Daniel T. Gladwin
University of Sheffield
106 Papers
394 Citations
Daniel T. Gladwin is an academic researcher from University of Sheffield. The author has contributed to research in topics: Computer science & Battery (electricity). The author has an hindex of 13, co-authored 92 publications.
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Papers
A systematic review of lumped-parameter equivalent circuit models for real-time estimation of lithium-ion battery states
TL;DR: In this paper, a systematic review of the most commonly used lumped-parameter equivalent circuit model structures in lithium-ion battery energy storage applications is presented, including the Combined model, Rint model, two hysteresis models, Randles' model, a modified Randles model and two resistor-capacitor (RC) network models with and without hystresis included.
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Survey on magnetic resonant coupling wireless power transfer technology for electric vehicle charging
TL;DR: This paper provides a comprehensive, state-of-the-art review of the MRC WPT technology and wireless EV charging, which focuses on the coil design, power transfer efficiency, and current research achievement in literature.
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A Battery Energy Management Strategy for U.K. Enhanced Frequency Response and Triad Avoidance
TL;DR: This paper describes a control algorithm to deliver a charge/discharge power output in response to changes in the grid frequency constrained by the National Grid Electricity Transmission while managing the state of charge of the BESS to optimize the availability of the system.
Battery energy storage systems for the electricity grid: UK research facilities
Tom Feehally,Andrew J. Forsyth,Rebecca Todd,Martin P. Foster,Daniel T. Gladwin,David A. Stone,Dani Strickland +6 more
- 19 Apr 2016
TL;DR: In this article, two battery energy storage research facilities connected to the UK electricity grid are described, along with hardware results, and a number of grid support services are demonstrated, again with results presented.
Analysis and Design of LLC Resonant Converters With Capacitor–Diode Clamp Current Limiting
TL;DR: A new fundamental harmonic approximation-based equivalent circuit model is obtained through the application of describing function techniques, by examining the fundamental behavior of the capacitor-diode clamp, for current limiting in overload conditions.
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