Document Type : Review Paper
Department of Industrial Engineering, Faculty of Technic, Bhayangkara Jakarta Raya University, DKI Jakarta, Indonesia.
Department of Industrial Engineering, Faculty of Technic, Pelita Bangsa University, Jawa Barat, Indonesia.
The number of pipeline construction industry and electricity prices in Indonesia from 2013 to 2019 has increased. In order for the pipeline construction industry to be sustainable and competitive, the industry must strive to reduce electricity consumption, one of which is the ISO 50001 energy management system approach. This research identifies energy intensity data; energy performance data from Significant Energy Use (SEU) in the production process of the pipeline construction industry and comparing it with baseline values; targets to be achieved; and analyzing the effects of machines, materials, methods, human and environmental factors on energy consumption. Based on the results of the discussion, this research can conclude that the construction of piping work requires electricity for the cutting and welding process. The highest electrical intensity intensity is in the welding process, which averages 16.4 KJ/cm (88.2% of total energy consumption) and the cutting process is 2.2 KJ/cm (11.8% of total energy consumption). So a significant use of energy for corrective action is that the pipe work process is a welding process. Factors that cause high energy consumption/energy intensity in pipe construction work include method and material factors. Result of every factors can reduce the electricity consumption of the welding process from 16.4 KJ/cm to 7.5 KJ/cm (54.3%).
- Abdelaziz, E. A., Saidur, R., & Mekhilef, S. (2011). A review on energy saving strategies in industrial sector. Renewable and sustainable energy reviews, 15(1), 150-168.
- Fahad Dakhil, S., & Oudah, K. (2018). Experimental and CFD analysis for the solar heat pump by using phase change material. Journal of applied research on industrial engineering, 5(2), 169-180.
- Byrne, A., Barrett, M., & Kelly, R. (2014). Implementation of ISO 50001 energy management system in sports stadia. SDAR* Journal of sustainable design & applied research, 2(1), 1. https://arrow.tudublin.ie/sdar/vol2/iss1/1
- Choudhury, A. (2012). ISO 50001: are the auditors equipped enough. Open journal of energy efficiency, 1(03), 57-61.
- Dörr, M., Wahren, S., & Bauernhansl, T. (2013). Methodology for energy efficiency on process level. Procedia CIRP, 7, 652-657.
- Dzene, I., Polikarpova, I., Zogla, L., & Rosa, M. (2015). Application of ISO 50001 for implementation of sustainable energy action plans. Energy procedia, 72, 111-118.
- Gottsche, J., Kelly, M., & Taggart, M. (2016). Assessing the impact of energy management initiatives on the energy usage during the construction phase of an educational building project in Ireland. Construction management and economics, 34(1), 46-60.
- Javied, T., Rackow, T., & Franke, J. (2015). Implementing energy management system to increase energy efficiency in manufacturing companies. Procedia CIRP, 26, 156-161.
- Kanneganti, H., Gopalakrishnan, B., Crowe, E., Al-Shebeeb, O., Yelamanchi, T., Nimbarte, A., ... & Abolhassani, A. (2017). Specification of energy assessment methodologies to satisfy ISO 50001 energy management standard. Sustainable energy technologies and assessments, 23, 121-135.
- Lestari, R. M., Baihaqi, I., & Persada, S. F. (2018). Praktik manajemen energi pada industri manufaktur. Jurnal Teknik ITS, 7(1), B35-B38. DOI: 12962/j23373539.v7i1.28716
- Marimon, F., & Casadesús, M. (2017). Reasons to adopt ISO 50001 energy management system. Sustainability, 9(10), 1740. https://doi.org/10.3390/su9101740
- Mkhaimer, L. G., Arafeh, M., & Sakhrieh, A. H. (2017). Effective implementation of ISO 50001 energy management system: applying Lean Six Sigma approach. International journal of engineering business management, 9, 1-12. https://doi.org/10.1177/1847979017698712
- Moslemi, N., Redzuan, N., Ahmad, N., & Hor, T. N. (2015). Effect of current on characteristic for 316 stainless steel welded joint including microstructure and mechanical properties. Procedia CIRP, 26, 560-564.
- Mulyani, F., Suyono, H., & Hassanah, R. N. (2018). Audit dan rancangan implementasi sistem manajemen energi berbasis ISO 50001 di universitas Brawijaya Malang. Journal EECCIS, 12(2), 78-84.
- Carmen, P., & Laura, B. (2016). Effective energy planning for improving the enterprise’s energy performance. Management & marketing, 11(3), 512-531.
- Ministry of Energy and Mineral Resources. (2022). Retrieved January 10, 2022, from https://www.esdm.go.id/