基本信息
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职业迁徙
个人简介
Research Interests
Design of Novel Electrical Machines
The design of novel generator topologies for direct drive wave energy, wind energy and tidal current energy converters is my main area of research.
There are both electrical and mechanical challenges to overcome. Low speed machines will be physically larger and heavier than conventional high speed generators. Novel machine topologies using permanent magnets (PM) have been developed, which exhibit high power density, such as the transverse flux machine and the vernier hybrid machine. I have done work with both of these machine topologies. However, these machines suffer very large magnetic attraction forces requiring a significant mechanical structure to maintain a physical airgap. Air-cored machines eliminate the unwanted magnetic attraction force leading, but exhibit a much lower force density. However, the elimination of the attraction force has the potential to lead to a lighter mechanical structure. An air-cored tubular permanent magnet machine has been designed and currently a novel air-cored machine which makes more effective use of the magnetic material in the machine compared to the tubular machine.
The influence of the electrical design on the mechanical design and vice versa forms the main thrust of my research into low speed electrical machines. In order to generate the optimum machine design such an integrated approach must be adopted.
Design of Novel Electrical Machines
The design of novel generator topologies for direct drive wave energy, wind energy and tidal current energy converters is my main area of research.
There are both electrical and mechanical challenges to overcome. Low speed machines will be physically larger and heavier than conventional high speed generators. Novel machine topologies using permanent magnets (PM) have been developed, which exhibit high power density, such as the transverse flux machine and the vernier hybrid machine. I have done work with both of these machine topologies. However, these machines suffer very large magnetic attraction forces requiring a significant mechanical structure to maintain a physical airgap. Air-cored machines eliminate the unwanted magnetic attraction force leading, but exhibit a much lower force density. However, the elimination of the attraction force has the potential to lead to a lighter mechanical structure. An air-cored tubular permanent magnet machine has been designed and currently a novel air-cored machine which makes more effective use of the magnetic material in the machine compared to the tubular machine.
The influence of the electrical design on the mechanical design and vice versa forms the main thrust of my research into low speed electrical machines. In order to generate the optimum machine design such an integrated approach must be adopted.
研究兴趣
论文共 471 篇作者统计合作学者相似作者
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13th International Conference on Power Electronics, Machines and Drives (PEMD 2024) (2024): 256-260
Building and Environment (2024): 111438
BUILDING AND ENVIRONMENT (2023): 110032-110032
12th International Conference on Power Electronics, Machines and Drives (PEMD 2023) (2023): 299-306
Maria Eugenia Correa-Cano,Kerry Burton,Markus Mueller,Victor Kouloumpis,Xiaoyu Yan, Michele John, Wan-Ting (Grace) Chen
Recyclingno. 6 (2023): 99-99
IEEE transactions on industry applicationspp.1-11, (2023)
Renewable energy (2023): 119063-119063
ENERGIESno. 6 (2023): 2767-2767
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作者统计
#Papers: 471
#Citation: 10231
H-Index: 38
G-Index: 68
Sociability: 7
Diversity: 1
Activity: 2
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