Short-term and long-term impacts of eco-driving on dynamics of driving behaviour and operating parameters
Abstract
This paper shows the impact of eco-driving training course on driving behaviour of 7 drivers, analysing two internal parameters: Scania Driver Support (SDS) parameter and Fuel Consumption (FC). Data were collected using Scania Fleet Management System (Scania FMS) over a period of one-year (1 + 2 + 4 + 6 months during the 2015 and 2016). Data for these two parameters of all drivers were recorded daily over a one-year period and calculated in average values on a monthly basis. A one-year cycle of average monthly ambient temperatures of wider geographical region was adopted as the most important external parameter of impact on eco-driving benefits. Longitudinal observation period is divided into: one month initial period of establishing the parameter values before the training (one month), short-term with eco-driving (two months), short-term without eco-driving (four months) and long-term (six months). Significantly higher values of SDS parameter (p < 0.05) and significant reduction of FC (p = 0.0310 < 0.05) were established with a higher average ambient temperature over a short-term period. A partial increase of SDS parameter value (p < 0.10) was established over a long-term period but the level of FC reversed to the values as before the training (p = 0.7554 > 0.05). The results indicate the potential of eco-driving training that manifests significantly positive effects only in good driving conditions. With bad weather conditions that correlate with bad driving conditions, the effects of eco-driving training are supressed with increased requirements for safer driving. Primary conclusion of the paper is that the eco-driving training principles have an apparent positive effect on reduction of FC and CO2 emission but are at the same time sensitive to environmental driving conditions.
Keyword : eco-driving, ambient temperature, fuel consumption, CO2 emission, driving conditions
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Af Wåhlberg, A. E. 2002b. Fuel efficient driving training – state of the art and quantification of effects, in Proceedings of the 2nd Safety on Road International Conference SORIC’2002, 21–23 October 2002, Bahrain, Paper E141, 1–6.
Af Wåhlberg, A. E. 2007. Long-term effects of training in economical driving: fuel consumption, accidents, driver acceleration behavior and technical feedback, International Journal of Industrial Ergonomics 37(4): 333–343. https://doi.org/10.1016/j.ergon.2006.12.003
Af Wåhlberg, A. E. 2006. Short-term effects of training in economical driving: passenger comfort and driver acceleration behavior, International Journal of Industrial Ergonomics 36(2): 151–163. https://doi.org/10.1016/j.ergon.2005.10.001
ARSO. 2018. Mesečni bilten ARSO. Agencija Republike Slovenije za okolje (ARSO). Available from Internet: http://www.arso.gov.si/o%20agenciji/knji%C5%BEnica/mese%C4%8Dni%20bilten (in Slovenian).
Baker, M. 1994. Fuel Consumption and Emission Models for Evaluating Traffic Control and Route Guidance Strategies. MSc Thesis. Queen’s University, Kingston, ON, Canada. 302 p.
Barić, D.; Zovak, G.; Periša, M. 2013. Effects of eco-drive education on the reduction of fuel consumption and CO2 emissions, PROMET – Traffic & Transportation 25(3): 265–272. https://doi.org/10.7307/ptt.v25i3.1260
Barkenbus, J. N. 2010. Eco-driving: An overlooked climate change initiative, Energy Policy 38(2): 762–769. https://doi.org/10.1016/j.enpol.2009.10.021
Barla, P.; Gilbert-Gonthier, M.; López Castro, M. A.; Miranda-Moreno, L. 2017. Eco-driving training and fuel consumption: impact, heterogeneity and sustainability, Energy Economics 62: 187–194. https://doi.org/10.1016/j.eneco.2016.12.018
Barrand, J.; Bokar, J. 2008. Reducing tire rolling resistance to save fuel and lower emissions, SAE International Journal of Passenger Cars – Mechanical Systems 1(1): 9–17. https://doi.org/10.4271/2008-01-0154
Barth, M.; Boriboonsomsin, K. 2009. Energy and emissions impacts of a freeway-based dynamic eco-driving system, Transportation Research Part D: Transport and Environment 14(6): 400–410. https://doi.org/10.1016/j.trd.2009.01.004
Basarić, V. B.; Jambrović, M.; Miličić, M. B.; Savković, T. M.; Basarić, Đ. M.; Bogdanović, V. Z. 2017. Positive effects of eco-driving in public transport: a case study of the city Novi Sad, Thermal Science 21(1): 683–692. https://doi.org/10.2298/TSCI150219160B
Beusen, B.; Broekx, S.; Denys, T.; Beckx, C.; Degraeuwe, B.; Gijsbers, M.; Scheepers, K.; Govaerts, L.; Torfs, R.; Panis, L. I. 2009. Using on-board logging devices to study the longer-term impact of an eco-driving course, Transportation Research Part D: Transport and Environment 14(7): 514–520. https://doi.org/10.1016/j.trd.2009.05.009
Burgess, S. C.; Choi, J. M. J. 2003. A parametric study of the energy demands of car transportation: a case study of two competing commuter routes in the UK, Transportation Research Part D: Transport and Environment 8(1): 21–36. https://doi.org/10.1016/S1361-9209(02)00016-0
Continental. 2015. EU Tyre Label. Continental AG, Hanover, Germany. Available from Internet: https://www.continental-tyres.co.za/truck/knowhow/eu-tire-label-truck
Cummins. 2012. Secrets of Better Fuel Economy: the Physics of MPG. Cummins MPG Guide. Cummins Inc., Columbus, IN, US. 35 p. Available from Internet: https://www.idleair.com/wp-content/uploads/2011/02/2012-04-26-Cummins-Secrets-of-Fuel-Economy-Idling-pgs-29-and-32.pdf
Dardiotis, C.; Martini, G.; Marotta, A.; Manfredi, U. 2013. Low-temperature cold-start gaseous emissions of late technology passenger cars, Applied Energy 111: 468–478. https://doi.org/10.1016/j.apenergy.2013.04.093
Degraeuwe, B.; Beusen, B. 2013. Corrigendum on the paper “Using on-board data logging devices to study the longer-term impact of an eco-driving course”, Transportation Research Part D: Transport and Environment 19: 48–49. https://doi.org/10.1016/j.trd.2012.11.003
Díaz-Ramirez, J.; Giraldo-Peralta, N.; Flórez-Ceron, D.; Rangel, V.; Mejía-Argueta, C.; Huertas, J. I.; Bernal, M. 2017. Eco-driving key factors that influence fuel consumption in heavy-truck fleets: a Colombian case, Transportation Research Part D: Transport and Environment 56: 258–270. https://doi.org/10.1016/j.trd.2017.08.012
DOE–EPA. 2019. Fuel Economy in Cold Weather. US Department of Energy (DOE) – US Environmental Protection Agency (EPA). Available from Internet: https://www.fueleconomy.gov/feg/coldweather.shtml
Dogan, E.; Steg, L.; Delhomme, P. 2011. The influence of multiple goals on driving behavior: the case of safety, time saving, and fuel saving, Accident Analysis & Prevention 43(5): 1635–1643. https://doi.org/10.1016/j.aap.2011.03.002
Ebrahimi, H.; Tadic, M. 2018. Optimization of dangerous goods transport in urban zone, Decision Making: Applications in Management and Engineering 1(2): 131–152.
ECMT. 2005. Making Cars More Fuel Efficient: Technology for Real Improvements on the Road. European Conference of Ministers of Transport (ECMT). 83 p. Available from Internet: https://www.itf-oecd.org/sites/default/files/docs/05cars.pdf
Ericsson, E. 2001. Independent driving pattern factors and their influence on fuel-use and exhaust emission factors, Transportation Research Part D: Transport and Environment 6(5): 325–345. https://doi.org/10.1016/S1361-9209(01)00003-7
Evans, L. 1979. Driver behavior effects on fuel consumption in urban driving, Human Factors: The Journal of the Human Factors and Ergonomics Society 21(4): 389–398. https://doi.org/10.1177/001872087902100401
Feuerecker, G.; Schäfer, B.; Strauss, T. 2005. Auxiliary heating systems of conventional and heat pump type: technology, performance and efficiency, SAE Technical Paper 2005-01-2055. https://doi.org/10.4271/2005-01-2055
Fontaras, G.; Dilara, P. 2012. The evolution of European passenger car characteristics 2000–2010 and its effects on real-world CO2 emissions and CO2 reduction policy, Energy Policy 49: 719–730. https://doi.org/10.1016/j.enpol.2012.07.021
Greene, D. L. 2008. Near Term Options to Increase Fuel Economy and Decrease Petroleum Demand. Testimony to the US Senate Committee on Energy and Natural Resources. Energy and Natural Resources Committee Office, Washington, DC, US. 8 p. Available from Internet: https://www.energy.senate.gov/public/index.cfm/files/serve?File_id=50b54f8d-d264-f3b8-a733-40be4e51ddb5
Goodyear Tire. 2008. Factors Affecting Truck fuel Economy. Goodyear Commercial Tire Systems. The Goodyear Tire & Rubber Company. 4 p. Available from Internet: https://www.goodyeartrucktires.com/pdf/resources/publications/factors_affecting_truck_fuel_economy.pdf
Green Car Congress. 2008. Ford Testing Shows Eco-Driving Improved Fuel Economy an Average 24%. Green Car Congress: Energy, Technologies, Issues and Policies for Sustainable Mobility. Available from Internet: https://www.greencarcongress.com/2008/08/ford-testing-sh.html
Harvey, J.; Thorpe, N.; Fairchild, R. 2013. Attitudes towards and perceptions of eco-driving and the role of feedback systems, Ergonomics 56(3): 507–521. https://doi.org/10.1080/00140139.2012.751460
Hawley, J. G.; Bannister, C. D.; Brace, C. J.; Akehurst, S.; Pegg, I.; Avery, M. R. 2010. The effect of engine and transmission oil viscometrics on vehicle fuel consumption, Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 224(9): 1213–1228. https://doi.org/10.1243/09544070JAUTO1534
Husnjak, S.; Forenbacher, I.; Bucak, T. 2015. Evaluation of eco-driving using smart mobile devices, PROMET – Traffic & Transportation 27(4): 335–344. https://doi.org/10.7307/ptt.v27i4.1712
IEA. 2005. Saving Oil in a Hurry. International Energy Agency (IEA). 168 p. Available from Internet: https://www.iea.org/reports/saving-oil-in-a-hurry-2005
ITF. 2007. Findings and messages for policy makers, in Workshop on Ecodriving, 22–23 November 2007, International Transport Forum (ITF), Paris, France. 6 p. Available from Internet: https://thepep.unece.org/node/506
Karlsson, R.; Carlson, A.; Dolk, E. 2012. Energy Use Generated by Traffic and Pavement Maintenance: Decision Support for Optimization of Low Rolling Resistance Maintenance Treatments. VTI Report 36A-2012. Swedish National Road and Transport Research Institute (VTI). Linköping, Sweden. 47 p. Available from Internet: https://www.vti.se/en/publications/publication/energy-use-generated-by-traffic-and-pavement-maint_669289
Li, Y.; Zheng, Y.; Wang, J.; Kodaka, K.; Li, K. 2018. Crash probability estimation via quantifying driver hazard perception, Accident Analysis & Prevention 116: 116–125. https://doi.org/10.1016/j.aap.2017.05.009
Luther, R.; Baas, P. 2011. Eco-driving Scoping Study. New Zealand: AA Research Foundation, The New Zealand Automobile Association Inc. 83 p. Available from Internet: https://www.aa.co.nz/assets/about/Research-Foundation/Ecodrive/TERNZ-Eco-Driving-Report.pdf
McIlroy, R. C.; Stanton, N. A. 2015. A decision ladder analysis of eco-driving: the first step towards fuel-efficient driving behaviour, Ergonomics 58(6): 866–882. https://doi.org/10.1080/00140139.2014.997807
Michelin. 2003. The Tyre: Rolling Resistance and Fuel Savings. Société de Technologie Michelin, Clermont-Ferrand, France. 120 p.
Mock, P.; German, J.; Bandivadekar, A.; Riemersma, I. 2012. Discrepancies between Type-Approval and Real-World Fuel Consumption and CO2 Values in 2001–2011 European Passenger Cars. Working paper 2012–02. International Council on Clean Transportation. 13 p. Available from Internet: https://theicct.org/sites/default/files/publications/ICCT_EU_fuel-consumption2_workingpaper_2012.pdf
NRCAN. 2014. Learn the Facts: Cold Weather Effects on Fuel Efficiency. Natural Resources Canada (NRCAN), Government of Canada. 2 p. Available from Internet: https://www.nrcan.gc.ca/sites/www.nrcan.gc.ca/files/oee/pdf/transportation/fuel-efficient-technologies/autosmart_factsheet_3_e.pdf
Odhams, A. M. C.; Roebuck, R. L.; Lee, Y. J.; Hunt, S. W.; Cebon, D. 2010. Factors influencing the energy consumption of road freight transport, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 224(9): 1995–2010. https://doi.org/10.1243/09544062JMES2004
Rolim, C. C.; Baptista, P. C.; Duarte, G. O.; Farias, T. L. 2014. Impacts of on-board devices and training on light duty vehicle driving behavior, Procedia – Social and Behavioral Sciences 111: 711–720. https://doi.org/10.1016/j.sbspro.2014.01.105
Rutty, M.; Matthews, L.; Andrey, J.; Del Matto, T. 2013. Eco-driver training within the city of Calgary’s municipal fleet: monitoring the impact, Transportation Research Part D: Transport and Environment 24: 44–51. https://doi.org/10.1016/j.trd.2013.05.006
Savković, T.; Miličić, M.; Atanasković, P.; Pitka, P.; Milenković, I. 2016. Impact of eco-driving on the environment and transport company operations, Suvremeni Promet – Modern Traffic 36(5–6): 283–285.
Scott, H.; Knowles, M.; Morris, A.; Kok, D. 2012. The role of a driving simulator in driver training to improve fuel economy, in Driving Simulation Conference 2012, 6–7 September 2012, Paris, France, 1–7.
SenterNovem. 2005. Ecodriving: The Smart Driving Style. Senter-Novem – Agency of the Ministry of Economic Affairs, The Netherlands. 31 p.
Shaheen, S. A.; Martin, E. W.; Finson, R. S. 2012. Ecodriving and Carbon Footprinting: Understanding How Public Education Can Reduce Greenhouse Gas Emissions and Fuel Use. MTI Report 11-11. Mineta Transportation Institute (MTI), San Jose, CA, US. 184 p. Available from Internet: https://transweb.sjsu.edu/research/ecodriving-and-carbon-footprinting-under-standing-how-public-education-can-reduce-greenhouse
Smokers, R.; Vermeulen, R.; Van Mieghem, R.; Gense, R.; Skinner, I.; Fergusson, M.; MacKay, E.; Ten Brink, P.; Fontaras, G.; Samaras, Z. 2006. Review and Analysis of the Reduction Potential and Costs of Technological and other Measures to Reduce CO2-Emissions from Passenger Cars. Final Report. Contract No SI2.408212. European Commission. 303 p.
Stojić, G.; Sremac, S.; Vasiljković, I. 2018. A fuzzy model for determining the justifiability of investing in a road freight vehicle fleet, Operational Research in Engineering Sciences: Theory and Applications 1(1): 62–75.
Sullman, M. J. M.; Dorn, L.; Niemi, P. 2015. Eco-driving training of professional bus drivers – does it work?, Transportation Research Part C: Emerging Technologies 58: 749–759. https://doi.org/10.1016/j.trc.2015.04.010
Symmons, M. A.; Rose, G. 2009. Ecodrive training delivers substantial fuel savings for heavy vehicle drivers, in Driving Assessment 2009: 5th International Driving Symposium on Human Factors in Driving Assessment, Training and Vehicle Design, 22–25 June 2009, Big Sky, MT, US, 46–53.
Tanackov, I.; Tepić, J.; Stojić, G.; Sremac, S.; Simić, D. 2011. Balance of the CO2 emission on the corridor X through Serbia and proposals for remediation of the part of the emission applying transportation-logistics systems, in Proceedings of the 24th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, ECOS 2011, 4–7 July 2011, Novi Sad, Serbia, 3: 2268–2276.
The Spec. 2009. Honda’s Eco Assist System. The Hamilton Spectator (The Spec). Available from Internet: https://www.thespec.com/autos-story/2086536-honda-s-eco-assist-system
Theofilatos, A.; Yannis, G. 2014. A review of the effect of traffic and weather characteristics on road safety, Accident Analysis & Prevention 72: 244–256. https://doi.org/10.1016/j.aap.2014.06.017
TRB. 2006. Tires and Passenger Vehicle Fuel Economy: Informing Consumers, Improving Performance. Special Report 286. Transportation Research Board (TRB), Washington, DC, US. 178 p. Available from Internet: http://www.trb.org/Publications/Blurbs/157125.aspx
UKERC. 2006. Quick Hit: Eco-Driving. UK Energy Research Centre (UKERC). Available from Internet: http://www.ukerc.ac.uk/publications/quick-hit-eco-driving.html
Woodyard, C. 2007. Nissan to Put Lead-Foot Gauge on All Models. ABC News. Available from Internet: https://abcnews.go.com/Business/story?id=3508421
Wu, Y.; Zhao, X.; Rong, J. 2015. The long-term effectiveness of eco-driving training: a pilot study, in Proceedings of the Eighth International Driving Symposium on Human Factors in Driver Assessment, Training and Vehicle Design, 22–25 June 2015, Salt Lake City, Utah, US, 212–218. https://doi.org/10.17077/drivingassessment.1574
Young, M. S.; Birrell, S. A.; Stanton, N. A. 2011. Safe driving in a green world: a review of driver performance benchmarks and technologies to support ‘smart’ driving, Applied Ergonomics 42(4): 533–539. https://doi.org/10.1016/j.apergo.2010.08.012
Zarkadoula, M.; Zoidis, G.; Tritopoulou, E. 2007. Training urban bus drivers to promote smart driving: a note on a Greek eco-driving pilot program, Transportation Research Part D: Transport and Environment 12(6): 449–451. https://doi.org/10.1016/j.trd.2007.05.002