受賞

IEEE Creativity and Innovation Prize Paper Award 2013             Jun, 2013

  Non-contact surface resistivity measurement using a cylindrical surface potential detector with corona charger

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IEEE Creativity and Innovation Prize Paper Award 2012             Jun, 2012

  Air –Assisted Passive Ionizer for a Charged Pipe

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IEEE James Melcher Prize Paper Award 2004                      Oct 2004

  Resonance phenomena of a single water droplet located on a hydrophobic sheet under AC field

 

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学術論文

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34．Kazuki Numayama, Toshiyuki Sugimoto, Koichi Taguchi “Non-contact surface resistivity tester for materials from 107 to1011 W.”Journal of Electrostatics Vol. 98, pp. 17-24, 2019

 

33. Yuki WAKATSUKI, Toshiyuki SUGIMOTO "Charge elimination method for a charged roll using a passive type ionizer with an air assist "Volume 56 Issue 6 Pages 485-491 Published: 2019 Released: November 21, 2018 [Advance publication] Released: June 23, 2018

DOIhttps://doi.org/10.2486/indhealth.2018-0047

 

32. 大森拓磨、杉本俊之「粉体用静電チャックの基礎特性と人工播種への応用」　静電気学会論文誌　第42巻　第4号　pp.192-197 (2018)

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31. 東山禎夫、遠藤正章、杉本俊之：「線電荷群で模擬した帯電粒子雲による接地球電極表面の電界の強さと放電開始条件」静電気学会誌vol.40, No.1 pp. 32-37 2016

 

30. T. Sugimoto, K. Taguchi, ”Non-contact surface resistivity measurement for materials greater than 10^9 ohm” Journal of Physics, Conference Series 646 (2015) 012041 doi:10.1088/1742-6596/646/1/012041

 

29. T. Sugimoto, K. Furutachi, Y. Higashiyama:” An Electrostatic Field Driven Ionizer for a Moving Charged Target”, Trans, on IEEE Ind. Appl. Vol. 51, No. 5, pp. 4139 – 4144 SEP/OCT 2015

 

28 T. Sugimoto, K. Yamaguchi, Y. Higashiyama, N. Nomura: ”Detection of Paint Curing by Surface Potential of Painted Layer Charged by Corona Discharge”, Trans. on IEEE Ind. Appl. Vol. 50, No. 6, pp.4239-4244, Nov/Dec 2014.

 

27.  T. Sugimoto, Seiya Kato, Kazutoshi Furutachi, Y. Higashiyama:” DC Ionizer with Opposed phi-Type Corona Electrode for High-Speed Charge Elimination”, Trans. on IEEE Ind. Appl. Vol. 50. N0.3 pp. 2207--2212. May/Jun 2014 ITIACR(ISSN 0093-9994)

 

26．T. sugimoto, M. Abe, Y. Higashiyama: ”Non-contact Surface Resistivity Measurement Using a Cylindrical Surface Potential Detector with a Corona Charger”, Trans. on IEEE Ind. Appl. Vol. 48. N0.5 pp. 1657-1661. Sep/Oct 2012 ITIACR(ISSN 0093-9994)

 

25.T. Sugimoto, A. Kitamura, Y. Higashiyama, : “ Air-assisted passive ionizer for a charged pipe”, Trans. on IEEE Ind. Appl. Vo. 47. Issue. 4 pp. 1929-1934 JUL/AUG2011

 

24､T. Sugimoto, H. Ishii, Y. Higashiyama: “Corona Charging and Current Measurement Using Phi-Type Corona Electrodes”, IEEE Transaction on industry applications. Vol. 46, No. 3, May/June 2010 pp. 1175-1180

 

23．T. Sugimoto, H. Ishii, Y. Higashiyama: “Non Contacting Measurement of Surface Resistivity using Phi Type Electrodes”, IEEE Transaction on industry applications. Vol. 45, No. 6, Nov/Dec 2009 pp. 2192-2197

 

22. Y. Kudo, T. Sugimoto, Y. Higashiyama,” DC Corona Discharge from a Wire Particle Floated with a Microgap in Parallel Plate Electrode” IEEE Trans. IAS vol. 42, No. 4. JULY/AUGUST 06 pp. 909-915

 

21. T. Sugimoto, K. Chiba, Y. Higashiyama,” Electrostatic Discharge between a grounded sphere and an array of charged rod electrodes” IEEE Trans. IAS vol. 42 No. 3. MAY/JUN 06 pp881-886. 2006

 

20.　Y. Higashiyama, T. Takada, T. Sugimoto: ”Resonant vibration and flashover phenomena of a water droplet located on a hydrophobic sheet under ac field”, J. electrostatics, vol. 63 pp. 883-889, Jun 2005,

 

19.　T. Sugimoto, K. Nonaka, M. Horenstein: ”Bidirectional Electrostatic Actuator Operated with Charge Control”, IEEE J. Microelectromechanical System. Vol.14, No. 4, pp.718-724, Aug. 2005.

 

18. T. Sugimoto, H. Kicuchi, Y. Higashiyama; ”Positive discharge from a grounded electrode toward negatively charged particles cloud”, J. electrostatics Vol. 63, Issue. 6-10, pp. 609-614, 2005 jun

 

17. 工藤祐輔，杉本俊之，東山禎夫，「絶縁板状に置かれた線状粒子からの交流コロナ放電特性の相対湿度依存性」，静電気学会誌, Vol.29, No.1, pp.80-85(2005)

  

16, 工藤祐輔，杉本俊之，東山禎夫，「直流電界下における線状粒子歳差運動時のコロナ放電とマイクロギャップ放電」，電気学会論文誌A, Vol.125, No.2, pp.107-112(2005)

 

15. T. Sugimoto, Y.Yumita, and Y. Higashiyama, “Multiple-spark discharge occurring between a charged conductive plate and a grounded sphere electrode”. IEEE Trans. IAS vol. 40, No. 3. MAY/JUN 04 pp. 911-916

 

14. T. Sugimoto, M. Horenstein：“Design of a Circular Cascaded Arc Torch Array for Plasma Spray”, J. Thermal spray technology, J. Thermal spray technology. Vol.12, N0.4, pp.536-541, Dec 2003

 

13. T. Yamada, T. Sugimoto, Y. Higashiyama, M. Takeishi, and T. Aoki : “Resonance Phenomena of a Single Water Droplet Located on a Hydrophobic Sheet Under AC Electric Field”, IEEE, Trans. IAS, Vol. 39, No. 1, JAN/FEB 2003.

 

12．Y.Higashiyama, S. Yanase, T. Sugimoto : ”DC corona discharge from water droplets on a hydrophobic surface”, Journal of Electrostatics Vol. 55, pp. 351-360 (2002)

 

11．　Higashiyama, T. Sugimoto, M. Takahashi :”Electrical discharge occurring from a space charge cloud formed with charged particles”, Journal of Electrostatics, Vol. 51-52, 381-386 (2001)

10. 　Toshiyuki Sugimoto, Yoshio Higashiyama : “Production of water drops and corona due to rupture of air bubble at water surface under a positive dc electric field.”, Journal of Electrostatics, Vol. 53, pp. 209-219, 2001.

 

9. 　Toshiyuki Sugimoto, Kazutoshi Asano and Yoshio Higashiyama : “Negative corona discharge at a tip of water cone deformed by dc field”, Journal of Electrostatics, Vol. 53, pp. 25-38, 2001.

 

8. 　Toshiyuki Sugimoto, Shin-ichiro Doi, Makoto Takahashi, and Yoshio Higashiyama : “ Distribution of Electric Field Strength around a Large-Scale Charged Particle Cloud”, IEEE Transactions on industry applications, Vol. 37, No. 3, pp. 724-729, May/June 2001

 

7.　杉本、土肥、高橋、東山：「帯電粒子で生成された空間電荷雲内部の接地電極で起きる放電現象」電気学会論文誌A　Vol. 120-A, No. 7, pp. 761-767 (2000)

 

6.　Y. Higashiyama, S. Tanaka, T. Sugimoto, and K. Asano: “Size distribution of the charged droplets in an axisymetric shower “ . J. Electrostatics, 47, 183-195 (1999)

 

5.　Toshiyuki Sugimoto, Yoshio Higashiyama, and Kazutoshi Asano : "Formation of Charged Droplet cloud and Corona Discharge between the Cloud and a Grounded Electrode", IEEE Transactions on Industry Applications, Vol. 34 No. 1, pp. 225-231, 1999

 

4.　杉本、浅野、東山：「帯電液滴群の内部に挿入した接地針電極からのコロナ放電」電気学会論文誌A, Vol. 117-A, p.593, 1998

 

3.　杉本、東山、浅野：「エアレスノズルを用いて生成された帯電液滴群の空間電荷雲モデル」電気学会論文誌A, Vol. 116-A, p.439, 1997

 

2.　杉本、東山、浅野：「気中ギャップの雷インパルス破壊特性に及ぼす帯電液滴空間電荷雲の影響」電気学会論文誌B, Vol. 115-B, p.143, 1996

 

1.　杉本、東山、浅野：「帯電液滴空間電荷雲内での微小放電の形成」電気学会論文誌A、Vol. 114-A, p.18, 1995

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​解説

 

杉本　「自己放電型イオナイザの活用法」　クリーンテクノロジー　vo. 25, No. 2, pp. 36-40, 2015

杉本　「自己放電型イオナイザーの除電モデルと性能向上」静電気学会誌　Vol.38, No. 3, pp.139-144, 2014

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著書

共著　「非接触表面抵抗率測定法を応用した塗装表面の硬化度測定」

㈱技術情報協会「電気特性の測定、評価とデータ解釈」PP233－238　2015

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特許

特許第6008269号「イオナイザー」

特開2013－073886「帯・除電装置」

特願2011-214130「除電装置」

特許第5510629号「表面抵抗測定装置及び表面抵抗測定法」

特許第5408614号「加熱装置」

特開2010-113837「自己放電型除電器」

特開2010-113838「ペレット供給装置」

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国際会議での発表

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34.T.Sugimoto, Y. Yoshida, N. Nomura “Estimation of paint thickness from measured surface potential charged by corona discharge”  Proc. 2017 Annual meeting of the Electrostatic Society of America, E3, University of Ottawa, ON, Canada

 

33.T.Sugimoto, T.Aoki:” Measurment of wettability for polymer materials using non-contact surface resistivity tester”  Proc.　The　2016　Electrostatics　joint　conference　G13, Purdue university, IN, USA

 

32.T. Sugimoto, K. Yamaguchi. Y. Higashiyama, N. Nomura "Monitoring of paint curing by surface　potential measurement with corona discharge" proc. IEEE IAS Annual meeting 2013, EPC-341, Dalas, TX, USA

 

31　T. Sugimoto, S. Kato, Y. Higashiyama:” DC ionizer using opposed phi-type electrode for high speed charge elimination”, proc. IEEE Industrial Applications society Annual Meeting 2012 EPC- 328. Las vegas, USA

 

30 T. Sugimoto, K. Yamaguchi, Y. Higashiyama:”Detection of paint curing using non-contacting surface resistivity measurement”, proc. The 2012 Electrostatic joint conference, session L paper 1, Cambridge, Canada, jun 2012

 

29　T. Sugimoto, M. Abe, Y. Higashiyama “Non-contact Surface Resistivity Measurement Using Cylindrical Surface Potential Detector with a Corona Charger” proc. IEEE Industrial Applications society Annual Meeting 2011 EPC- 237.Orlando, FL, USA

 

28 T.Sugimoto, A. Kitamura, Y. Higashiyama “ Air-assisted passive ionizer for a charged pipe”, proc. IEEE Industrial Applications society Annual Meeting 2010 , Houston, TX, USA

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27．T.Sugimoto,　Y.Takahashi:”Group Project – Making an original electric generator”, proc. of Asian Conference of Engineering Education 2009 pp.54-55 KOREA

 

26. T.Sugimoto, H. Ishii, Y. Higashiyama:”Corona Charging and Current Measurement using Phi-type Corona Electrodes”Joint Electrostatics Conference 2009 in Boston, session 10, paper 4, Boston, JUN. 2009

 

25. T. Sugimoto, H. Ishii, Y. Higashiyama: “Non Contacting Measurement of Surface Resistivity using Phi Type Electrodes”, proc. IEEE Industrial Applications Society Conference, 32p1, Edmonton, Oct. 2008

 

24. T.Sugimoto, N. Shirahata, Y. Higashiyama, K. Takeda:”Surface Potential of Insulating Plate Coated by Metallic Paint Spray”, proc. IEEE Industrial Applications Society Conference 12p4, New Orleans, Oct. 2007

 

23. T.Sugimoto, S. Ogata, Y. Higashiyama:”Corona Discharge from a Grounded Point toward an Array of Charged Rod Electrode”, Proc. ESA/IEJ/IEEE-IAS Joint Conference on Electrostatics 2006”, pp. 609-618, Barkeley, USA, Jun2006

 

22. T.Sugimoto, Y. Higashiyama : “Surface potential of Insulator plate equipped with a holed- grounded electrode charged by ion spray” proc. IEEE Industrial Applications Society Conference, Vol.2 pp.1423-1428, Hong Kong, Oct 2005

 

21. T. Sugimoto, H. Kicuchi, Y. Higashiyama;”Positive discharge from a grounded electrode toward negatively charged particles cloud”, J. electrostatics Vol. 63, Issue. 6-10, pp. 609-614, Helsinki, Jun 2005

 

20. K. Nonaka, T. Sugimoto, J. Bailleul, M. Horenstein:”Bi-directional Extension of the Travel Range of Electrostatic Actuators by Open loop Periodically Switched Oscillatory Control”,IEEE Conf. on Decision and Control, pp. 1964-1969, Atlantis Bahamas Dec. 2004

 

19. Y. Higashiyama, H. Kikuchi, T. Sugimoto:”Current Waveform of Space Charge Discharge occurred in a Charged Particle Cloud, Seattle IAS-04 1591-1597 vol. 3, 2004

 

18. T. Sugimoto, S. Ogata, Y. Higashiyama:”Charge Transfer in Spark Discharge between a Grounded Electrode and an Array of Charged Multiple Electrode”, Proceeding of IEJ-ESA Joint Symp. Electrostatics, Tokyo 2004, pp. 265-271.

 

17. Yusuke Kudo, Toshiyuki Sugimoto and Yoshio Higashiyama, “DC Corona Discharge from a Wire Particle Floated with a Micro-gap in Parallel Plate Electrode”, Proc. of 2004 IEEE Industry Applications Conference, Seattle, October, 2004, IAS04, vol. 3. 1565-1571

 

 

16. T. Sugimoto, K. Chiba, and Y. Higashiyama:”Corona and Spark Discharge occurring between a Grounded Sphere and an Array of Charged Multiple electrode, Proc. Of IEEE Industrial Application Society Annual Meeting 2004, Seattle, vol.3, 1559-1564

 

15.  T. Sugimoto K. Chiba, Y. Higashiyama :“Electrostatic Discharge between a grounded sphere and an array of charged rod electrodes”, Proc. of ESA-IEEE Joint Meeting on Electrostatics, Little rock, pp. 248-258, 2003

 

14. T. Sugimoto, Y. Yumita, and Y. Higashiyama :”Multiple-spark Discharge Occurring between a Charged Conductive Plate and a Grounded Sphere Electrode” IEEE Industrial Application Society Annual Meeting 2002, Vol. 1, pp. 580-584,2002

 

13. Higashiyama, T. Yamada, and T. Sugimoto :”Effect of Resonance of a Water Droplet Located on a Hydrophobic Sheet on AC Flashover” Proc. of IEEE IAS Ann. Meeting, Pittsburgh, Vol. 3, pp. 2198-2203, 2002

 

12. T. Yamada, T. Sugimoto, Y. Higashiyama:” Resonance Phenomena of a Single Water Droplet Located on a Hydrophobic Sheet under AC Electric Field（論文14）”, Proc. of IEEE IAS Ann. Meeting, Chicago , 2001

 

11. Y. Higashiyama. T. Sugimoto. M. Johsho:” Leakage Current Flowing through Capped Snow Artificially formed on Non-Ceramic Insulator” Proc. of The 9th International Workshop on Atmospheric Icing of Structures, Session 7 (2000)

 

10. Y. Higashiyama, T. Sugimoto, M. Johsho:” Partial Arc Discharge Occurring in Capped Snow formed over Polymer Insulator”, Proc. of Xth Asian Conference on Electrical Discharge, Kyoto, pp. 191-194, 2000

 

9. Y. Higashiyama. S. Yanase. T. Sugimoto:” DC Corona Discharge at Water Droplets Located on a Hydrophobic Insulating Sheet（論文13）”, Proc. of IEJ-ESA Joint Symposium on. Electrostatics, Kyoto, pp. 116-125, 2000

 

8. Toshiyuki Sugimoto, Shin-ichiro Doi, and Makoto Takahashi, and Yoshio Higashiyama : " Distribution of Electric Field Strength around a Large-Scale Charged Particles Cloud ", Proc. of IEEE IAS Ann. Meeting, Phoenix, pp. 2143-2151, 1999

 

7. Yoshio Higashiyama, Toshiyuki Yamada, and Toshiyuki Sugimoto : " Vibration of Water Droplet Located on a Hydrophobic Sheet under the Tangential AC Field ". Proc. of IEEE IAS Ann. Meeting, Phoenix, pp. 1825-1831, 1999

 

6. Yoshio Higashiyama, Toshiyuki Sugimoto, Shinji Otsubo, Fumio Sato, and Hiroshi Honma : " Heavy Salt Deposition onto a Distribution line by a Seasonal Wind in Winter ", Proc. of IEEE Power Engineering Society Summer Meet., Edmonton pp.882-888, 1999

 

5. Yoshio Higashiyama, Toshiyuki Sugimoto, and Kazutoshi Asano : "Electrical Breakdown of Heavily Polluted Capped Snow on Insulators Strings", Proc. of the 8th International Workshop on Atmospheric Icing of Structures (IWAIS), Reykavck, pp. 199-203, 1998

 

4. Y. Higashiyama. S. Yanase. T. Sugimoto:” Behavior of Water Droplets Located on a Hydrophobic Insulating Plate under DC Field” Proc. of 1998 IEEE/IAS Ann. Meeting, St. Louis, pp.1803-1813, 1998

 

3.Toshiyuki Sugimoto, Shinichiro Doi , and Yoshio Higashiyama :" Corona Discharge Occuring at a Grounded Rod Electrode in a Charged Particle Cloud" Proc. of Electrostatics Society of America and Institute of Electrostatics Japan Joint Symp., palo Alto, p.381-389, 1998

 

2. T. Sugimoto, Y. Higashiyama and K. Asano:” Formation of Charged Droplet cloud and Corona Discharge between the Cloud and a Grounded Electrode（論文６）” Proc. of IEEE Industrial Application Society(IAS) Ann. Meeting, Orland, pp.1211-1215, 1995

 

1. Y. Higashiyama, T. Sugimoto, and K. Asano:” Influence of Charged Droplet Cloud on the Impulse Flashover Voltage of a Rod-to-Sphere Gap” Proc.　of 8th International Symposium on High Voltage, Yokohama, pp. 17-20, 1993

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主な外部資金（公官庁のみ）　他民間企業との共同研究多数

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平成29年度～

科研費　基盤研究C　「アーク加熱とコロナ帯電を併用したコンパクト型過熱水蒸気生成法の開発」　研究代表者

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平成27～28年度

JST　マッチングプランナプログラム探索課題　「静電気力を用いたシートデバイス用ディンプルフィルム成型法の開発」　研究代表者

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平成27～28年度

科研費　基盤研究B　「高電界下における水滴の振動を利用した帯電水滴生成法の研究」　共同研究者

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平成26～29年度

JST　A-STEP　ハイリスク挑戦　「塗装品質マネジメントのための非接触型塗膜センシングシステムの開発」　研究代表者

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平成26～28年度

科研費　基盤研究C　「帯電水滴スプレーを用いたプラスチック材料表面の「ぬれ性」評価法の開発」　研究代表者

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平成25年度

JST　A-STEP　探索タイプ　「次世代シートデバイスに適用する静電シートステイプルの開発」研究代表者

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平成24～25年度

JST　A-STEP　顕在化ステージ　「プラスチック塗装膜の非接触型硬化度センサーの開発」研究代表者

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平成23～25年度

科研費　基盤研究C　「対向Φ型コロナ放電電極対を用いる正負イオン群の生成と応用」研究代表者

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平成23～24年度

JST　A-STEP　探索タイプ「非接触型表面抵抗率測定法を用いたプラスチック塗膜評価装置の開発」研究代表者

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平成20－22年度

科研費　基盤研究C　「Φ型構造電極を用いる非接触型表面抵抗測定法の開発」研究代表者

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平成18年度

​JST　シーズ発掘試験　「カスケード型アーク放電を利用する接触溶融加工装置の開発」研究代表者

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平成16～17年度：

科研費　基盤研究(B)(2)「人工雷雲を用いた電力設備への雷撃機構に関する研究」共同研究者

 

平成16～17年度

科研費　若手研究B　「イオンスプレーによる表面電位変化を利用した非接触表面抵抗計の開発」研究代表者

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平成14～15年度：

科研費　萌芽研究　「カスケード型アーク放電による金属微粒子の生成とその運動制御」共同研究者（執筆および研究遂行者）

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平成13～14年度：

科研費　若手研究B　「多段式コロナ帯電による格子状帯電粒子群の形成と人工雷放電」研究代表者

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平成11～12年度：

科研費　奨励研究A　「数珠状帯電粒子列による空間電荷雲の制御と模擬雷放電」研究代表者

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平成10～11年度：

科研費　基盤研究(B)(2)　「帯電粒子からなる空間電荷雲からの放電発生装置の開発」共同研究者

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