Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers

Veysi Başhan; Hakan Demirel

doi:10.2339/politeknik.426644

Research Article

Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers

Year 2019, Volume: 22 Issue: 3, 545 - 555, 01.09.2019

Veysi Başhan Hakan Demirel

https://doi.org/10.2339/politeknik.426644

Cited By: 9

Abstract

Whether it is steam powered or has an internal combustion engine as the
main engine of propulsion, a ship without a boiler is unimaginable; somehow a
boiler, which is indispensable on ships is needed. Boiler, one of the most
important ship auxiliary engines, is used for several purposes that consist of
heating of fuel tanks, machinery equipment and accommodation. Many problems can
arise in boilers which are designed to work with main engine exhaust gas so
that the waste heat can be used in order to match expectations of energy
efficiency requirements. When ship systems are analyzed, it is understood that
many systems are related to each other. If there is a problem with the boiler
many systems will be affected and many problems will be encountered. Therefore,
this study provides a fuzzy DEMATEL (Decision Making Trial and Evaluation
Laboratory) method to assess most common critical operational faults in marine
boilers. The DEMATEL method gives chances to identify and analyses the
important faults of marine boiler with respect to cause effect relationship
diagram. Likewise, fuzzy sets get through with the uncertainty in decision
making and experts comments on DEMATEL. When the results are examined, it is
understood that “boiler takes excessive time to reach pressure” is important in
terms of the reasons. When the effects are examined, it is seen that the most
important effect is “leakage from pipes or valves”. The acquired results of the
research will contribute to ship boilers operational safety and prevention of
dangerous machinery effects.

Keywords

Marine boiler, fuzzy DEMATEL, faults, safety

References

[1] Milton J.H. and Leach R.M. Marine steam boilers. 4th ed. Elsevier; (2013).
[2] Funke F. “Marine Steam-Boiler”, 269041, (1882).
[3] Kling O. “Marine Steam-Boiler”, 578753, (1897).
[4] Jack L. Pinkerton. “Steam Boiler Control”, 2385161, (1940).
[5] Gutiérrez Ortiz FJ. “Modeling of fire-tube boilers”, Applied Thermal Engineering, 31:3463–78, (2011).
[6] Flanagan GTH. Marine Boilers. Elsevier; (2013).
[7] Solberg B, Karstensen CMS, Andersen P, Pedersen TS. and Hvistendahl PU. “MODEL-BASED CONTROL OF A BOTTOM FIRED MARINE BOILER”, IFAC Proceedings Volumes, 38:314–9. d, (2005).
[8] Solberg B, Andersen P. and Karstensen CMS. “Control properties of bottom fired marine boilers”, Energy, 32:508–20, (2007).
[9] Solberg B, Andersen P, Maciejowski JM. and Stoustrup J. “Optimal switching control of burner setting for a compact marine boiler design”, Control Engineering Practice, 18:665–75, (2010).
[10] Slater I. and Parr N. “Marine Boiler Deterioration”, Proceedings of the Institution of Mechanical Engineers, 160:341–358, (1949).
[11] Chang B, Chang C-W. and Wu C-H. “Fuzzy DEMATEL method for developing supplier selection criteria”, Expert Systems with Applications, 38:1850–8, (2011).
[12] Wu W-W. “Segmenting critical factors for successful knowledge management implementation using the fuzzy DEMATEL method”, Applied Soft Computing, 12:527–35, (2012).
[13] Uygun Ö, Kaçamak H. and Kahraman ÜA. “An integrated DEMATEL and Fuzzy ANP techniques for evaluation and selection of outsourcing provider for a telecommunication company”, Computers & Industrial Engineering, 86:137–46, (2015).
[14] Pandey A. and Kumar A. “Commentary on “Evaluating the criteria for human resource for science and technology (HRST) based on an integrated fuzzy AHP and fuzzy DEMATEL approach”, Applied Soft Computing, 51:351–2, (2017).
[15] Sayyadi Tooranloo H, Azadi MH. and Sayyahpoor A. “Analyzing factors affecting implementation success of sustainable human resource management (SHRM) using a hybrid approach of FAHP and Type-2 fuzzy DEMATEL”, Journal of Cleaner Production, 162:1252–65, (2017).
[16] Ocampo LA, Tan TAG. and Sia LA. “Using fuzzy DEMATEL in modeling the causal relationships of the antecedents of organizational citizenship behavior (OCB) in the hospitality industry: A case study in the Philippines”, Journal of Hospitality and Tourism Management, 34:11–29, (2018).
[17] Wu W-W. and Lee Y-T. “Developing global managers’ competencies using the fuzzy DEMA℡ method”, Expert Systems with Applications, 32:499–507,(2007).
[18] Labovská Z, Labovský J, Jelemenský ľ., Dudáš J. and Markoš J. “Model-based hazard identification in multiphase chemical reactors”, Journal of Loss Prevention in the Process Industries, 29:155–62,(2014).
[19] Akyuz E. and Celik M. “A methodological extension to human reliability analysis for cargo tank cleaning operation on board chemical tanker ships”, Safety Science, 75:146–55,(2015).
[20] Patil SK. and Kant R. “A hybrid approach based on fuzzy DEMATEL and FMCDM to predict success of knowledge management adoption in supply chain”, Applied Soft Computing, 18:126–35, (2014)
[21] Shahi E, Alavipoor FS. and Karimi S. “The development of nuclear power plants by means of modified model of Fuzzy DEMATEL and GIS in Bushehr, Iran”, Renewable and Sustainable Energy Reviews, 83:33–49, (2018).
[22] Baykasoğlu A., Kaplanoğlu V, Durmuşoğlu ZDU. and Şahin C. “Integrating fuzzy DEMATEL and fuzzy hierarchical TOPSIS methods for truck selection”, Expert Systems with Applications, 40:899–907, (2013).
[23] George-Ufot G, Qu Y. and Orji IJ. “Sustainable lifestyle factors influencing industries’ electric consumption patterns using Fuzzy logic and DEMATEL: The Nigerian perspective”, Journal of Cleaner Production, 162:624–34, (2017).
[24] Tadić S, Zečević S. and Krstić M. “A novel hybrid MCDM model based on fuzzy DEMATEL, fuzzy ANP and fuzzy VIKOR for city logistics concept selection”, Expert Systems with Applications, 41:8112–28, (2014).
[25] Liou JJ, Yen L. and Tzeng G-H. “Building an effective safety management system for airlines”, Journal of Air Transport Management, 14:20–26, (2008).
[26] Zadeh LA. “Fuzzy sets. Fuzzy Sets, Fuzzy Logic, And Fuzzy Systems: Selected Papers by Lotfi A Zadeh”, World Scientific, p. 394–432, (1996).
[27] Chen-Yi H, Ke-Ting C. and Gwo-Hshiung T. “FMCDM with Fuzzy DEMA℡ Approach for Customers’ Choice Behavior Model”, International Journal of Fuzzy Systems, 9., (2007).
[28] Akyuz E. and Celik E. “A fuzzy DEMATEL method to evaluate critical operational hazards during gas freeing process in crude oil tankers”, Journal of Loss Prevention in the Process Industries, 38:243–53, (2015).
[29] Ross TJ. Fuzzy logic with engineering applications, John Wiley & Sons; (2009).
[30] Gumus AT, Yayla AY, Çelik E. and Yildiz A. “A combined fuzzy-AHP and fuzzy-GRA methodology for hydrogen energy storage method selection in Turkey”, Energies, 6:3017–3032, (2013).

Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers

Year 2019, Volume: 22 Issue: 3, 545 - 555, 01.09.2019

Veysi Başhan Hakan Demirel

https://doi.org/10.2339/politeknik.426644

Cited By: 9

Abstract

Whether it is steam powered or has an internal combustion engine as the
main engine of propulsion, a ship without a boiler is unimaginable; somehow a
boiler, which is indispensable on ships is needed. Boiler, one of the most
important ship auxiliary engines, is used for several purposes that consist of
heating of fuel tanks, machinery equipment and accommodation. Many problems can
arise in boilers which are designed to work with main engine exhaust gas so
that the waste heat can be used in order to match expectations of energy
efficiency requirements. When ship systems are analyzed, it is understood that
many systems are related to each other. If there is a problem with the boiler
many systems will be affected and many problems will be encountered. Therefore,
this study provides a fuzzy DEMATEL (Decision Making Trial and Evaluation
Laboratory) method to assess most common critical operational faults in marine
boilers. The DEMATEL method gives chances to identify and analyses the
important faults of marine boiler with respect to cause effect relationship
diagram. Likewise, fuzzy sets get through with the uncertainty in decision
making and experts comments on DEMATEL. When the results are examined, it is
understood that “boiler takes excessive time to reach pressure” is important in
terms of the reasons. When the effects are examined, it is seen that the most
important effect is “leakage from pipes or valves”. The acquired results of the
research will contribute to ship boilers operational safety and prevention of
dangerous machinery effects.

Keywords

Marine boiler, fuzzy DEMATEL, faults, safety

References

[1] Milton J.H. and Leach R.M. Marine steam boilers. 4th ed. Elsevier; (2013).
[2] Funke F. “Marine Steam-Boiler”, 269041, (1882).
[3] Kling O. “Marine Steam-Boiler”, 578753, (1897).
[4] Jack L. Pinkerton. “Steam Boiler Control”, 2385161, (1940).
[5] Gutiérrez Ortiz FJ. “Modeling of fire-tube boilers”, Applied Thermal Engineering, 31:3463–78, (2011).
[6] Flanagan GTH. Marine Boilers. Elsevier; (2013).
[7] Solberg B, Karstensen CMS, Andersen P, Pedersen TS. and Hvistendahl PU. “MODEL-BASED CONTROL OF A BOTTOM FIRED MARINE BOILER”, IFAC Proceedings Volumes, 38:314–9. d, (2005).
[8] Solberg B, Andersen P. and Karstensen CMS. “Control properties of bottom fired marine boilers”, Energy, 32:508–20, (2007).
[9] Solberg B, Andersen P, Maciejowski JM. and Stoustrup J. “Optimal switching control of burner setting for a compact marine boiler design”, Control Engineering Practice, 18:665–75, (2010).
[10] Slater I. and Parr N. “Marine Boiler Deterioration”, Proceedings of the Institution of Mechanical Engineers, 160:341–358, (1949).
[11] Chang B, Chang C-W. and Wu C-H. “Fuzzy DEMATEL method for developing supplier selection criteria”, Expert Systems with Applications, 38:1850–8, (2011).
[12] Wu W-W. “Segmenting critical factors for successful knowledge management implementation using the fuzzy DEMATEL method”, Applied Soft Computing, 12:527–35, (2012).
[13] Uygun Ö, Kaçamak H. and Kahraman ÜA. “An integrated DEMATEL and Fuzzy ANP techniques for evaluation and selection of outsourcing provider for a telecommunication company”, Computers & Industrial Engineering, 86:137–46, (2015).
[14] Pandey A. and Kumar A. “Commentary on “Evaluating the criteria for human resource for science and technology (HRST) based on an integrated fuzzy AHP and fuzzy DEMATEL approach”, Applied Soft Computing, 51:351–2, (2017).
[15] Sayyadi Tooranloo H, Azadi MH. and Sayyahpoor A. “Analyzing factors affecting implementation success of sustainable human resource management (SHRM) using a hybrid approach of FAHP and Type-2 fuzzy DEMATEL”, Journal of Cleaner Production, 162:1252–65, (2017).
[16] Ocampo LA, Tan TAG. and Sia LA. “Using fuzzy DEMATEL in modeling the causal relationships of the antecedents of organizational citizenship behavior (OCB) in the hospitality industry: A case study in the Philippines”, Journal of Hospitality and Tourism Management, 34:11–29, (2018).
[17] Wu W-W. and Lee Y-T. “Developing global managers’ competencies using the fuzzy DEMA℡ method”, Expert Systems with Applications, 32:499–507,(2007).
[18] Labovská Z, Labovský J, Jelemenský ľ., Dudáš J. and Markoš J. “Model-based hazard identification in multiphase chemical reactors”, Journal of Loss Prevention in the Process Industries, 29:155–62,(2014).
[19] Akyuz E. and Celik M. “A methodological extension to human reliability analysis for cargo tank cleaning operation on board chemical tanker ships”, Safety Science, 75:146–55,(2015).
[20] Patil SK. and Kant R. “A hybrid approach based on fuzzy DEMATEL and FMCDM to predict success of knowledge management adoption in supply chain”, Applied Soft Computing, 18:126–35, (2014)
[21] Shahi E, Alavipoor FS. and Karimi S. “The development of nuclear power plants by means of modified model of Fuzzy DEMATEL and GIS in Bushehr, Iran”, Renewable and Sustainable Energy Reviews, 83:33–49, (2018).
[22] Baykasoğlu A., Kaplanoğlu V, Durmuşoğlu ZDU. and Şahin C. “Integrating fuzzy DEMATEL and fuzzy hierarchical TOPSIS methods for truck selection”, Expert Systems with Applications, 40:899–907, (2013).
[23] George-Ufot G, Qu Y. and Orji IJ. “Sustainable lifestyle factors influencing industries’ electric consumption patterns using Fuzzy logic and DEMATEL: The Nigerian perspective”, Journal of Cleaner Production, 162:624–34, (2017).
[24] Tadić S, Zečević S. and Krstić M. “A novel hybrid MCDM model based on fuzzy DEMATEL, fuzzy ANP and fuzzy VIKOR for city logistics concept selection”, Expert Systems with Applications, 41:8112–28, (2014).
[25] Liou JJ, Yen L. and Tzeng G-H. “Building an effective safety management system for airlines”, Journal of Air Transport Management, 14:20–26, (2008).
[26] Zadeh LA. “Fuzzy sets. Fuzzy Sets, Fuzzy Logic, And Fuzzy Systems: Selected Papers by Lotfi A Zadeh”, World Scientific, p. 394–432, (1996).
[27] Chen-Yi H, Ke-Ting C. and Gwo-Hshiung T. “FMCDM with Fuzzy DEMA℡ Approach for Customers’ Choice Behavior Model”, International Journal of Fuzzy Systems, 9., (2007).
[28] Akyuz E. and Celik E. “A fuzzy DEMATEL method to evaluate critical operational hazards during gas freeing process in crude oil tankers”, Journal of Loss Prevention in the Process Industries, 38:243–53, (2015).
[29] Ross TJ. Fuzzy logic with engineering applications, John Wiley & Sons; (2009).
[30] Gumus AT, Yayla AY, Çelik E. and Yildiz A. “A combined fuzzy-AHP and fuzzy-GRA methodology for hydrogen energy storage method selection in Turkey”, Energies, 6:3017–3032, (2013).

There are 30 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Research Article
Authors	Veysi Başhan This is me Hakan Demirel This is me
Publication Date	September 1, 2019
Submission Date	February 21, 2018
Published in Issue	Year 2019 Volume: 22 Issue: 3

Cite

APA	Başhan, V., & Demirel, H. (2019). Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers. Politeknik Dergisi, 22(3), 545-555. https://doi.org/10.2339/politeknik.426644
AMA	Başhan V, Demirel H. Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers. Politeknik Dergisi. September 2019;22(3):545-555. doi:10.2339/politeknik.426644
Chicago	Başhan, Veysi, and Hakan Demirel. “Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers”. Politeknik Dergisi 22, no. 3 (September 2019): 545-55. https://doi.org/10.2339/politeknik.426644.
EndNote	Başhan V, Demirel H (September 1, 2019) Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers. Politeknik Dergisi 22 3 545–555.
IEEE	V. Başhan and H. Demirel, “Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers”, Politeknik Dergisi, vol. 22, no. 3, pp. 545–555, 2019, doi: 10.2339/politeknik.426644.
ISNAD	Başhan, Veysi - Demirel, Hakan. “Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers”. Politeknik Dergisi 22/3 (September 2019), 545-555. https://doi.org/10.2339/politeknik.426644.
JAMA	Başhan V, Demirel H. Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers. Politeknik Dergisi. 2019;22:545–555.
MLA	Başhan, Veysi and Hakan Demirel. “Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers”. Politeknik Dergisi, vol. 22, no. 3, 2019, pp. 545-5, doi:10.2339/politeknik.426644.
Vancouver	Başhan V, Demirel H. Application of Fuzzy Dematel Technique to Assess Most Common Critical Operational Faults of Marine Boilers. Politeknik Dergisi. 2019;22(3):545-5.