Keith Bell scite author profile

This paper proposes a new breed of high-voltage dc (HVDC) transmission systems based on a hybrid multilevel voltage source converter (VSC) with ac-side cascaded H-bridge cells. The proposed HVDC system offers the operational flexibility of VSCbased systems in terms of active and reactive power control, blackstart capability, in addition to improved ac fault ride-through capability and the unique feature of current-limiting capability during dc side faults. Additionally, it offers features such as smaller footprint and a larger active and reactive power capability curve than existing VSC-based HVDC systems, including those using modular multilevel converters. To illustrate the feasibility of the proposed HVDC system, this paper assesses its dynamic performance during steady-state and network alterations, including its response to ac and dc side faults.Index Terms-DC fault reverse blocking capability, hybrid multilevel converter with ac side cascaded H-bride cells, modular multilevel converter, voltage-source-converter high-voltage dc (VSC-HVDC) transmission system.

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Optimal scheduling of spinning reserve

Gooi

Mendes

Bell

et al. 1999

IEEE Trans. Power Syst.

240

128

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Application of Auto-Regressive Models to U.K. Wind Speed Data for Power System Impact Studies

Hill

McMillan

Bell

et al. 2012

IEEE Trans. Sustain. Energy

160

103

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Reinforcement learning for microgrid energy management

Kuznetsova¹,

Li²,

Ruiz³

et al. 2013

Energy

210

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Keith Bell

Risk Assessment of Cascading Outages: Methodologies and Challenges

New Breed of Network Fault-Tolerant Voltage-Source-Converter HVDC Transmission System

Optimal scheduling of spinning reserve

Application of Auto-Regressive Models to U.K. Wind Speed Data for Power System Impact Studies

Reinforcement learning for microgrid energy management

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