How to cite this paper
Tonny, F., Maliha, A., Chayan, M & Xames, M. (2023). Optimization of overall equipment effectiveness (OEE) factors: Case study of a vegetable oil manufacturing company.Management Science Letters , 13(2), 124-135.
Refrences
Abdelbar, K. M., Bouami, D., & Elfezazi, S. (2019). New approach towards formulation of the overall equipment effec-tiveness. Journal of Quality in Maintenance Engineering, 25(1), 90-127. https://doi.org/10.1108/JQME-07-2017-0046
Agustiady, T. K., & Cudney, E. A. (2018). Total productive maintenance. Total Quality Management & Business Excel-lence, pp.1-8. https://doi.org/10.1080/14783363.2018.1438843
Ahuja, I. P. S., & Khamba, J. S. (2008). Total productive maintenance: literature review and directions. International journal of quality & reliability management, 25(7). https://doi.org/10.1108/02656710810890890
Aman, Z., Ezzine, L., Fattah, J., Lachhab, A., & Moussami, H. E. (2017, April). Improving efficiency of a production line by using overall equipment effectiveness: A case study. In Proceedings of the International Conference on Industrial Engineering and Operations Management, Rabat, Morocco, pp. 1048-1057.
Baghbani, M., Iranzadeh, S., & Bagherzadeh Khajeh, M. (2019). Investigating the relationship between RPN parameters in fuzzy PFMEA and OEE in a sugar factory. Journal of Loss Prevention in the Process Industries, 60, 221-232. https://doi.org/10.1016/j.jlp.2019.05.003.
Chikwendu, O. C., Chima, A. S., & Edith, M. C. (2020). The optimization of overall equipment effectiveness factors in a pharmaceutical company. Heliyon, 6(4), e03796.
Daneshkhah, A., Stocks, N. G., & Jeffrey, P. (2017). Probabilistic sensitivity analysis of optimised preventive mainte-nance strategies for deteriorating infrastructure assets. Reliability Engineering & System Safety, 163, 33–45. https://doi.org/10.1016/j.ress.2017.02.002
Fore, S., and Zuze, L. (2010). Improvement of overall equipment effectiveness through total productive maintenance. In-ternational Journal of Industrial and Manufacturing Engineering, 4(1), 85-93.
Gupta, P., Vardhan, S., & Al Haque, M. S. (2015, March). Study of success factors of TPM implementation in Indian in-dustry towards operational excellence: An overview. In 2015 International Conference on Industrial Engineering and Operations Management (IEOM) (pp. 1-6). IEEE.
Gupta, P., Vardhan, S. & Haque, M.S.A. (2015). Study of success factors of TPM implementation in Indian industry to-wards operational excellence: an overview. Proceedings of the 2015 International Conference on Industrial Engineer-ing and Operations Management, Aveiro, March 3-5, pp. 2485-2490.
Hemanand, K., Amuthuselvan, D., Raja, S. C., & Sundararaja, G. (2012). Improving productivity of manufacturing divi-sion using lean concepts and development of material gravity feeder–a case study. International Journal of lean think-ing, 3(2), pp. 117–134.
Huang, S. H., Dismukes, J. P., Shi, J., Su, Q. I., Razzak, M. A., Bodhale, R., & Robinson, D. E. (2003). Manufacturing productivity improvement using effectiveness metrics and simulation analysis. International journal of production re-search, 41(3), pp. 513-527. http://dx.doi.org/10.1080/0020754021000042391
Ihueze, C. C., & U-Dominic, C. M. (2017). Maximizing overall equipment effectiveness in a food processing industry: a case study. Archives of Current Research International, 10(4), pp. 1-10. http://doi.org/10.9734/ACRI-2017-38187
Kapuyanyika, M., & Suthar, K. (2018). To improve the overall equipment effectiveness of wheel surface machining plant of railway using total productive maintenance. International Journal of Scientific Research in Science and Technology, 4(5), pp.1860-1874.
Lakho, T. H., Khan, M. A., Virk, S. I., & Indher, A. A. (2020). Implementation of Overall Equipment Effectiveness (OEE) in Maintenance Management. Proceedings of the International Conference on Industrial Engineering and Operations Management, pp. 07-10.
Lakho, T. H., Khan, M. A., Virk, S. I., Indher, A. A., & Khaskheli, S. A. (2021). Evaluation of Overall Equipment Effec-tiveness in a Heavy Engineering Industry: A Case Study. Proceedings of the First Central American and Caribbean In-ternational Conference on Industrial Engineering and Operations Management, pp. 363-372.
Lanza, G., Stoll, J., Stricker, N., Peters, S. & Lorenz, C. (2013). Measuring global production effectiveness. Procedia CIRP,7, pp. 31-36. https://doi.org/10.1016/j.procir.2013.05.006
Muthiah, K.M.N., Huang, S.H. & Mahadevan, S. (2008). Automating factory performance diagnostics using overall throughput effectiveness (OTE) metric. The International Journal of Advanced Manufacturing Technology, 36(7), 811-824. https://doi.org/10.1007/s00170-006-0891-x
Muthukumar, S., & Thiruchitrambalam, M. (2020, December). Performance augmentation of machining centers by im-proving the overall equipment effectiveness in subsystems. In IOP Conference Series: Materials Science and Engi-neering (Vol. 993, No. 1, p. 012024). IOP Publishing.
Muthumanickam, A., Thugudam, L. K., Hossain, N. U. I., Lawrence, J. M., & Jaradat, R. (2020). Determining the Con-sistency Rate for Overall Equipment Effectiveness Using the Coefficient of Variance Method. In Proceedings of the International Annual Conference of the American Society for Engineering Management, pp. 1-8. American Society for Engineering Management (ASEM).
Nakhla, M. (2018). Designing extended overall equipment effectiveness: Application in healthcare operations. Interna-tional Journal of Management Science and Engineering Management, 13(4), 227-236. https://doi.org/10.1080/17509653.2017.1373377
Nallusamy, S., Kumar, V., Yadav, V., Parsad, U.K. & Suman, S. K.(2018). Implementation of Total Productive Mainte-nance to Enhance the Overall Equipment Effectiveness in Medium Scale Industries. International Journal of Mechani-cal Engineering and Technology, 8(1), 1027–38.
Nallusamy, S., & Majumdar, G. (2017). Enhancement of overall equipment effectiveness using total productive mainte-nance in a manufacturing industry. International Journal of Performability Engineering, 13(2), 01–16. http://dx.doi.org/10.23940/ijpe.17.02.p7.173188
Okpala, C., Anozie, S. (2018). Overall equipment effectiveness and the six big losses in total productive maintenance. Journal of Scientific and Engineering Research, 5(4), 156-164.
Palanisamy, V., & Vino, J. A. (2013). Implementing overall equipment effectiveness in a process industry. Indian Journal of Science and Technology, 6(6), 4789–4793. https://dx.doi.org/10.17485/ijst/2013/v6isp6.17
Puvanasvaran, A.P., Mei, C.Z. & Alagendran, V.A. (2013). Overall equipment efficiency improvement using time study in an aerospace industry. Procedia Engineering, 68, 271-277. https://doi.org/10.1016/j.proeng-2013-12-179
Rajput, H.S. & Jayaswal, P. (2012). A total productive maintenance (TPM) approach to improve overall equipment effi-ciency. International Journal of Modern Engineering Research, 2(6), 4383-4386.
Rasib, A. A., Ebrahim, Z., Abdullah, R., & Rafaai, Z. M. (2019). Improvement of Overall Equipment Effectiveness through Application of Single-Minute Exchange of Die in Automotive Manufacturing. Test Engineering and Manage-ment, 81(3650), 3650-3659.
Relkar, A. S., & Nandurkar, K. N. (2012). Optimizing & analyzing overall equipment effectiveness (OEE) through design of experiments (DOE). Procedia engineering, 38, pp. 2973-2980. https://doi.org/10.1016/j.proeng.2012.06.347
Ribeiro, I. M., Godina, R., & Matias, J. C. (2018, July). Improving the availability of a production line through tpm in an automotive gearbox industrial unit. In International Joint conference on Industrial Engineering and Operations Man-agement, 149-156. Springer, Cham. http://dx.doi.org/10.1007/978-3-030-14973-4-14
Salim, R. K., & Rameshkumar, G. R. (2016). Optimization of Overall Equipment Effectiveness Through Total Productive Maintenance Perspective–A Case Study. International Journal Multidisciplinary Science & Engineering, 7(1).
Singh, M., & Narwal, M. (2017). Measurement of Overall Equipment Effectiveness (OEE) of a manufacturing industry: An effective lean tool. International journal of recent trends in engineering and research, 3(5), 268-275.
Van Horenbeek, A., Pintelon, L., Bey-Temsamani, A., & Bartic, A. (2014). Multi-objective optimization of OEE (Overall Equipment Effectiveness) regarding production speed and energy consumption. In PHM Society European Conference, 2(1). https://doi.org/10.36001/phme.2014.v2i1.1525
VivekPrabhu, M., Karthick, R., & Kumar, G. S. (2014). Optimization of Overall Equipment Effectiveness in A Manufac-turing System. International Journal of Innovative Research in Science, Engineering and Technology, 3(3), 1192-1196.
Zammori, F. (2014). Fuzzy overall equipment effectiveness (FOEE): capturing performance fluctuations through LR fuzzy numbers. Production Planning & Control, 26 (6), pp. 451-466. https://doi.org/10.1080/09537287-2014-920545
Zennaro, I., Battini, D., Sgarbossa, F., Persona, A. and De Marchi, R. (2018). Micro downtime: data collection, analysis and impact on OEE in bottling lines the San Benedetto case study. International Journal of Quality & Reliability Man-agement, 35(4), 965-995. https://doi.org/10.1108/IJQRM-11-2016-0202
Agustiady, T. K., & Cudney, E. A. (2018). Total productive maintenance. Total Quality Management & Business Excel-lence, pp.1-8. https://doi.org/10.1080/14783363.2018.1438843
Ahuja, I. P. S., & Khamba, J. S. (2008). Total productive maintenance: literature review and directions. International journal of quality & reliability management, 25(7). https://doi.org/10.1108/02656710810890890
Aman, Z., Ezzine, L., Fattah, J., Lachhab, A., & Moussami, H. E. (2017, April). Improving efficiency of a production line by using overall equipment effectiveness: A case study. In Proceedings of the International Conference on Industrial Engineering and Operations Management, Rabat, Morocco, pp. 1048-1057.
Baghbani, M., Iranzadeh, S., & Bagherzadeh Khajeh, M. (2019). Investigating the relationship between RPN parameters in fuzzy PFMEA and OEE in a sugar factory. Journal of Loss Prevention in the Process Industries, 60, 221-232. https://doi.org/10.1016/j.jlp.2019.05.003.
Chikwendu, O. C., Chima, A. S., & Edith, M. C. (2020). The optimization of overall equipment effectiveness factors in a pharmaceutical company. Heliyon, 6(4), e03796.
Daneshkhah, A., Stocks, N. G., & Jeffrey, P. (2017). Probabilistic sensitivity analysis of optimised preventive mainte-nance strategies for deteriorating infrastructure assets. Reliability Engineering & System Safety, 163, 33–45. https://doi.org/10.1016/j.ress.2017.02.002
Fore, S., and Zuze, L. (2010). Improvement of overall equipment effectiveness through total productive maintenance. In-ternational Journal of Industrial and Manufacturing Engineering, 4(1), 85-93.
Gupta, P., Vardhan, S., & Al Haque, M. S. (2015, March). Study of success factors of TPM implementation in Indian in-dustry towards operational excellence: An overview. In 2015 International Conference on Industrial Engineering and Operations Management (IEOM) (pp. 1-6). IEEE.
Gupta, P., Vardhan, S. & Haque, M.S.A. (2015). Study of success factors of TPM implementation in Indian industry to-wards operational excellence: an overview. Proceedings of the 2015 International Conference on Industrial Engineer-ing and Operations Management, Aveiro, March 3-5, pp. 2485-2490.
Hemanand, K., Amuthuselvan, D., Raja, S. C., & Sundararaja, G. (2012). Improving productivity of manufacturing divi-sion using lean concepts and development of material gravity feeder–a case study. International Journal of lean think-ing, 3(2), pp. 117–134.
Huang, S. H., Dismukes, J. P., Shi, J., Su, Q. I., Razzak, M. A., Bodhale, R., & Robinson, D. E. (2003). Manufacturing productivity improvement using effectiveness metrics and simulation analysis. International journal of production re-search, 41(3), pp. 513-527. http://dx.doi.org/10.1080/0020754021000042391
Ihueze, C. C., & U-Dominic, C. M. (2017). Maximizing overall equipment effectiveness in a food processing industry: a case study. Archives of Current Research International, 10(4), pp. 1-10. http://doi.org/10.9734/ACRI-2017-38187
Kapuyanyika, M., & Suthar, K. (2018). To improve the overall equipment effectiveness of wheel surface machining plant of railway using total productive maintenance. International Journal of Scientific Research in Science and Technology, 4(5), pp.1860-1874.
Lakho, T. H., Khan, M. A., Virk, S. I., & Indher, A. A. (2020). Implementation of Overall Equipment Effectiveness (OEE) in Maintenance Management. Proceedings of the International Conference on Industrial Engineering and Operations Management, pp. 07-10.
Lakho, T. H., Khan, M. A., Virk, S. I., Indher, A. A., & Khaskheli, S. A. (2021). Evaluation of Overall Equipment Effec-tiveness in a Heavy Engineering Industry: A Case Study. Proceedings of the First Central American and Caribbean In-ternational Conference on Industrial Engineering and Operations Management, pp. 363-372.
Lanza, G., Stoll, J., Stricker, N., Peters, S. & Lorenz, C. (2013). Measuring global production effectiveness. Procedia CIRP,7, pp. 31-36. https://doi.org/10.1016/j.procir.2013.05.006
Muthiah, K.M.N., Huang, S.H. & Mahadevan, S. (2008). Automating factory performance diagnostics using overall throughput effectiveness (OTE) metric. The International Journal of Advanced Manufacturing Technology, 36(7), 811-824. https://doi.org/10.1007/s00170-006-0891-x
Muthukumar, S., & Thiruchitrambalam, M. (2020, December). Performance augmentation of machining centers by im-proving the overall equipment effectiveness in subsystems. In IOP Conference Series: Materials Science and Engi-neering (Vol. 993, No. 1, p. 012024). IOP Publishing.
Muthumanickam, A., Thugudam, L. K., Hossain, N. U. I., Lawrence, J. M., & Jaradat, R. (2020). Determining the Con-sistency Rate for Overall Equipment Effectiveness Using the Coefficient of Variance Method. In Proceedings of the International Annual Conference of the American Society for Engineering Management, pp. 1-8. American Society for Engineering Management (ASEM).
Nakhla, M. (2018). Designing extended overall equipment effectiveness: Application in healthcare operations. Interna-tional Journal of Management Science and Engineering Management, 13(4), 227-236. https://doi.org/10.1080/17509653.2017.1373377
Nallusamy, S., Kumar, V., Yadav, V., Parsad, U.K. & Suman, S. K.(2018). Implementation of Total Productive Mainte-nance to Enhance the Overall Equipment Effectiveness in Medium Scale Industries. International Journal of Mechani-cal Engineering and Technology, 8(1), 1027–38.
Nallusamy, S., & Majumdar, G. (2017). Enhancement of overall equipment effectiveness using total productive mainte-nance in a manufacturing industry. International Journal of Performability Engineering, 13(2), 01–16. http://dx.doi.org/10.23940/ijpe.17.02.p7.173188
Okpala, C., Anozie, S. (2018). Overall equipment effectiveness and the six big losses in total productive maintenance. Journal of Scientific and Engineering Research, 5(4), 156-164.
Palanisamy, V., & Vino, J. A. (2013). Implementing overall equipment effectiveness in a process industry. Indian Journal of Science and Technology, 6(6), 4789–4793. https://dx.doi.org/10.17485/ijst/2013/v6isp6.17
Puvanasvaran, A.P., Mei, C.Z. & Alagendran, V.A. (2013). Overall equipment efficiency improvement using time study in an aerospace industry. Procedia Engineering, 68, 271-277. https://doi.org/10.1016/j.proeng-2013-12-179
Rajput, H.S. & Jayaswal, P. (2012). A total productive maintenance (TPM) approach to improve overall equipment effi-ciency. International Journal of Modern Engineering Research, 2(6), 4383-4386.
Rasib, A. A., Ebrahim, Z., Abdullah, R., & Rafaai, Z. M. (2019). Improvement of Overall Equipment Effectiveness through Application of Single-Minute Exchange of Die in Automotive Manufacturing. Test Engineering and Manage-ment, 81(3650), 3650-3659.
Relkar, A. S., & Nandurkar, K. N. (2012). Optimizing & analyzing overall equipment effectiveness (OEE) through design of experiments (DOE). Procedia engineering, 38, pp. 2973-2980. https://doi.org/10.1016/j.proeng.2012.06.347
Ribeiro, I. M., Godina, R., & Matias, J. C. (2018, July). Improving the availability of a production line through tpm in an automotive gearbox industrial unit. In International Joint conference on Industrial Engineering and Operations Man-agement, 149-156. Springer, Cham. http://dx.doi.org/10.1007/978-3-030-14973-4-14
Salim, R. K., & Rameshkumar, G. R. (2016). Optimization of Overall Equipment Effectiveness Through Total Productive Maintenance Perspective–A Case Study. International Journal Multidisciplinary Science & Engineering, 7(1).
Singh, M., & Narwal, M. (2017). Measurement of Overall Equipment Effectiveness (OEE) of a manufacturing industry: An effective lean tool. International journal of recent trends in engineering and research, 3(5), 268-275.
Van Horenbeek, A., Pintelon, L., Bey-Temsamani, A., & Bartic, A. (2014). Multi-objective optimization of OEE (Overall Equipment Effectiveness) regarding production speed and energy consumption. In PHM Society European Conference, 2(1). https://doi.org/10.36001/phme.2014.v2i1.1525
VivekPrabhu, M., Karthick, R., & Kumar, G. S. (2014). Optimization of Overall Equipment Effectiveness in A Manufac-turing System. International Journal of Innovative Research in Science, Engineering and Technology, 3(3), 1192-1196.
Zammori, F. (2014). Fuzzy overall equipment effectiveness (FOEE): capturing performance fluctuations through LR fuzzy numbers. Production Planning & Control, 26 (6), pp. 451-466. https://doi.org/10.1080/09537287-2014-920545
Zennaro, I., Battini, D., Sgarbossa, F., Persona, A. and De Marchi, R. (2018). Micro downtime: data collection, analysis and impact on OEE in bottling lines the San Benedetto case study. International Journal of Quality & Reliability Man-agement, 35(4), 965-995. https://doi.org/10.1108/IJQRM-11-2016-0202