Journal of Research and Advancement in Electrical Engineering (e-ISSN: 3048-8303)

Thermal technology, demand response to the distribution and transmission system, renewable energy generation, and production are the primary focuses of renewable energy integration. Integration and demonstration enhancements are made using the systems approach to overcome institutional, financial, regulatory, and technical obstacles to the utilization of renewable and distributed systems. The expansive target of this task is to configuration, exhibit and screen to fabricate coordinated sustainable power advances fitting for nearby circumstances. The technology for renewable energy, which is currently given the most authority at the government level in India, will be utilized in a variety of building types. The project will support a number of global initiatives aimed at reducing climate change, promoting urban growth, and increasing resource efficiency.

Javaid, N., Hafeez, G., Iqbal, S., Alrajeh, N., Alabed, M. S., & Guizani, M. (2018). Energy efficient integration of renewable energy sources in the smart grid for demand side management. IEEE access, 6, 77077-77096.

Usova, M. A., & Velkin, V. I. (2018, March). Possibility to use renewable energy sources for increasing the reliability of the responsible energy consumers on the enterprise. In 2018 17th International Ural Conference on AC Electric Drives (ACED) (pp. 1-4). IEEE.

Mei, S., Li, R., Xue, X., Chen, Y., Lu, Q., Chen, X.,& Chen, L. (2017). Paving the way to smart micro energy grid: concepts, design principles, and engineering practices. CSEE Journal of Power and Energy Systems, 3(4), 440-449.

Ahmed, S. D., Al-Ismail, F. S., Shafiullah, M., Al-Sulaiman, F. A., & El-Amin, I. M. (2020). Grid integration challenges of wind energy: A review. IEEE Access, 8, 10857-10878.

Andoni, M., Robu, V., Couraud, B., Früh, W. G., Norbu, S., & Flynn, D. (2021). Analysis of strategic renewable energy, grid and storage capacity investments via Stackelberg- cournot modelling. IEEE Access, 9, 37752-37771.

Stecca, M., Elizondo, L. R., Soeiro, T. B., Bauer, P., & Palensky, P. (2020). A comprehensive review of the integration of battery energy storage systems into distribution networks. IEEE Open Journal of the Industrial Electronics Society, 1, 46-65.

Kumar, Y. P., & Bhimasingu, R. (2015). Renewable energy based microgrid system sizing and energy management for green buildings. Journal of Modern Power Systems and Clean Energy, 3(1), 1-13.

Amran, M. E., Muhtazaruddin, M. N., Kamaruddin, S. A., Muhammad- Sukki, F., Abu-Bakar, S. H., Ayub, A. S., & Ardila-Rey, J. A. (2020). Renewable energy performance of the green buildings: Key-enabler on useful consumption yield. IEEE access, 8, 95747-95767.

Cao, G., Sun, K., Jiang, S., Lu, S., & Wang, Y. (2018). A modular DC/DC photovoltic generation system for HVDC grid connection. Chinese Journal of Electrical Engineering, 4(2), 56-64.

Musolino, V., Alet, P. J., Regamey, Y. J., Stauffer, Y., Hutter, A., Perret- Aebi, L. E., & Ballif, C. (2014, September). Multi-occupancy buildings as micro-grids: an asset for integrating photovoltaics in power systems. In 3rd Renewable Power Generation Conference (RPG 2014)(pp. 1-6).