Energy Conservation Engineering Laboratory
  
日本語


Toyohashi university of technology, Department of mechanical engineering







References


Development of high-performance filtration system for insulating liquids      
  1. Yanada, H., Takagi, S., Mamiya, S., Effects of electrode and filter element shapes on characteristics of charge injection type of electrostatic oil filter, Journal of Electrostatics, 74 (2015), 1-7.
  2. Yanada, H., Daiou, Y., Ogi, Y, Improvement of filtration speed of charge injection type of electrostatic oil filter, Journal of Electrostatics, 70-1(2012), 117-125.
  3. Yanada, H., Okamoto, T., Tran, K. D., Fundamental investigation of charge injection type of electrostatic oil filter (effect of filter element on filtration speed), Journal of Electrostatics, 69-3(2011), 180-188.
  4. Yanada, H. and Kato, Y., Performance improvement of conventional type electro- static oil filter with reusable filter element, Transactions of the Japan Fluid Power System Society, 41-2(2010), 21-27.
  5. Tran, K. D., Kojima, Y., and Yanada, H., Measurement and numerical simulation of flow and electric fields in charge injection type of electrostatic oil filter, Transactions of the Japan Fluid Power System Society, 40-1(2009), 8-15.
  6. Tran, K. D. and Yanada, H., Fundamental investigation of charge injection type of electrostatic oil filter (Effects of mechanical factors on filtration speed), Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2- 6(2008), 971-984. (http://www.jstage.jst.go.jp /browse/jamdsm)
  7. Yanada, H. and Tran, K. D., Fundamental investigation of charge injection type of electrostatic oil filter, Journal of Advanced Mechanical Design, Systems, and Manufacturing, 2-1(2008), 119-132. (http://www.jstage.jst.go.jp/browse/jamdsm)
  8. 柳田・今泉・吉田・大久保・川上・松田,交流電界と直流電界を併用した絶縁性液体用静電フィルタ,日本フルードパワーシステム学会論文集,36-3(2005), 74-80.
  9. Yanada, H., Nishimura, N. and Imagawa, T., Acceleration of coagulation of particles in oil utilizing an a.c. electric field, Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C), 218-C3(2004), 317-326.
  10. 柳田・西山・西村,交流電界の凝集促進効果を利用した液体用静電フィルタ(モデルによる性能評価),日本機械学会論文集, 68-666, C(2002), 628-634.
  11. Yanada, H., Kikuchi, M. and Nishimura, N., Coagulation of particles in oil by an a.c. electric field (observation of coagulation process under various mechanical conditions), Proceedings of the Institution of Mechanical Engineers, Part C : Journal of Mechanical Engineering Science, 215-C2(2001), 201-209.
  12. 若澤・柳田・木嶋・直江,静電フィルタ電極面上での粒子の捕捉に関する研究,日本機械学会論文集,65-639, C(1999), 4572-4578.
  13. Yanada, H. and Okumura, R., Coagulation of particles in oil by an a.c. electric field (fundamental experiment), Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C), 211-C6(1997), 451-461.
  14. Yanada, H. and Takikawa, Y., Experimental approach to electrostatic liquid filtration using a single fibre model, Part 2: effects of mechanical factors, Proceedings of the Institution of Mechanical Engineers, Part C : Journal of Mechanical Engineering Science, 208-C6(1994), 387-393.
  15. Yanada, H., Takikawa, Y. and Yamamoto, M., Experimental approach to electrostatic liquid filtration using a single fibre model, Part 1: effects of base oils and additives, Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C), 208-C6(1994), 379-386.

Fundamental investigation and application of electrohydrodynamic (EHD) flow
  1. Nishikawara M., Shimada M., Saigo M., Yanada H., Numerical investigation of the characteristics of an ion drag pump, Journal of Electrostatics, Vol.84 (2016), 23-31.
  2. Yanada, H., Isohata, Y., Tsuruta, K., Numerical simulation of ion drag pump characteristics, Proceedings of The 8th JFPS International Symposium on Fluid Power, Okinawa Japan, Oct.2011, (2011), 495-500.
  3. Yanada, H., Yamada, T., Asai, Y. and Terashita, Y., Measurement and numerical simulation of ion drag pump characteristics, Journal of Fluid Science and Technology, 5-3(2010), 617-631.
  4. Tran, K. D., Kojima, Y., and Yanada, H., Measurement and numerical simulation of flow and electric fields in charge injection type of electrostatic oil filter, Transactions of the Japan Fluid Power System Society, 40-1(2009), 8-15.
  5. Yanada, H., Hakama, S., Miyashita, T. and Zhang, N., An investigation of an ion drag pump using a needle-mesh electrode configuration, Journal of Mechanical Engineering Science (Proceedings of the Institution of Mechanical Engineers, Part C), 216-C3(2002), 325-335.
Control using a plasma actuator
  1. HiroshiYokoyama, Makoto Kusumoto, Akiyoshi Iida, "Control of Noise from a Cascade of Flat Plates by using DBD Plasma Actuators", Inter-Noise 2013,Paper 1093, Innsbruck, Austria,(September, 2013).

Dynamic behaviors of friction and their mathematical model 
  1. Wakasawa, Y., Ito, Y., Yanada, H., Dynamic Behaviors of Pneumatic Cylinder (Friction and Vibration Characteristics), JFPS International Journal of Fluid Power System, 8-1 (2015), 60-65.
  2. Tran, X. B., Khaing, W. H., Endo, H., Yanada, H., Effect of friction model on simulation of hydraulic actuator, Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, (2014), doi:10.1177/0959651814539476
  3. Tran, X. B., Yanada, H., Dynamic Friction Behaviors of Pneumatic Cylinders, Intelligent Control and Automation, 4-2 (2013), 180-190.
  4. Tran, X. B., Yanada, H., Dynamic friction characteristics of pneumatic actuators and their modeling, Proceedings of The 8th JFPS International Symposium on Fluid Power, Okinawa Japan, Oct.2011, (2011), 657-664.
  5. Tran, X., B., Nur Hafizah, Yanada, H., Modeling of dynamic friction behaviors of hydraulic cylinders, Mechatronics, 22-1 (2012), 65-75.
  6. Tran, X. B., Matsui, A. and Yanada, H., Effects of viscosity and type of oil on dynamic behaviors of friction of hydraulic cylinder, Transactions of the Japan Fluid Power System Society, 41-2(2010), 28-35.
  7. Yanada, H., Takahashi, K., and Matsui A., Identification of dynamic parameters of modified LuGre model and application to hydraulic actuator, Transactions of the Japan Fluid Power System Society, 40-4(2009), 57-64.
  8. Yanada, H. and Sekikawa, Y., Modeling of dynamic behaviors of friction, Mechatronics, 18-7(2008), 330-339.
  9. 柳田・稲葉・市川,油圧モータの低速域における非定常特性に関する実験的研究,日本機械学会論文集,56-528, B(1990), 2430-2437.
Aerodynamic noise generated from high-speed transports and fluid equipments
  1. 横山博史,篠原大志,中島崇宏,宮澤真史,飯田明由, 層流境界層中におかれた折れ部を上流に有する曲面端部から生じるフィードバック音の直接計算, 日本機械学会論文集, 81(826) 1-15 2015
  2. Hiroshi Yokoyama, Ryo Adachi, Taiki Minato, Hiroshi Odawara, Hideo Morishima and AkiyoshiIida, "Control of Cavity Tone by Spanwise Aligned Jets in Upstream Boundary Layer", European Drag Reduction and Flow Control Meeting 2015, (March, 2015)
  3. Hiroshi Yokoyama, Takahiro Nakajima, Taishi Shinohara, Masashi Miyazawa, and Akiyoshi Iida,"Aerodynamic noise produced in flow around an auto-mobile bonnet", inter-noise 2014,Melbourne, Australia, (Novenber 17,2014).
  4. Hiroshi Yokoyama, Katsuya Kitamiya, Hiroki Yamamoto, and Akiyoshi Iida, "Effects of distance between plates on flows around a cascade of flat plates with acoustic resonance", AIAA-2014-3197, Atlanta, 20th AIAA/CEAS Aeroacoustics Conference, 2014
  5. Hiroshi Yokoyama, Katsuya Kitamiya, and Akiyoshi Iida, "Flows around a cascade of flat plates with acoustics resonance", Physics of Fluids, 25(10), 106104, 2013.
  6. 横山博史, 飯田明由, "低マッハ数の角柱周りの流れにおける空力音源", 日本機械学会論文集B編,79(799), pp. 344-355, 2013.
  7. Hiroshi Yokoyama and Akiyoshi Iida, "ACOUSTIC RADIATION IN A UNIFORM FLOW AROUND A TWO-DIMENSIONAL CYLINDER AT LOW REYNOLDS NUMBER", The 19th International Congress on Sound and Vibration, Vilnius, Lithuania, 2012, 7
  8. Hiroshi Yokoyamaand Akiyoshi Iida, "Acoustic Radiation from Flows around a Cascade of Flat Plates", Korea-Japan CFD workshop 2012, Busan, Korea, 2012, 11
  9. 寺尾啓太郎, 横山博史, 大峠祐介, 飯田明由, "キャビティ音発生機構に基づいた新たな周波数予測式の提案", 日本機械学会論文集B編, 77 (779), pp. 1522-1532 (2011).
  10. Hiroshi Yokoyama and Chisachi Kato, "Fluid-Acoustic Interactions in Acoustic Radiation in Turbulent Cavity Flows (Fluid-Dynamic Oscillations)", Journal of Environment and Engineering, 6 (1), (2011).
  11. 横山博史,加藤千幸, "乱流境界層内のキャビティ音発生におけるフィードバック機構(第2報,流体共鳴振動),日本機械学会論文集B編76(765), (2010).
  12. Hiroshi Yokoyama and Chisachi Kato, "Fluid-acoustic interactions in self-sustained oscillations in turbulent cavity flows. I. Fluid-dynamic oscillations", Physics of Fluids 21, 105103 (2009).
  13. Hiroshi Yokoyama, Yuichi Tsukamoto, Chisachi Kato and Akiyoshi Iida, "Self-Sustained Oscillations with Acoustic Feedback in Flow Over a Backward-Facing Step with a Small Upstream Step, Physics of Fluids19, 106104 (2007).
  14. 飯田明由,小久保あゆみ,塚本裕一,本田拓,横山博史,貴島敬,加藤千幸, "ドアミラーから放射される空力・音響フィードバック音の発生条件",日本機械学会論文集B編73(732), 1637-1646(2007).
Study on thermoacoustic system
  1. Subhan Ullah, Hiroshi Yokoyama, Akiyoshi Iida, Design and Fabrication of Two Stage Thermoacoustic Engine to Reduce the Onset Temperature,Proceedings of ECTE2016, 2016.
Loop heat pipes
  1. K. Odagiri, M. Nishikawara, and H. Nagano, “Microscale infrared observation of liquid-vapor interface behavior on the surface of porous media for loop heat pipes,” Applied Thermal Engineering, 2017. http://doi.org/10.1016/j.applthermaleng.2017.03.113(Accepted)
  2. M. Nishikawara, H. Nagano, and M. Prat, “Numerical Study on Heat Transfer Characteristics of Loop Heat Pipe Evaporator Using Three-Dimensional Pore Network Model,” Applied Thermal Engineering, 2017. http://dx.doi.org/10.1016/j.applthermaleng.2017.02.050(Accepted)
  3. M. Nishikawara, H. Nagano, “Optimization of wick shape in a loop heat pipe for high heat transfer,” International Journal of Heat and Mass Transfer, Vol. 104, pp. 1083-1089, 2017. http://dx.doi.org/10.1016/j.ijheatmasstransfer.2016.09.027
  4. K. Odagiri, M. Nishikawara, and H. Nagano, “Microscale Infrared Observation of Liquid–Vapor Phase Change Process on the Surface of Porous Media for Loop Heat Pipe,” Journal of Electronics Cooling and Thermal Control, Vol. 6, pp. 33-41, 2016.  http://dx.doi.org/10.4236/jectc.2016.62003
  5. M. Nishikawara and H. Nagano, “Numerical simulation of capillary evaporator with microgap in a loop heat pipe,” International Journal of Thermal Sciences, Vol. 102, pp. 39-46, 2016. http://dx.doi.org/10.1016/j.ijthermalsci.2015.11.008
  6. 西川原理仁,長野方星,“ポアネットワークモデルを用いたループヒートパイプ蒸発器の気液熱流動挙動の解析(多孔体内気液分布と熱伝達特性)”日本伝熱学会論文集, Vol. 23, No. 4, pp.71-80, 2015. http://doi.org/10.11368/tse.23.71
  7. H. Nagano, M. Kuroi and M. Nishikawara, “Thermo-Fluid Characteristics in Microporous Structure with Different Flow Channels for Loop-Heat-Pipe,” Heat Transfer Engineering, pp. 1-39, 2015. http://dx.doi.org/10.1080/01457632.2015.1098176
  8. M. Nishikawara, H. Nagano, L. Mottet and M. Prat, “Formation of unsaturated regions in the porous wick of a capillary evaporator,” International Journal of Heat and Mass Transfer, Vol. 89, pp.588-595, 2015. http://dx.doi.org/10.1016/j.ijheatmasstransfer.2015.05.054
  9. M. Nishikawara, H. Nagano, L. Mottet and M. Prat, “Numerical study of thermal performance of a capillary evaporator in a loop heat pipe with liquid-saturated wick,” Journal of Electronics Cooling and Thermal Control, Vol. 27, pp. 118-127, 2014. http://dx.doi.org/10.4236/jectc.2014.44013
  10. M. Nishikawara and H. Nagano, “Parametric Experiments on a Miniature Loop Heat Pipe with PTFE Wicks,” International Journal of Thermal Sciences, Vol. 85, pp. 29-39, 2014. http://dx.doi.org/10.1016/j.ijthermalsci.2014.05.016
  11. M. Nishikawara, H. Nagano, and T. Kaya, “Transient Thermo-Fluid Modeling of Loop Heat Pipes and Experimental Validation”, Journal of Thermophysics and Heat Transfer, Vol. 27, No. 4, pp. 641-647, 2013. http://dx.doi.org/10.2514/1.T3888
  12. H. Nagano, M. Nishikawara, F. Fukuyoshi, H. Ogawa, and H. Nagai, “Thermal Vacuum Testing of a Small Loop Heat Pipe with a PTFE Wick for Spacecraft Thermal Control,” Aerospace Technology Japan, Vol. 10, No. ists28, pp.27-33, 2012. http://doi.org/10.2322/tastj.10.Pc_27
  13. H. Nagano, M. Nishikawara, “Small Loop Heat Pipe with Plastic Wick for Electronics Cooling,” Japanese Journal of Applied Physics, Vol. 50, No. 11, 11RF02-1-6, 2011. http://doi.org/10.1143/JJAP.50.11RF02

Address: 1-1, Hibarigaoka, Tenpaku-cho, Toyohashi, Aichi, 441-8580, Japan
Department of Mechanical Engineering, Toyohashi University of Technology
Prof. Yanada room   | Building D, D-309
  E-mail | Following [yanada], [@me.tut.ac.jp]
Dr. Yokoyama room   | Building D, D-306
  E-mail | Following [h-yokoyama], [@me.tut.ac.jp]
Dr. Nishikawara and student room   | Building D2,D2-202
  E-mail | Following [nishikawara], [@me.tut.ac.jp]


Links

Toyohashi University of Technology   Department of Mechanical Engineering  

 

© 2015 Toyohashi University of Technology