International Journal of Metallurgy and Alloys

Open Access  Subscription or Fee Access

grid interconnections offer links between power generating systems of adjoining countries with the aim of economical power sharing. Grid interconnection also offers several benefits such as reduced energy prices, better economic exchange and increased energy supply etc. The interconnection of power grids is a complex task which is affected by numerous parameters. These parameters not only influence the interconnection of grids but also influence each other. The main objective of this paper is to understand the mutual interaction of these grid interconnection parameters and identify the ‘driving parameters’ (i.e. which influence the other parameters) and the ‘dependent parameters’ (i.e. which are influenced by others). In the present exertion, these parameters have been identified through the extensive literature review and interpretive structural modelling (ISM) approach has been utilized in analysing their mutual interaction. An ISM model has been prepared to identify some key parameters of grid interconnection. Moreover, the driving power and dependence power of these parameters are also modelled by using MICMAC analysis. Keywords: grid, interconnection, ISM, MICMAC, parameters

Kumar K., Mathew S.S. Power quality improvement through pitch angle control of variable speed wind turbines, Int J Adv Res Electr Electron Instrum Eng. 2014; 3(6): 10353–8p.

Arya Y., Kumar N., Mathur H.D. Automatic generation control in multi area interconnected power system by using HVDC links, Int J Power Electr Drive Syst. 2012; 2(1): 67–75p.

Mukta, Surjan B.S. Tie-line frequency deviation control of an interconnected system using wind turbine generator, Int J Adv Electr Electron Eng.. 2013; 2(6): 131–8p.

Rashid T.H.M.S., Islam R. Prospects of renewable energy resources and regional grid integration for future

energy security & development in SAARC countries, Int J Res Eng Technol. 2013; 2(1): 43–51p.

United Nations, Department of Economic and Social Affairs. Multi-Dimensional Issues in International Electric Power Grid Interconnections. Report by United Nations, Department of Economic and Social Affairs, New York, 2006, http://sustainabledevelopment.un.org/content/documents/interconnections.pdf.

Asia Pacific Energy Research Centre Institute of Energy Economics. Power Interconnection in APEC region Current status and Future Potentials. Report by Asia Pacific Energy Research Centre Institute of Energy Economics, Japan, March 2000.http://www.ieej.or.jp/aperc/final/interconnection.pdf.

Mukta, Surjan B.S. Load frequency control of interconnected power system in deregulated environment: a literature review, Int J Eng Adv Technol. 2013; 2(3): 435–41p.

Mukta, Surjan B.S. Grid Stability of interconnected system with fuzzy-logic controller & HVDC in deregulated environment, Int J Soft Comput Eng. 2013; 2(6): 283–8p.

Attri R., Dev N., Sharma V. Interpretive structural modelling (ISM) approach: an overview, Res J Manag Sci. 2013a; 2(2): 3–8p.

“Technical Aspects of Grid Interconnection” Available online at http://www.un.org/esa/sustdev/publications/energy/chapter2.pdf.

“Interconnection of India with SAARC Countries” Available online at http://nea.org.np/neademo/presentations/2.%20Interconnection%20of%20India%20with%20SAARC%20Countries_pres.pdf.

“HVDC for Cross Border Power Transmission” Available online athttp://www.sari-energy.org/PageFiles/What_We_Do/activities/Cross_Border_Conference_Feb_2012/Presentations/2.1_Ooommen_Chandy.pdf.

“Integrating electricity sectors in Canada: Good for the environment and for the economy” Available online at http://ideefederale.ca/documents/Electricity_ang.pdf.

“Operating Reserves and Variable Generation” Available online at http://www.nrel.gov/docs/fy11osti/51978.pdf.

“Cross-Border Interconnections on Every Continent” Available online at http://www.geni.org/globalenergy/research/cross-border-interconnections/Cross-Border%20Interconnections%20on%20Every%20Continent.pdf.

Warfield J.N. Developing interconnection matrices in structural modeling, IEEE Transactions on Systems, Man and Cybernetics. 1974; 4(1): 81–7p.

Sage A.P. Interpretive Structural Modeling: Methodology for Large-scale Systems. New York, NY: McGraw-Hill; 1977, 91–164p.

Attri R., Grover S., Dev N., et al. An ISM approach for modelling the enablers in the implementation of Total Productive Maintenance (TPM), Int J Syst Assur Eng Manag. 2013b; 4(4): 313–26p.

Attri R., Grover S., Dev N., et al. Analysis of barriers of Total Productive Maintenance (TPM), Int J Syst Assur Eng Manag. 2013c; 4(4): 365–77p.

Raj T., Attri R. Identification and modelling of barriers in the implementation of TQM, Int J Prod Qual Manag. 2011; 28(2): 153–79p.

Raj T., Attri R., Jain V. Modelling the factor affecting flexibility in FMS, Int J Ind Syst Eng. 2012; 11(4): 350–74p.

Attri R., Grover S. Analyzing the scheduling system stage of production system life cycle, Manage Sci Lett. 2015a; 5(5): 431–42p.

Attri R., Grover S. Contextual relationship among the quality enabled factors of inventory control system stage, Int J Recent Adv Mech Eng. 2015b; 4(2): 45–57p.

Toktaş-Palut P., Baylav E., Teoman S., et al. The impact of barriers and benefits of e-procurement on its adoption decision: an empirical analysis, Int J Prod Econ. 2014; 158: 77–90p.

Mahajan R., Agrawal R., Sharma V., et al. Factors affecting quality of management education in India, Int J Educ Manage. 2014; 28(4): 379–99p.

Routroy S., Pradhan S.K. Benchmarking model of supplier development for an Indian gear manufacturing company, Benchmarking: Int J. 2014; 21(2): 253–75p.

Tripathy S., Sahu S., Ray P.K. Interpretive structural modelling for critical success factors of R&D performance in Indian manufacturing firms, J Model Manage. 2013; 8(2): 212–40p.

Chander M., Jain S.K., Shankar R. Modeling of information security management parameters in Indian organizations using ISM and MICMAC approach, J Model Manag. 2013; 8(2): 171–89p.

Sharma R.K., Kumar D., Kumar P. FLM to select suitable maintenance strategy in process industries using MISO model, J Qual Maintenance Eng. 2005; 11(4): 359–74p.

Mandal A., Deshmukh S.G. Vendor selection using interpretive structural modeling (ISM), Int J Oper Prod Manage. 1994; 14(6): 52–9p.