consider consumption? An approach with the free associations method”, Recherche et Applications en Marketing (English Edition), 24(3), 25-41, 2009.
  • [10]. Mondal, P., Abhishek, K., Varun, A., Nitin, S., Prashant, V., Bhangale, U.D. and Dinesh, T. Critical review of trends in GHG emissions from global automotive sector. British Journal of Environment and Climate Change, 1(1), 1-12, 2011.
  • [11]. Krstanoski, N. "The Problem of Speeding In Macedonia: Reasons And Recommendations." Avaliable: https://scholar.googleusercontent.com/scholar?q=cache:pCupixEUWTkJ:scholar.google.com/+The+Problem+of+Speeding+In+Macedonia:+Reasons+And+Recommendations.%22+&hl=tr&as_sdt=0,5 (accessed: 26 April 2022).
  • [12]. Yang C., McCollum D., McCarthy R., and Leighty W. “Meeting an 80% reduction in greenhouse gas emissions from transportation by 2050: A case study in California”, Transportation Research Part D, 14, 147-156, 2009.
  • [13]. Piecyk, M. I., and McKinnon, A. C. “Forecasting the carbon footprint of road freight transport in 2020”, International Journal of Production Economics, 128(1), 31-42, 2010.
  • [14]. Bouchery, Y., Ghaffari, A., Jemai, Z., and Dallery, Y. (2012). “Including sustainability criteria into inventory models”, European Journal of Operational Research, 222(2), 229-240, 2012.
  • [15]. Chavez-Baeza, C. and Sheinbaum-Pardo, C. “Sustainable passenger road transport scenarios to reduce fuel consumption, air pollutants and GHG (greenhouse gas) emissions in the Mexico City Metropolitan Area”, Energy, 66, 624-634, 2014.
  • [16]. Quiros, DC., Smith, J., Thiruvengadam, A., Huai, T. andHu, SH. “Greenhouse gas emissions from heavy-duty natural gas, hybrid, and conventional diesel on road trucks during freight transport”, Atmospheric Environment, 36-45, 2017.
  • [17]. Gür, N.and Furuncu, Y. “Küresel otomotiv sektörünün değişimi ve yerli otomobil projesinin geleceği”, Siyaset, Ekonomi ve Toplum Araştırmaları Vakfı Yayınları, 127(1), 17-59, 2017.
  • [18]. Argun M. E., Ergüç R., and Sarı Y. “Konya/Selçuklu ilçesi karbon ayak izinin belirlenmesi”, Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 7(2), 287-297, 2019.
  • [19]. Bogacki, M. and Bździuch, P. “Predicting the spatial distribution of emissions from urban buses based on previously measured data and scenarios for their modernization in the future. Case study: Krakow, Poland”, Atmospheric Environment, 1-14, 2019.
  • [20]. Bilgili, L., Çetinkaya, A., and Kuzu, S. L. “Life cycle comparison of passenger air and rail transportation”, Environmental Research and Technology, 5(1), 44-49, 2022.
  • [21]. Pedhazur, E.J. “Multiple Regression in Behavioral Research: Explanation and Prediction, 2nd ed., Rinehart and Winston, USA. 1982.
  • [22]. Bewick, V., Cheek, L., and Ball, J. “Statistics review 9: One-way analysis of variance”. Critical Care, 8(2), 1-7, 2004.

Assessment of the highway logistics on carbon footprint

Year 2022, Volume: 5 Issue: 3, 241 - 248, 30.09.2022
https://doi.org/10.35208/ert.1109868

Abstract

Developing the quality of the types of greenhouse gasses used within the global environment and reducing carbon emissions are recognized as the main of current logistic changes policies. The paper aims to evaluate the contribution of the impact of highway logistics activity, one of the most important causes of carbon dioxide emissions, on the carbon footprint of the Southern Central Anatolian provinces. In this context, multiple regression analyses were conducted in three locations in the Southern Central Anatolian (Antalya, Kayseri, Konya) involving a total of 12 monthly highway logistics activities and carbon emissions. Before analysis, summarized the status of all logistic activities in the study area and collected data related to carbon emission in these regions. However, the coupling relationship between carbon emissions and logistic conditions in regions was calculated by the regression model. The carbon footprint linked to logistics, for Antalya was 87% (R=0.87), for Kayseri was 94% (R=0.94), and for Konya was 63% (R=0.63). It can be seen that, in the multiple regression analysis, Kayseri has a higher carbon footprint than Antalya and Konya when an estimation of the quantile was carbon footprint. The main academic contribution of this study brings a new perspective to the future assessment of environmental policies and prepares a quantitative principle for the implementation of future carbon footprint policies.

References

  • [1]. Xiao, F., Hu, Z. H., Wang, K. X., and Fu, P. H. “Spatial distribution of energy consumption and carbon emission of regional logistics,” Sustainability, 7(7), 9140-9159, 2015.
  • [2]. Friedlingstein, P., Andrew, R.M., Rogelj, J., Peters, G.P., Canadell, J.G., Knutti, R.; Luderer, G., Raupach, M.R., Schaeffer, M. and Vuuren, D.P.V. “Persistent growth of CO2 emissions and implications for reaching climate targets”, Nat. Geosci. 7, 709–715, 2014.
  • [3]. Manabe, S. “Role of greenhouse gas in climate change”, Tellus A: Dynamic Meteorology and Oceanography, 71 (1), 1620078, 2019.
  • [4]. Wang, Q., Wang, S., and Li, R. “Determinants of decoupling economic output from carbon emission in the transport sector: A comparison study of four municipalities in China”, International Journal of Environmental Research and Public Health, 16 (19), 3729, 2019.
  • [5]. Ren, Y., and Fan, T. “Ecological land protection or carbon emission reduction? comparing the value neutrality of mainstream policy responses to climate change”, Forests, 12(12), 1789, 1-17, 2021.
  • [6]. Türk Standartları Enstitüsü (TSE). “Kurumsal karbon ayakizi”, Available: https://www.iso.org.tr/sanayi-kongresi/doc/Kurumsal_Karbon_Ayakizi_ISO_Kongre_TSE.pdf (accessed: 24 April 2022).
  • [7]. Zhang, S., Lee, C.K.M., Chan, H.K., Choy, K.L. and Wu, Z. “Swarm intelligence applied in green logistics: A literature review”, Engineering Applications Artificial Intelligence, 37, 154–169, 2015.
  • [8]. Corbett, C.J. and Klassen, R.D. “Extending the horizons: environmental excellence as key to improving operations”, Manufacturing and Service Operations Management, 8(1), 5-22, 2006.
  • [9]. Gonzalez, C., Korchia, M., Menuet, L. and Urbain, C. “How do socially responsible consumers consider consumption? An approach with the free associations method”, Recherche et Applications en Marketing (English Edition), 24(3), 25-41, 2009.
  • [10]. Mondal, P., Abhishek, K., Varun, A., Nitin, S., Prashant, V., Bhangale, U.D. and Dinesh, T. Critical review of trends in GHG emissions from global automotive sector. British Journal of Environment and Climate Change, 1(1), 1-12, 2011.
  • [11]. Krstanoski, N. "The Problem of Speeding In Macedonia: Reasons And Recommendations." Avaliable: https://scholar.googleusercontent.com/scholar?q=cache:pCupixEUWTkJ:scholar.google.com/+The+Problem+of+Speeding+In+Macedonia:+Reasons+And+Recommendations.%22+&hl=tr&as_sdt=0,5 (accessed: 26 April 2022).
  • [12]. Yang C., McCollum D., McCarthy R., and Leighty W. “Meeting an 80% reduction in greenhouse gas emissions from transportation by 2050: A case study in California”, Transportation Research Part D, 14, 147-156, 2009.
  • [13]. Piecyk, M. I., and McKinnon, A. C. “Forecasting the carbon footprint of road freight transport in 2020”, International Journal of Production Economics, 128(1), 31-42, 2010.
  • [14]. Bouchery, Y., Ghaffari, A., Jemai, Z., and Dallery, Y. (2012). “Including sustainability criteria into inventory models”, European Journal of Operational Research, 222(2), 229-240, 2012.
  • [15]. Chavez-Baeza, C. and Sheinbaum-Pardo, C. “Sustainable passenger road transport scenarios to reduce fuel consumption, air pollutants and GHG (greenhouse gas) emissions in the Mexico City Metropolitan Area”, Energy, 66, 624-634, 2014.
  • [16]. Quiros, DC., Smith, J., Thiruvengadam, A., Huai, T. andHu, SH. “Greenhouse gas emissions from heavy-duty natural gas, hybrid, and conventional diesel on road trucks during freight transport”, Atmospheric Environment, 36-45, 2017.
  • [17]. Gür, N.and Furuncu, Y. “Küresel otomotiv sektörünün değişimi ve yerli otomobil projesinin geleceği”, Siyaset, Ekonomi ve Toplum Araştırmaları Vakfı Yayınları, 127(1), 17-59, 2017.
  • [18]. Argun M. E., Ergüç R., and Sarı Y. “Konya/Selçuklu ilçesi karbon ayak izinin belirlenmesi”, Selçuk Üniversitesi Mühendislik, Bilim ve Teknoloji Dergisi, 7(2), 287-297, 2019.
  • [19]. Bogacki, M. and Bździuch, P. “Predicting the spatial distribution of emissions from urban buses based on previously measured data and scenarios for their modernization in the future. Case study: Krakow, Poland”, Atmospheric Environment, 1-14, 2019.
  • [20]. Bilgili, L., Çetinkaya, A., and Kuzu, S. L. “Life cycle comparison of passenger air and rail transportation”, Environmental Research and Technology, 5(1), 44-49, 2022.
  • [21]. Pedhazur, E.J. “Multiple Regression in Behavioral Research: Explanation and Prediction, 2nd ed., Rinehart and Winston, USA. 1982.
  • [22]. Bewick, V., Cheek, L., and Ball, J. “Statistics review 9: One-way analysis of variance”. Critical Care, 8(2), 1-7, 2004.
There are 22 citations in total.

Details

Primary Language English
Subjects Energy Systems Engineering (Other)
Journal Section Research Articles
Authors

Ülge Taş 0000-0002-2376-3735

Hümeyra Bolakar Tosun 0000-0002-6710-2277

Publication Date September 30, 2022
Submission Date April 27, 2022
Acceptance Date July 23, 2022
Published in Issue Year 2022 Volume: 5 Issue: 3

Cite

APA Taş, Ü., & Bolakar Tosun, H. (2022). Assessment of the highway logistics on carbon footprint. Environmental Research and Technology, 5(3), 241-248. https://doi.org/10.35208/ert.1109868
AMA Taş Ü, Bolakar Tosun H. Assessment of the highway logistics on carbon footprint. ERT. September 2022;5(3):241-248. doi:10.35208/ert.1109868
Chicago Taş, Ülge, and Hümeyra Bolakar Tosun. “Assessment of the Highway Logistics on Carbon Footprint”. Environmental Research and Technology 5, no. 3 (September 2022): 241-48. https://doi.org/10.35208/ert.1109868.
EndNote Taş Ü, Bolakar Tosun H (September 1, 2022) Assessment of the highway logistics on carbon footprint. Environmental Research and Technology 5 3 241–248.
IEEE Ü. Taş and H. Bolakar Tosun, “Assessment of the highway logistics on carbon footprint”, ERT, vol. 5, no. 3, pp. 241–248, 2022, doi: 10.35208/ert.1109868.
ISNAD Taş, Ülge - Bolakar Tosun, Hümeyra. “Assessment of the Highway Logistics on Carbon Footprint”. Environmental Research and Technology 5/3 (September 2022), 241-248. https://doi.org/10.35208/ert.1109868.
JAMA Taş Ü, Bolakar Tosun H. Assessment of the highway logistics on carbon footprint. ERT. 2022;5:241–248.
MLA Taş, Ülge and Hümeyra Bolakar Tosun. “Assessment of the Highway Logistics on Carbon Footprint”. Environmental Research and Technology, vol. 5, no. 3, 2022, pp. 241-8, doi:10.35208/ert.1109868.
Vancouver Taş Ü, Bolakar Tosun H. Assessment of the highway logistics on carbon footprint. ERT. 2022;5(3):241-8.