Abstract
This manuscript presents commitment scheduling of power, heat and natural gas in presence of thermal generating units (TUs), cogeneration units (CUs), heat only units (HUs), solar PV plants, wind turbine generators and PEV parking lot with charging and discharging facility considering carbon capture. Power to gas technology comprising of carbon capture unit, electrolyzer, hydrogen storage unit, and methanation procedure, is used to provide natural gas demand using CO2 taken from TUs, CUs, HUs and hydrogen produced by electrolyzer. Total operative cost of TUs, CUs, HUs plus running cost of WGs and SPs are minimized whilst fulfilling a number of unit commitment constraints as well as generation scheduling constraints. Binary differential evolution along with priority list is applied for solving this problem. Numerical results of the system are comprehended for giving valued particulars for operative problem.
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No potential conflict of interest was reported by the author.
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Mousumi Basu
Mousumi Basu received the bachelor degree, master degree and Ph.D. degree from Jadavpur Universty, Kolkata, India, in 1991, 1993 and 2003 respectively. She is working as a Professor in the Department of Power Engineering, Jadavpur University, Kolkata, India. Her research is focused on power system optimization, renewable energy, microgrid and soft computing techniques.