Abstract
Nowadays, green power technology is mostly considered by the power system utilities to maintain a healthy environment. Wind and solar energy is used mainly for green generation. Earlier these sources were individually used but in a new trend, a hybrid system is made to produce more power to meet the energy demand. The hybrid system produces an ample amount of power, so according to the load demand, this power is distributed and the rest available is stored in batteries. A new system is made for storing more power which combines lithium-ion batteries with supercapacitors. So, this paper will discuss the sizing of renewable power plants, availability of natural sources in Rampur Bsr., Shimla, and optimization of the hybrid energy storage system (HESS) with renewable energy plants. For sizing and checking the availability of sources, HOMER Grid software is used, and to optimize, the HESS MATLAB software is used. PSO algorithm is developed.
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References
Oulis Rousis A et al (2018) Design of a hybrid AC/DC microgrid using HOMER Pro: case study on an islanded residential application. Inventions 3(3):55
Carreira D, Marques GD, Sousa DM (2014) Hybrid energy storage system joining batteries and supercapacitors. In: 2014 IEEE 5th international symposium on power electronics for distributed generation systems (PEDG). IEEE
Elgammal A , El-Naggar M (2018) Energy management in smart grids for the integration of hybrid wind–PV–FC–battery renewable energy resources using multi-objective particle swarm optimisation (MOPSO). J Eng 11:1806–1816
Mbungu NT, Bansal RC, Naidoo R (2019) Smart energy coordination of a hybrid wind/PV with battery storage connected to grid. J Eng 18:5109–5113
Mamun A-A et al (2018) An integrated design and control optimization framework for hybrid military vehicle using lithium-ion battery and supercapacitor as energy storage devices. IEEE Trans Transp Electrification 5(1):239–251
Kollmeyer PJ et al (2019) Real-time control of a full scale Li-ion battery and Li-ion capacitor hybrid energy storage system for a plug-in hybrid vehicle. IEEE Trans Ind Appl 55(4):4204–4214
Gabbar HA, Abdussami MR, Adham MI (2020) Optimal planning of nuclear-renewable micro-hybrid energy system by particle swarm optimization. IEEE Access 8:181049–181073
Yousaf S et al (2020) A comparative analysis of various controller techniques for optimal control of smart nano-grid using GA and PSO algorithms. IEEE Access 8:205696–205711
Shafik MB, Rashed GI, Chen H (2020) Optimizing energy savings and operation of active distribution networks utilizing hybrid energy resources and soft open points: case study in sohag. Egypt. IEEE Access 8:28704–28717
Kachris C, Tomkos I (2014) Energy-efficient optical interconnects in cloud computing infrastructures. Communication Infrastructures for Cloud Computing. IGI Glob, pp 224–240
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Bharti, N., Kumar, S., Chawla, P. (2022). Sizing and Optimization of Hybrid Energy Storage System with Renewable Energy Generation Plant. In: Mallick, P.K., Bhoi, A.K., Barsocchi, P., de Albuquerque, V.H.C. (eds) Cognitive Informatics and Soft Computing. Lecture Notes in Networks and Systems, vol 375. Springer, Singapore. https://doi.org/10.1007/978-981-16-8763-1_12
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DOI: https://doi.org/10.1007/978-981-16-8763-1_12
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