GAPS OF INDIAN ELECTRICAL ENERGY SECTOR AND ITS OPTIMAL MITIGATION BY USING OPTIMAL UTILIZATION OF INDIAN RENEWABLE ENERGY POLICY WITH THE HELP OF THE P&O MPPT TECHNIQUE
Developing countries, especially, India, depend importantly on energy sources to perform their country’s industrial and economic activities. Mainly the two factors continuous population growth of the country and the rapid growth rate of industrialization of the country, the gap between electrical energy supply and demand for electrical energy is slowly and consistently increasing. To resolve this unevenness, there is a jointly planned attempt is required to enhance the contribution of renewable energy in the all over mix of energy. Despite these attempts, unexpected surges caused by the sector of domestic energy consumption could lead to important shortfalls between energy requirements at peak demand and available supply in India. As a solution to this challenge, the Union government of India has launched a new policy, named PM SURYA GHAR: MUFT BIJLI YOJANA, targeted to handle this crucial problem head-on. This initiative requires addressing the increasing energy demand by promoting the utilization of solar power in households throughout the length and breadth of the country. With the implementation techniques of Photo voltaic optimization, this analysis explores how such types of strategies can play a significant role in filling the gap between the energy supply-demand in the Indian context. Employing the solar energy potential and optimizing and utilization of solar energy, creates a path to not only meet the enhancing energy requirements but also creates the path for a more environmentally friendly and sustainable energy in India. By integration of innovative technologies and solutions of renewable energy holds the key to ensuring a balanced, sustainable, stable energy supply for the future of India and country’s growth and development.
Renewable Energy Policies and Their Effectiveness in Promoting Solar Energy Adoption in India. Turkish Online Journal of Qualitative Inquiry.
3.
Hore S, Sakile RK, Sinha UK. Solar Power Generation and Utilization—Policies in India. Vol. 1, Smart Energy and Advancement in Power Technologies: Select Proceedings of ICSEAPT 2021. p. 883–93.
4.
Dubey B, Agrawal S, Sharma AK. India’s Renewable Energy Portfolio: An Investigation of the Untapped Potential of RE, Policies, and Incentives Favoring Energy Security in the Country. Vol. 16, Energies. p. 5491.
5.
Kumar A, Pal D, Kar SK, Mishra SK, Bansal R. An overview of wind energy development and policy initiatives in India. Vol. 24, Clean Technologies and Environmental Policy. 2022. p. 1337–58.
6.
Subburayan B. Failure of India’s Renewable Energy Certificate (REC) Mechanism as a Climate Finance Policy. Vol. Aug;40(1):10-16, Climate and Energy.
7.
Mirza ZT, Vahidi B, Abedi M. Renewable Energy Development in India & Iran: A Comparative Review of Renewable Energy Policies. Vol. Apr;12(4):21-34, American Journal of Energy Engineering.
8.
Solar energy policy of India: An overview. CSEE Journal of Power and Energy Systems. 2020.
9.
Shankar U, Basu A. Chronicling Energy Law in India in the Era of Low-Carbon Transition. Handbook of Energy Law in the Low-Carbon Transition. 2023. p. 413–34.
10.
Sawhney A. Striving towards a circular economy: climate policy and renewable energy in India. Clean Technologies and Environmental Policy.
11.
Fukumi A. Issues in the Development of the Energy Distribution Sector in India: The Cases of the Electricity and Gas Industries. Kobe University Monograph Series in Social Science Research. 2021. p. 97–114.
12.
Ivan S. Energy transition in India: Challenges and prospects. undefined.
13.
Srivastav A. The Challenges of Energy Supply. Advances in Geographical and Environmental Sciences. 2021. p. 77–120.
14.
Srivastav A. Energy Sector Progression in India. Advances in Geographical and Environmental Sciences. 2021. p. 33–75.
15.
Usmani RA. Indian Energy Sector and Analysis of Potential of Bioenergy in India. In: Biofuels and Bioenergy (BICE2016) International Conference.
16.
Butaru F, Ancuti MC, Erdodi GM, Sorandaru C, Musuroi S, Ancuti R. Wind System Control at Time-Varying Wind Speeds Using the Perturb and Observe Method. In: IEEE 17th International Symposium on Applied Computational Intelligence and Informatics (SACI.
17.
Siddiqui N, Verma A, Srivastava D. Perturb and observe algorithm for MPPT of bifacial photovoltaic module. In: IEEE International Power and Renewable Energy Conference (IPRECON.
18.
Saibabu TC, Kumari JS. Modeling and simulation of pv array and its performance enhancement using MPPT (P&O) technique. Vol. 1, IJCSCN. p. 9–16.
19.
Pal S, Singhal AK, Roy S. A Modified Perturb and Observe Maximum Power Point Tracking Technique for Handling Partial Shading. In: IEEE Conference on Interdisciplinary Approaches in Technology and Management for Social Innovation (IATMSI.
20.
Kumari J, Babu CS. Mathematical modeling and simulation of photovoltaic cell using matlab-simulink environment. Vol. 1;2(1):26-34, International journal of Electrical and Computer engineering. 2012 Feb.
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