Research field (2):
Measurement engineering
, Recycling systems and society
Research keywords (2):
Embedded System
, Small hydropower generation system
Research theme for competitive and other funds (2):
2024 - 2027 Development of an undershot water turbine with AI-equipped rotor that automatically avoid snow and ice masses
2019 - 2022 Demonstration experiment for developing a microhydraulic turbine resistant to snow and ice
Papers (25):
Eiichi Satou, Toshihiko Ikeda, Tomomi Uchiyama, Tomoko Okayama, Tomoaki Miyazawa, Kotaro Takamure, Daisuke Tsunashima. Development of an undershot cross-flow hydraulic turbine resistant to snow and ice masses flowing in an installation canal. Renewable Energy. 2022. 200. 146-157
Tomomi Uchiyama, KotaroTakamure, Yuta Okuno, EiichiSato. Development of a self-powered wireless sensor node to measure the water flowrate by using a turbine flowmeter. Internet of Things. 2021. 13. 100327. 1-12
Yusuke Moue, Kazuyoshi Takahashi, Koui Kim, Eiichi Sato. A Study of Snow Depth Measurement on Roads and Roadsides. Journal of Applied Survey Technology. 2019. 30. 97-106
Sato Eiichi. Verification of an easy to understand explanation technique of the nuclear risk-related information by the earthquake and tsunami. Proceedings of the Japan Conference on Structural Safety and Reliability. 2015. 8. 114-120
Eiichi Sato, Toshihiko Ikeda, Tomomi Uchiyama, Tomoko Okayama, Tomoaki Miyazawa. Basic study on output characteristics of an undershot water turbine applicable to heavy snowfall areas. International Conference on Materials and Systems for Sustainability. 2021. 1157
