Agustinus Hariadidp
ABSTRACT
A cement plant was required to provide consistency of its energy performance through energy system implementation and a third-party certification. However, the plant has not an energy system in place to answer the quick demand apart from routine energy measurement. Energy design and implementation of management system (EDIM) based on ISO 50001: 2018 and the Pearce II and Robinson's strategic management model is then made and implemented to answer the problem. The ISO model contributes much on operational risks whilst the second emphasizes on strategic ones. The study applies qualitative method through interactions with 2 energy experts in strategic and management system and 3 plant staff dealing with energy and management system. Interview, notetaking and written comments are done to get themes of the issues. The investigation results in that the EDIM model has fully met requirements of the ISO 50001 as well as the strategic management model. It has provided adequate implementable framework and easily applied to attain energy performance indicators. Problems, though, are emerged during implementation due to separated strategic actions with operational practices including use of new energy-management terms asking for longer time to be comprehended. In conclusion, consistent energy performance in current business situation can be assured through the model consisting of strategic and operational components.
- S. Anwar and L. Afrilzami, "An evaluation of energy efficiency in cement plants using data development analysis approach," Seminar Nasional IENACO., p. ISSN 2337-4349, 2016.Google Scholar
- Bruneo, Cucinotta, Minnolo and Puliafito, "Energy Management in Industrial Plants," Computers, vol. 1, pp. 24--40, 2012.Google ScholarCross Ref
- N. Anantharaman, "Energy audit in cement industry (1500 tpd)," International Journal of Science Technology & Engineering, vol. 3, no. 10, 2017.Google Scholar
- R. Virendra, S. Kumar, J. Babu and D. Kant, "Detailed energy audit and conservation in a cement plant," International Research Journal of Engineering and Technology (IRJET), vol. 2, no. 1, 2015.Google Scholar
- M. Sogut, M. Uysal, Y. Gazibey and A. Hepbasli, "Concept mapping sustainable energy management for a holistic approach to energy strategies," International Journal Global Warming, vol. 10, pp. 1--3, 2016.Google ScholarCross Ref
- M. Schulze, H. Nehler, M. Ottoson and P. Thollander, "Energy Management in industry - a systematic review of previous findings and an integrative conceptual framework," Journal of Cleaner Production, 2015.Google Scholar
- A. Joshi and S. Venugopal, "Energy Management System in India," International Journal of Engineering and Technology (IRJET), vol. 3, no. 11, pp. E-ISSN: 2395--0056, 2016.Google Scholar
- M. Pusnik, F. Al-Mansour, B. Sucic and A. Gubina, "Gapa analysis of industrial energy management systems - case study Slovenia," 2014.Google Scholar
- J. Sarduy, P. Felipe, Y. Torres, Plascencia, Maag, V. Santos and D. Haeseldonckx, "A New energy performance indicator for energy management system of a Wheat Mill Plant," International Journal of Energy Economics and Policy, vol. 8, no. 4, pp. 324--330, 2018.Google Scholar
- A. Hariyadi, "Total Quality Management: A Strategic Management Model," European Research Studies Journal, vol. XXI, no. 2, 2018.Google Scholar
- Paraschievescu and A.O., "The advantages of the process of integrating QMS," in Economy transdisciplinary cognition, 2016, pp. 48--55.Google Scholar
- "INTERNATIONAL STANDARD ISO 9001," Quality Management System Requirements, 2015.Google Scholar
- "INTERNATIONAL STANDARD ISO 14001," Environmental Management System Requirements, 2015.Google Scholar
- "INTERNATIONAL STANDARD ISO 50001," Energy Management System Requirements, 2018.Google Scholar
- "Government Regulation number 70," Energy conservation. Ministry of Energy, 2009.Google Scholar
- H. Mbewe, "Stakeholder influence in promoting environmental sustainability," Global Research and Development Journal For Engineering, vol. I, no. 7, 2017.Google Scholar
- Ansoff and M. Donnelll, "Implanting strategic management," Prentice Hall, 1990.Google Scholar
- I. Pearce and J. Robinson, "Manajemen Strategis," Salemba Empat, no. Edition 12, 2015.Google Scholar
Index Terms
- Strategic Energy Management Model in A Cement Plant in Indonesia
Recommendations
Joint Energy Management for Distributed Energy Harvesting Systems
SenSys '21: Proceedings of the 19th ACM Conference on Embedded Networked Sensor SystemsEmploying energy harvesting to power the Internet of Things supports their long-term, self-sustainable, and maintenance-free operation. These energy harvesting systems have an energy management subsystem to orchestrate the flow of energy and optimize ...
Energy management for interactive applications in mobile handheld systems
SAC '07: Proceedings of the 2007 ACM symposium on Applied computingThe usage of interactive applications increases in handheld systems. In this paper, we describe a system-level dynamic power management scheme that considers interaction between the CPU and the WNIC, and interactive applications to reduce the energy ...
Study on Management System of Energy Information in Manufacturing Processes
ICMTMA '10: Proceedings of the 2010 International Conference on Measuring Technology and Mechatronics Automation - Volume 03In order to manage energy utilization precisely in discrete manufactures and realize energy saving, energy information models were proposed firstly aiming at dispersive energy consumption and the problem of product energy consumption calculation. ...
Comments