Jubeyer Rahman scite author profile

In this paper, an optimal operation strategy of a nuclear-renewable hybrid energy system (N-R HES), in conjunction with a district heating network, is developed within a comprehensive multi-timescale electricity market framework. The grid-connected N-R HES is simulated to explore the capabilities and benefits of N-R HES of providing energy products, different reserve products, and thermal products. An N-R HES optimization and control strategy is formulated to exploit the benefits from the hybrid energy system in terms of both energy and ancillary services. A case study is performed on the customized NREL-118 bus test system with high renewable penetrations, based on a multi-timescale (i.e., 3-cycle) production cost model. Both day-ahead and real-time market clearing prices are determined from the market model simulation. Results show that the N-R HES can contribute to the reserve requirements and also meet the thermal load, thereby increasing the economic efficiency of N-R HES (with increased revenue ranging from 1.55% to 35.25% at certain cases) compared to the baseline case where reserve and thermal power export aren't optimized.

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A learning-augmented approach for AC optimal power flow

Rahman

Feng

Zhang

2021

International Journal of Electrical Power & Energy Systems

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Production of MHD power from municipal waste & Algal biodiesel

Habib

Haque

Rahman

2012

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Reinforcement Learning Enabled Microgrid Network Reconfiguration Under Disruptive Events

Rahman

Jacob

Paul

et al. 2022

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Jubeyer Rahman

Machine Learning-Aided Security Constrained Optimal Power Flow

Multi-timescale operations of nuclear-renewable hybrid energy systems for reserve and thermal product provision

A learning-augmented approach for AC optimal power flow

Production of MHD power from municipal waste & Algal biodiesel

Reinforcement Learning Enabled Microgrid Network Reconfiguration Under Disruptive Events

Contact Info

Product

Resources

About

Jubeyer Rahman

Machine Learning-Aided Security Constrained Optimal Power Flow

Multi-timescale operations of nuclear-renewable hybrid energy systems for reserve and thermal product provision

A learning-augmented approach for AC optimal power flow

Production of MHD power from municipal waste &amp; Algal biodiesel

Reinforcement Learning Enabled Microgrid Network Reconfiguration Under Disruptive Events

Contact Info

Product

Resources

About

Production of MHD power from municipal waste & Algal biodiesel