D
Dulal Chandra Das
Researcher at National Institute of Technology, Silchar
Publications - 63
Citations - 1417
Dulal Chandra Das is an academic researcher from National Institute of Technology, Silchar. The author has contributed to research in topics: Microgrid & PID controller. The author has an hindex of 14, co-authored 51 publications receiving 576 citations.
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Coordinated regulation of voltage and load frequency in demand response supported biorenewable cogeneration‐based isolated hybrid microgrid with quasi‐oppositional selfish herd optimisation
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Automatic Generation Control of an Organic Rankine Cycle Solar–Thermal/Wind–Diesel Hybrid Energy System
TL;DR: In this paper, the automatic generation control of an autonomous hybrid energy system based on organic Rankine cycle solar-thermal technology is investigated, where the authors consider the frequency excursion problem.
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Recent trends and development in hybrid microgrid: a review on energy resource planning and control
TL;DR: The world energy requirement has skyrocketed radically in the past two decades raising concern over energy security and adequacy as mentioned in this paper, and energy resource planning plays a substantial role in the global eco-system.
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Maiden coordinated load frequency control strategy for ST-AWEC-GEC-BDDG-based independent three-area interconnected microgrid system with the combined effect of diverse energy storage and DC link using BOA-optimised PFOID controller
TL;DR: Rigorous sensitivity analysis has been conducted to evaluate the superiority of BOA-optimised PFOID controller towards preserving system stability of ImGS with ±25% change in synchronising tie-line coefficients and bias values, and +20%change in loading condition without resetting the nominal condition gain values.
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Illustration of demand response supported co-ordinated system performance evaluation of YSGA optimized dual stage PIFOD-(1 + PI) controller employed with wind-tidal-biodiesel based independent two-area interconnected microgrid system
TL;DR: The rigorous sensitivity analysis of YSGA-optimised PIFOD-(1 + PI) controller has been conducted with the variation of wind turbine driven generator gain, ±30% change in synchronising tie-line factor, frequency bias value, microgrid system time constant and +30%change in loading magnitude without retuning the optimal base condition values.