REVIEW AND ESTABLISHING FRAMEWORK MODEL TO ADOPTION ISO 50001 ENERGY MANAGEMENT SYSTEM IN POWER STATIONS

  • Seri Rahayu Kamat Universiti Teknikal Malaysia Melaka
  • Noor Shakir Mahmood Ministry of Electricity, Baghdad, Iraq
  • Ahmed Ali Ajmi Ministry of Electricity, Baghdad, Iraq

Abstract


The energy sources around the world become scarce with increase prices. Governments and companies seek to develop technologies for energy management including ISO 50001. In nowadays, the reduce of the consumption electricity and the increase in energy efficiency have become is very important. To achieve these criteria, the organizations began to adoption ISO 50001 in every operational and organizational structure.

ISO 50001 assist the large and small organizations to achieve the highest of the efficiency of the energy produced and an increase in the stability of organizations in private or public sectors.

The ISO 50001 able to establish and create the framework model for any organization to improve the full energy management. This paper seeks to identify the most important variables in ISO 50001 that affect energy management in any power station. To increase the performance and efficiency of Power Stations. This paper presents a systematic review of the literature that has relation with adoption ISO 50001 in the power stations.

This paper established a new conceptual framework for adoption ISO 50001 and to present the ISO 50001 as a system to energy management and increase the efficiency of the energy of organization in various fields.

This study assumed to establish the framework model to test the performance of energy through ISO 50001 to include a set of factors that affect on the efficiency of energy in power stations like (Sustainability of Economic, Improvement the Quality, Performance of Environmental, Reduce of the costs and reduction of energy). The framework model that proposed in this paper supports the power stations by various methods to create energy sustainable in the power stations.

Downloads

Download data is not yet available.

References

Karcher, P., & Jochem, R. (2015). Success factors and organizational approaches for the implementation of energy management systems according to ISO 50001. The TQM Journal, 27(4).

Jeremy Lagorse, Damien Paire & Abdellatif Miraoui., “A multi-agent system for energy management of distributed power sources”, International Journals on Renewable Energy(Elsevier) 35 (2010) 174–182,2010.

Shibata, K., Nakayama, H., Hayashi, T., & Ata, S. (2015, May). Establishing PDCA cycles for agile network management in SDN/NFV infrastructure. In Integrated Network Management (IM), 2015 IFIP/IEEE International Symposium on (pp. 619-625). IEEE.‏

Castka, P., & Corbett, C. J. (2015). Management Systems Standards: Diffusion, Impact and Governance of ISO 9000, ISO 14000, and Other Management Standards. Foundations and Trends (R) in Technology, Information and Operations Management, 7(3-4), 161-379.

Wiberg, R. 2007. Energiförbrukning i massa- och pappersindustrin 2007. Stockholm: Skogsindustrierna.

Cooremans, C. 2012. “Investments in energy efficiency: do the characteristics of investments matter?” Energy Efficiency DOI: 10.1007/s12053-012-9154-x.

Goldberg A., E. Holdaway, J. Reinaud, & S. O’Keeffe (2012). Promoting energy savings and GHG mitigation through industrial supply chain initiatives. Institute for Industrial Productivity.

Ferland, K., Scheihing, P. E., & Siciliano, G. F. (2015). Energy Management Standards. Energy Management and Efficiency for the Process Industries, 66-80.

Saarela, L., Harjunkoski, I., Isaksson, A., Säynevirta, S., Merkert , A., & Sand, G. (2015). Scheduling and energy–Industrial challenges and opportunities. Computers & Chemical Engineering, 72, 183-198.

Murray, B. P., Walsh, S. N., & O’Sullivan, D. T. J. (2015). The water energy nexus, an ISO50001 water case study and the need for a water value system. Water Resources and Industry, 10, 15-28.

Tsai, T. Y., Lo, S. L. Chiu, &, Y. Y. (2012). Establishing an integration-energy-practice model for improving energy performance indicators in ISO 50001 energy management systems. Energies, 5(12), 5324-5339.

Richard Hart and Chad Gilless, EnerNOC, Inc. (2013) A Compelling Combination: ISO 50001 and Resource Acquisitio).

Quispe, A. J., Castrillón, R., & Gonzàlez, E. C. (2012, May). Energy efficiency improvement in the cement industry through energy management. In Cement Industry Technical Conference, 2012 IEEE-IAS/PCA 53rd (pp. 1-13).

Paul G, Ranky (2012, May). Sustainable energy management and quality process models based on ISO 50001: 2011 the International Energy Management Standard. In 2012 IEEE International Symposium on Sustainable Systems and Technology (ISSST).

Almaguer, P. E., Scheihing, J. A., de los Reyes, P. B., & Fisher-Evans, T. E. (2013). Superior Energy Performancecm: A Roadmap for Continual Improvement in Energy Efficiency. Strategic Planning for Energy and the Environment, 32(3), 39-55.

Axelsson, G., 2013. Conceptual Models of Geothermal Systems –. , pp.1–13.

Published
2016-12-28
How to Cite
Kamat, S. R., Mahmood, N., & Ajmi, A. (2016). REVIEW AND ESTABLISHING FRAMEWORK MODEL TO ADOPTION ISO 50001 ENERGY MANAGEMENT SYSTEM IN POWER STATIONS. Journal of Advanced Manufacturing Technology (JAMT), 10(2), 67-78. Retrieved from https://jamt.utem.edu.my/jamt/article/view/673
Section
Articles