Modeling and Steady State Response Analysis of Interconnected Hybrid Renewable Energy Network with Embedded VSC – MTDC Transmission System for Secure and Efficient Power Delivery
- February 12, 2018
- Posted by: RSIS
- Categories: Electrical and Electronics Engineering, Engineering, Renewable Energy
International Journal of Research and Innovation in Social Science (IJRISS) | Volume I, Issue VII, July 2017 | ISSN 2454-6186
Ritu Raj Soni1, Radhey Shyam Meena2, Shivani Johari3, Mukesh Lodha4, Jitendra Singh Rathore5
1,3,4,5 Shri Balaji College of Engineering & Technology, Jaipur (Rajasthan)
2Ministry of New & Renewable Energy, New Delhi (India)
Abstract: This paper deals with one of the major challenge in the field of Indian Power Sector with a objective of to provide a framework for promotion of large grid connected and interconnected Renewable Energy (RE) networks for optimal and efficient utilization of transmission infrastructure and land, reducing the variability in renewable power generation and thus achieving secure and better grid stability with improved power quality at delivery end. The proposed studies are going to encourage new technologies, methods and wayouts involving combined operation of wind and solar PV power generation systems with embedded Voltage Source Converter (VSC)-MTDC transmission system, to transmit bulk power, to control power, to modulate power and to improvement in system stability. The paper focused on a case study of two separate-interconnected systems through a DC transmission network of the capacity of 24 kW wind power generation system and 24 kW solar power generation system has been used for analysis of steady state response of the system. Performance of the system and steady state response analyze using MATLAB techniques and is better then non-RE network and also found in acceptable range for secure operation and better grid stability.
Key words: Integrated Solar Wind System, Interconnected, Renewable Energy Network (IREN), Multi Terminal Direct, Current (MTDC) Transmission System, Voltage Source Converters (VSC), Power Quality (PQ) of India Power Sector, (IPS), Grid Stability (GS).
I. INTRODUCTION
India has set an ambitious target of reaching 175 GW of installed capacity from renewable energy sources including 100 GW from solar and 60 GW from wind and plan for 10 GW solar wind hybrid capacity by the year 2022 for which the Government of India has launched several schemes for promotion of solar and wind energy in the country to achieve the target.