Mehran University Research Journal Of Engineering &
Technology (HEC Recognized In Category "X")
Publishing Since 1982.

For Authors
For Readers
Article Information  
A Proposed Supergrid Model for National Transmission Network of Pakistan

Keywords: Wind Energy, High Voltage Direct Current Transmission, Super Grid, Control Operations

Mehran University Research Journal of Engineering & Technology

Volume 36 ,  Issue 1


1. Akhter, F., Macpherson, D.E., and Shahzad, N., "Impact of Wind Integration on National Transmission Network", Communication Technology Information Security Sustainable Development, Volume 414, pp. 13-23, 2014
2. Rashid, T.H.M.S., and Islam, R., "Prospects of Renewable Energy Resources and Regional Grid Integration for Future Energy Security & Development in SAARC Countries", Internatonal Journal Research Engineering Technology, pp. 43-51, 2013.
3. Airtricity, "European Offshore Supergrid Proposal: Vision and Executive Summary", 2010.
4. B4-WG.37, "VSC Transmission", International Conference on Large High-Volatge Electrical System, Volume CIGRE, 2005.
5. Akhter, F., Macpherson, D.E., and Harrison, G.P., "Enhanced Multi-Terminal HVDC Grid Management for Reliable AC Network Integration", 7th IET International Conference on Power Electronic Mechanics Drives, pp. 0495-0495, 2014.
6. Report, R., "National Power System Expansion Plan Excutive Summary", 2011
7. CIGRE Working Group B4.52, "HVDC Grid Feasibility Study", 2013.
8. Peralta, J., Saad, H., Dennetière, S., and Mahseredjian, J., "Dynamic Performance of Average-Value Models for Multi-terminal VSC-HVDC Systems", IEEE Power and Energy Society General Meeting, pp. 1-8, 2012.
9. Moustafa, M.M.Z., "Operating Limits and Dynamic Average-Value Modelling of VSC-HVDC Systems", University of Manitoba, 2011
10. Nakajima, T., and Irokawa, S., "A Control System for HVDC Transmission by Voltage Sourced Converters", Power Engineering Society Summer Meeting, pp. 1113-1119, 1999
11. Lu, W., and Ooi, B.-T., "Optimal Acquisition and Aggregation of Offshore Wind Power by Multiterminal Voltage-Source HVDC", IEEE Transactions on Power Delivery, Volume 18, No. 1, pp. 201-206, 2003.
12. Zhu, J., and Booth, C., "Future Multi-Terminal HVDC Transmission Systems using Voltage Source Converters", 45th International Conference on Universities Power Engineering, pp. 1-6, 2010.
13. Malesani. L., and Tomasin, P., "PWM Current Control Techniques of Voltage Source Converters - A Survey", IEEE 19th Annual Conference on Industrial Electronics, pp. 670-675, 1993.
14. Ooi, B.T., and Wang, X., "Voltage Angle Lock Loop Control of the Boost type PWM Converter for HVDC Application", IEEE Transactions on Power Electronic, Volume 5, No. 2, pp. 229-235, April, 1990.
15. Haileselassie, T.M., and Uhlen, K., "Precise Control of Power Flow in Multiterminal VSC-HVDCs using DC Voltage Droop Control", IEEE Power Energy Society General Meeting, pp. 1-9, July, 2012.
16. Akhter, F., Macpherson, D.E., Harrison, G.P., and Bukhsh, W.A., "DC Voltage Droop Control Implementation in the AC/DC Power Flow Algorithm: Combinational Approach", IET 11th International Conference on AC and DC Power Transmission, pp. 1-6, 2015.