Journal of Engineering and Applied Sciences
Year:
2019
Volume:
14
Issue:
10
Page No.
3472 - 3481
A Research on the Energy Efficiency Operational Indicator EEOI using Taguchi Optimization Method for Bulk Carriers: A Case of Study in Vietnam
Authors :
Tien AnhTran
References
Altosole, M., M. Figari and M. Martelli, 2012. Time domain simulation for marine propulsion applications. Proceedings of the 44th Summer Conference on Computer Simulation Vol. 44, National Digital Science Library, Genoa, Italy, July 8, 2012, pp: 36-43.
Anonymous, 2014. Low Carbon shipping and air pollution control. International Maritime Organization (IMO), London, UK. http://www.imo.org/en/MediaCentre/HotTopics/GHG/Pages/default.aspx
Antony, J. and F.J. Antony, 2001. Teaching the Taguchi method to industrial engineers. Work Study, 50: 141-149.
CrossRef | Direct Link | Antony, J., 1998. Some key things industrial engineers should know about experimental design. Logistics Inf. Manage., 11: 386-392.
CrossRef | Direct Link | Athreya, S. and Y.D. Venkatesh, 2012. Application of Taguchi method for optimization of process parameters in improving the surface roughness of lathe facing operation. Intl. Refereed J. Eng. Sci., 1: 13-19.
Direct Link | Balaji, M., B.S.N. Murthy and N.M. Rao, 2016. Optimization of cutting parameters in drilling of AISI 304 stainless steel using Taguchi and ANOVA. Procedia Technol., 25: 1106-1113.
CrossRef | Direct Link | Banks, C., O. Turan, A. Incecik, G. Theotokatos and S. Izkan
et al., 2013. Understanding ship operating profiles with an aim to improve energy efficient ship operations. Proceedings of the International Conference on Low Carbon Shipping, September 9-10, 2013, University of Strathclyde Faculty of Engineering, Glasgow, Scotland, pp: 1-18.
Buhaug, O., J.J. Corbett, O. Endresen, V. Eyring and J. Faber
et al., 2009. Second IMO GHG study 2009. Master Thesis, International Maritime Organization (IMO), London, UK.
Chlela, F., A. Husaunndee, P. Riederer and C. Inard, 2007. A statistical method to improve the energy efficiency of an office building. Proc. Build. Simul., 1: 1756-1764.
Direct Link | Coraddu, A., M. Figari and S. Savio, 2014. Numerical investigation on ship energy efficiency by Monte Carlo simulation. Proc. Inst. Mech. Eng. Part M. J. Eng. Marit. Environ., 228: 220-234.
CrossRef | Direct Link | Ealey, L.A., 1994. Quality by Design Taguchi Methods and US Industry. 2nd Edn., Irwin Professional Publishing, Burr Ridge, Illinois,.
Figari, M. and C.G. Soares, 2009. Fuel Consumption and Exhaust Emissions Reduction by Dynamic Propeller Pitch Control. In: Analysis and Design of Marine Structures, Soares, C.G. and P.K. Das (Eds.). CRC Press, Boca Raton, Florida, USA., ISBN:978-0-415-54934-9, pp: 567-574.
Johnson, H. and L. Styhre, 2015. Increased energy efficiency in short sea shipping through decreased time in port. Transp. Res. Part A. Policy Pract., 71: 167-178.
CrossRef | Direct Link | Phadke, M.S., 1989. Quality Engineering Using Robust Design. Prentice Hall, New Jersey, USA., ISBN-13: 9780137451678, Pages: 334.
Pundir, R., G.H.V.C. Chary and M.G. Dastidar, 2018. Application of Taguchi method for optimizing the process parameters for the removal of copper and nickel by growing
Aspergillus sp. Water Resour. Ind., 20: 83-92.
CrossRef | Direct Link | Raguraman, C.M., A. Ragupathy and L. Sivakumar, 2013. Experimental determination of heat transfer coefficient in stirred vessel for coal-water slurry based on the taguchi method. J. Eng., 2013: 1-8.
CrossRef | Direct Link | Ross, P.J., 1996. Taguchi Techniques for Quality Engineering: Loss Function, Orthogonal Experiments, Parameter and Tolerance Design. McGraw-Hill Education, New York, USA., ISBN:9780070539587, Pages: 329.
Smith, T.W.P., J.P. Jalkanen, B.A. Anderson, J.J. Corbett and J. Faber
et al., 2014. Third IMO GHG study 2014. Master Thesis, International Maritime Organization (IMO), London, UK.
Taguchi, G., 1986. Introduction to Quality Engineering: Designing Quality into Products and Processes. 7th Edn., Asian Productivity Organization, Tokyo, Jaan, ISBN-13: 9789283310839, Pages: 191.
Taguchi, G., 1987. System of Experimental Design, Vol. I, II, UNIPUB, Kraus International Publications, New York.
Taguchi, G., 1993. Taguchi on Robust Technology Development: Bringing Quality Engineering Upstream. 2nd Edn., ASME Press, New York, USA., ISBN:9780791800287, Pages: 136.
Tan, P.N., M. Steinbach and V. Kumar, 2005. Introduction to Data Mining. 1st Edn., Addison Wesley, New York, ISBN-10: 0321321367, Pages: 769.
Tran, T.A., 2016. Calculation and assessing the EEDI index in the field of ship energy efficiency for M/V Jules Garnier. J. Mar. Sci. Res. Dev., 6: 1-6.
CrossRef | Direct Link | Tran, T.A., 2017. A research on the energy efficiency operational indicator EEOI calculation tool on M/V NSU JUSTICE of VINIC transportation company, Vietnam. J. Ocean Eng. Sci., 2: 55-60.
CrossRef | Direct Link | Tran, T.A., 2017. Optimization of the energy efficiency operational indicator for M/V NSU JUSTICE 250,000 DWT by grey relational analysis method in Vietnam. Proc. Inst. Mech. Eng. Part M. J. Eng. Mar. Environ., Vol. 1, 10.1177/1475090217748756
Unal, R., D.O. Stanley and C.R. Joyner, 1993. Propulsion system design optimization using the Taguchi Method. IEEE. Trans. Eng. Manage., 40: 315-322.
CrossRef | Direct Link | Vassalos, D., J. Cichowicz and G. Theotokatos, 2014. Performance-based ship energy efficiency-the way forward. Proceedings of the RINA International Conference on Influence of EEDI on Ship Design, September 24-25, 2014, University of Strathclyde, London, UK., pp: 1-12.
Xiao, S., W. Sun, J. Du and G. Li, 2014. Application of CFD, Taguchi method and ANOVA technique to optimize combustion and emissions in a light duty diesel engine. Math. Prob. Eng., 2014: 1-9.
CrossRef | Direct Link | Zahraee, S.M., M. Hatami, A.A. Bavafa, K. Ghafourian and J.M. Rohani, 2014. Application of statistical Taguchi Method to optimize main elements in the residential buildings in Malaysia based energy consumption. Appl. Mech. Mater., 606: 265-269.
CrossRef | Direct Link | Zheng, X., S. Wang, C.M. Chew and W.F. Lu, 2016. A mathematical model for surface roughness of ship hull grit blasting. Proceedings of the 2016 IEEE 21st International Conference on Emerging Technologies and Factory Automation (ETFA), September 6-9, 2016, IEEE, Berlin, Germany, ISBN:978-1-5090-1315-9, pp: 1-4.