Research theme for competitive and other funds (3):
2019 - 2022 国家再エネ100%を目指す専門人材育成のための工学教育プログラムの構築
2018 - 2020 Development of a theoretical circuit analysis model for express the lightning surge characteristics of a wind turbine tower in the entire time domain.
A circuit model of electrical wiring nearby building structure for lightning surge analysis. 2023. 143. 11. 593-600
Ken Akehashi, Yoki Ikeda. Surge Current Flowing in the Small Boat due to the Nearby Lightning. IEEJ Transactions on Power and Energy. 2022. 142. 8. 386-391
Takato ONISHI, Yoki IKEDA. A mechanism of lightning strike outside the receptor of wind turbine blades based on FDTD. 2022
Takato Onishi, Yoki Ikeda. A mechanism of lightning strike to insulated part of wind turbine blade based on the result by FDTD analysis in consideration of internal conductor arrangement. 2022. 39-43
Karen Hiramatsu, Tatsuhiro Kuroda, Yoki Ikeda. Experimental Study on Estimation Method of Discharge occurs point in a wind turbine blade. 2022. 137-141
A Grounding System for Reducing a Surge Current Between Two Grounding Electrodes on FRP Boat.
(The 10th International Workshop on High Voltage Engineering (IWHV2016) & Japan-Korea Joint Symposium on Electrical Discharge and High Voltage Engineering (JK2016))
Lightning Surge Analysis on Wind Farm with Interconnecting Grounding Wire Using Circuit Model for Vertical Conductor.
(International Universities Power Engineering Conference (UPEC) 2015)
Surge Propagation Characteristic on Wind Turbine Tower with Interconnecting Grounding System
(2015)
Effect of Transient Earthing Characteritic on Potential Rise of Floating Structure due to Lightning Current
(International Workshop on High Voltage Engineering (IWHV2014))
