I-Tseng Tang Professor

Name:

I-Tseng Tang

Position: Professor
Degree: Ph.D, The Institute of Microelectronics Engineering, National Cheng kung University
Experiences: Department of Environment and Energy, National University of Tainan Assistant Professor 2006 ~ 2009
Department of Greenergy Technology, National University of Tainan Associate Professor 2009 ~ 2012
Department of Greenergy Technology, National University of Tainan Professor 2012 ~
Expertise: Optoelectronics and Microelectronics Engineering
Referred Paper : 【1】Wu-Nan Chen, Min-Hung Weng, I-Tseng Tang, Cheng-Yuan Hung, Tsung-Chieh Cheng and Mau-Phon Houng, “Notch Filters with Novel Microstrip, Triangle-Type Resonators,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Vol. 51, No. 8, pp. 1018-1021(2004)

【2】Na-Fu Wang, I-Tseng Tang, Han-Jan Chen, Mau-Phon Houng, Yeong-Her Wang, “Investigation of A Novel Microwave Surface Acoustic Wave Filter under Different Piezoelectric Substrates,” Japanese Journal of Applied Physics, Vol. 43, No. 12, pp. 8139-8145,(2004)

【3】I-Tseng Tang, Han-Jan Chen, W. C. Hwang, Y. C. Wang, Mau-Phon Houng and Yeong-Her Wang, “Applications of piezoelectric ZnO film deposited on diamond like carbon coated onto Si substrate under fabricated diamond SAW filter,” Journal of Crystal Growth, Vol. 262, pp. 461-466(2004)

【4】Chen-Cheng Sun, Shih-Chin Lee, Wen-Chi Hwang, Jenn-Shyong Hwang, I-Tseng Tang and Yaw-Shyan Fu, “Surface Free Energy of Alloy Nitride Coatings Deposited Using Closed Field Unbalanced Magnetron Sputter Ion Plating,” Materials Transactions, Vol. 47, No. 10, pp. 2533 to 2539, The Japan Institute of Metals(2006)

【5】Chi-Min Li, Jia-Chyi Wu and I-Tseng Tang, “An Analytic Analysis of W-CDMA Smart Antennas Beam forming Using Complex Conjugate and DOA Methods,” Journal of marine science and technology Vol. 15, No. 4, pp. 287-294(2007)

【6】Chi-Min Li, Jia-Chyi Wu, Jia-Ching Huang, Shao-Min Wen and I-Tseng Tang, “Performance Analysis of HSDPA Downlink Equalizers, Performance Comparison of HSDPA Downlink Equalizers,” AE ¨U Int. J. Electron. Commun(2007)

【7】Ding-Bing Lin, I-Tseng Tang and Ming-Yu Tsou, “A compact UWB antenna with CPW-fed,” Microwave Opt. Technol. Lett., Vol. 49, No. 3, March, pp. 564-567(2007)

【8】I-Tseng Tang, Ding-Bing Lin and Tzu-Hao Lu, “Apply the Slow Wave Effect to Design the Compact Antenna,” Microwave Journal, Vol. 51, No. 6, June, pp. 96-105,(2008)

【9】I-Tseng Tang, Ding-Bing Lin, Wen-Li Chen and Jui-Hong Horng, “Miniaturized Hexaband Meandered PIFA Antenna Using Three Meandered-shaped Slits,” Microwave and Optical Technology Letters Vol. 50, No. 4, April, pp. 1022-1025,(2008)

【10】I-Tseng Tang, Ding-Bing Lin, Geng-Hong Liou and Jui-Hong Horng, “Miniaturized 5.2 GHz Notched UWB CPW-fed Antenna Using Dual Reverse Split Trapezoid Slots,” Microwave and Optical Technology Letters, Vol. 50, No. 3, March, pp. 652-655(2008)

【11】I-Tseng Tang, Ding-Bing Lin, Chi-Min Li and Min-Yuan Chiu, “Ultra-Wideband Bandpass Filter Using Hybrid Microstrip-Defected-Ground Structure,” Microwave and Optical Technology Letters, Vol. 50, No. 12, pp. 3085-3089, December 2008.(2008)

【12】Chi-Min Li, Jia-Chyi Wu, Jia-Ching Huang, Shao-Min Wen and I-Tseng Tang, “Performance Analysis of HSDPA Downlink Equalizers, Performance Comparison of HSDPA Downlink Equalizers,” Aeu-international Journal of electronics and communications, Vol. 1, pp. 818-821, 2009.(2009)

【13】Chi-Min Li, Shao-Min Wen, Pao-Jen Wang, Jia-Chyi Wu, and I-Tseng Tang, “An Overlap-Cut Frequency Domain Equalizer with Decision Feedback,” IEICE Transaction on Communications, Vol. E92-B, No.05, pp.1475-1483, May 2009.(2009)

【14】Liang-Wen Ji, Shi-Ming Peng, Jun-Sheng Wu, Wei-Shun Shih, Cheng-ZhiWu, and I-Tseng Tang, “Effect of seed layer on the growth of well-aligned ZnO nanowires,” Journal of Physics and Chemistry of Solids, pp. 1-4, July 2009.(2009)

【15】Na-Fu Wang, Yu-Zen Tsai, and I-Tseng Tang*, “S-Band Low-loss Wide-Bandwidth Microwave Surface Acoustic Wave Filter,” Microwave Journal, Vol. 51, No. 9, pp. 144-152, September 2009.(2009)

【16】I-Tseng Tang, Ding-Bing Lin, Chi-Min Li, and Min-Yuan Chiu, “Compact Pentagon Ultra-Wideband Bandpass Filter with Good Out-of-Band Performance,” J. of Electromagn. Waves and Appl., Vol. 23, pp. 1695–1706, 2009.(2009)

【17】Ding-Bing Lin, I-Tseng Tang*, and Yu-Yao Chang, “Flower-like CPW-Fed Monopole Antenna for Quad-band operation of mobile handsets,” J. of Electromagn. Waves and Appl., Vol. 23, pp. 2271–2278, 2009.(2009)

【18】I-Tseng Tang, Ding-Bing Lin, and Yu-Yao Chang, “Flower-like CPW-Fed Monopole Antenna for Quad-band Operation of Mobile Handsets,” J. of Electromagn. Waves and Appl., Vol. 23, pp. 2271–2278, 2009.(2009)

【19】I-Tseng Tang, Ding-Bing Lin, and Ming-Zhang Hong, “A Compact Quad-Band PIFA by Tuning the Defected Ground Structure for Mobile Phones,” Progress In Electromagnetics Research B, Vol. 24, pp. 173–189, 2010.(2010)

【20】Ding-Bing Lin, I-Tseng Tang*, and Yu-Jiau Wei, “Compact dual-band-notched CPW-fed wide-slot antenna for WLAN and WiMAX applications,” Microwave and Optical Technology Letters, Vol. 53, No. 7, pp. 1496-1501, July 2011.(2011)

【21】I-Tseng Tang*, Chi-Min Li, and Chia-Hsun Hung, “Octa-band LV-shape CPW-fed Monopole Antenna,” J. of Electromagn. Waves and Appl., Vol. 25, pp. 1471–1480, 2011.(2011)

【22】D.-B. Lin, P.-C. Tsai, I.-T. Tang*, W.-S. Chiu,”Planar Inverted-L Antenna for Octa-Band Operations of Smart Handsets”, Journal of Electromagnetic Waves And Applications,Volume 25, Issue 16,Number 2011,Pages 2188–2200.(SCI)(通訊作者)(2011)

【23】Ding-Bing Lin, I-Tseng Tang*, En-Tsao Chang,”Printed spiral-slot multimode antenna miniaturization for digital television signal receptions”, Microwave and Optical Technology Letters,Volume 54,Issue 6,June 2012, Pages 1369–1371.(SCI)(通訊作者)(2012)

【24】Liang-Wen Ji, Yu-Jen Hsiao, I-Tseng Tang*, Teen-Hang Meen, Chien-Hung Liu, Jenn-Kai Tsai,Tien-Chuan Wu and Yue-Sian Wu1, “Annealing effect and photovoltaic properties of nano-ZnS/textured p-Si heterojunction”, Nanoscale Research Letters,p1-6,2013.doi:10.1186/1556-276X-8-470(SCI)(通訊作者)(2013)

【25】Kuo-Chin Hsu, Yaw-Shyan Fu, Pei-Ying Lin, I-Tseng Tang, Jiunn-Der Liao* (2013, Nov). Fabrication and characterization of CuInSe2 thin film applicable for a solar energy light absorption material via a low temperature solid state reaction. International Journal of Photoenergy, 2013, 156964. (SCI, 10/80, Optics). NSC 102-2113-M-024-001.(2013)

【26】Teen-Hang Meen, Jenn-Kai Tsai, Shi-Mian Chao, Yu-Chien Lin, Tien-Chuan Wu, Tang-Yun Chang, Liang-Wen Ji, Walter Water, Wen-Ray Chen, I-Tseng Tang and Chien-Jung Huang*, “Surface plasma resonant effect of gold nanoparticles on the photoelectrodes of dye-sensitized solar cells,” Nanoscale Research Letters, 2013. (NSC 101-2221-E-024-015)(2013)

【27】Annealing Effect and Photovoltaic Properties of ZnS/Textured p-Si Heterojunction(2013)

【28】A novel co-planar waveguide fed transparent antenna for Wi-Fi applications(2014)

【29】Fabrication and Characterization of a-IGZO Thin-Film-Transistors with Passivation layers(2015)

【30】Coplanar Waveguide (CPW)-fed Antenna Slot for UHF Band of RFID-Tag(2016)

【31】Synthesis and Characterization of Ternary Sulfide ZnIn2S4 Light Absorbance Materials(2017)

【32】Nanowires of CH3NH3PbI3 based on Cu2ZnSnS4 nanoparticles phase-induced crystallization(2018)

Peng-Jen Chen Assistant professor

Name: Peng-Jen Chen
Position: Assistant professor
Degree: PhD of Mechanical Eng., National Cheng Kung Univ.
Experiences: Engineer of Industrial Technology Research Institute(ITRI)
Expertise: Numerical Simulation, heat flow analysis, Optimization, MEMS
Patents : 【1】一種具微米凹槽結構紅外光吸收特性材料之紅外光感測元件,陳鵬仁、許豐家、張勳承、蘇中源。
【2】 可減低熱應力的微加熱器結構,陳鵬仁、李柏勳、黃肇達。
【3】 用於射出成型製程的感測器,陳鵬仁、蔡孟樵、蘇中源。
Research project : 【1】陳鵬仁,台朔脫硫塔效能最佳化設計,產學合作計畫主持人,台塑重工”脫硫塔效能105年9月~106年2月
Referred Paper : 1. “Numerical simulation of fluid flow and heat transfer characteristics in channel with V corrugated plates.” Yang, Yue-Tzu, and Peng-Jen Chen. Heat and mass transfer 46.4 (2010): 437-445. (SCI)
2. “Numerical optimization of turbulent flow and heat transfer characteristics in a ribbed channel.” Yang, Yue-Tzu, and Peng-Jen Chen. Heat Transfer Engineering 36.3 (2015): 290-302. (SCI)
3. “Numerical Study of a Solar Collector with Partitions.” Yang, Yue-Tzu, and Peng-Jen Chen. Numerical Heat Transfer, Part A: Applications 66.7 (2014): 773-791.(SCI)
4. “Numerical simulation of impingement cooling for a pin-fin heat sink.” Peng-Jen Chen, Yue-Tzu Yang *, and Shi-Jia Lin. THE ASIAN SYMPOSIUM ON COMPUTATIONAL HEAT TRANSFER AND FLUID FLOW – 2011, KYOTO, JAPAN (2011). (Conference)
5. “方柱鰭片散熱器之電子冷卻數值研究”陳鵬仁、鄞建章、楊玉姿,中國機械工程學會第二十九屆全國學術研討會 (2012)。 (Conference)
6. “實驗室空調系統之熱對流分析”張勳承、陳鵬仁、蘇柏仁,中國機械工程學會第三十一屆全國學術研討會(2014)。 (Conference)
7. “應用晶格波茲曼法於具表面粗糙度之微流道電滲流模擬”張勳承、陳鵬仁、許豐家、蘇中源、蔡孟樵,微系統暨奈米科技協會會刊(2017)。
8. ” Optimization of wavy channels using genetic algorithm “陳鵬仁、蔡孟樵、許豐家、蘇中源,微系統暨奈米科技協會會刊(2017)。
9. “熱電堆溫度感測元件幾何結構設計之探討”陳鵬仁,蘇中源,許豐家,國際智慧感測器研討會(2018)。(Conference)

Jenn-Kun Kuo Associate Professor

Name: Jenn-Kun Kuo
Position: Associate Professor
Degree: Ph.D,National Cheng kung University
Experiences: 台塑石化公司 麥寮(海豐)火力發電廠 工程主辦 1998~2001
元砷光電公司 LED製程部 工程師 2001~2002
國立中山大學 機械與機電工程學系 助教 2002~2004
遠東科技大學 機械工程系 講師 2004/8/1~2007/7/31
國立臺南大學 綠色能源科技研究所 助理教授 2007/8/1~2010/01
國立臺南大學 綠色能源科技學系 助理教授 2010/02~2011/07
國立臺南大學 綠色能源科技學系 副教授 2011/08~2014/7
國立臺南大學 綠色能源科技學系 教授 2011/8~2014/7
University of Birmingham Mechanical Engineering 訪問教授 2013/7~2013/9
國立臺南大學 綠色能源科技學系 教授 2014/8~迄今
Expertise: Fuel Cells
Referred Paper : (1) S.S. Hsieh, J.K. Kuo, C.F. Hwang, H.H. Tsai, “A novel design and microfabrication for a micro PEMFC” Microsystem Technologies 10 (2004) 121-126. (SCI) (IF: 1.025)(2) S.S. Hsieh, C.F. Hwang, J.K. Kuo,H.H. Tsai, “SU-8 flow field plates for a micro PEMFC” Journal of Solid State Electrochem 9 (2005) 121-131. (SCI) (IF: 1.821)

(3) S.S. Hsieh, J.K. Kuo, S.H. Yang, C.F. Hwang, H.H. Tsai, “Study of operational parameters on the performance of micro PEMFCs with different flow fields” Energy Conversion & Management 47 (2006) 1868-1878. (SCI) (IF: 2.054)

(4) C.K. Chen, J.K. Kuo, “Nylon 6/CB polymeric conductive plastic bipolar plates for PEM fuel cells” Journal of Applied Polymer Science 101 (2006) 3415-3421. (SCI) (IF: 1.2)

(5) J.K. Kuo, C.K. Chen, “A novel Nylon-6-S316L fiber compound material for injection molded PEM fuel cell bipolar plates” Journal of Power Sources 162 (2006) 207-214. (SCI) (IF: 3.792)

(6) J.K. Kuo, C.K. Chen, “Evaluating the enhanced performance of a novel wave-like form gas flow channel in the PEMFC using the field synergy principle” Journal of Power Sources 162 (2006) 1122-1129. (SCI) (IF: 3.792)

(7) J.K. Kuo*, C.K. Chen, “The effects of buoyancy on the performance of a PEM fuel cell with a wave-like gas flow channel design by numerical investigation” International Journal of Heat and Mass Transfer 50 (2007) 4166-4179.(SCI) (IF: 1.947)

(8) J.K. Kuo*, C.K. Chen, “Improvement of the performance of the gas flow channel in the PEM fuel cells,” Energy Conversion and Management.49(2008)2776-2787 (SCI)(IF:1.944)

(9) Jenn-Kun Kuo*, Cai-Wan Chang-Jian, Cha’o-Kuang Chen, “Numerical investigation the Performance and Transport Phenomena of a Proton Exchange Membrane Fuel Cell with a Wavelike Gas Flow Channel Design”, Journal of Applied Polymer Science. Vol. 111, 1440-1448 (2009). (SCI) (IF:1.2)

(10) Shiuh-Ming Chang*, Jenn-Kun Kuo, ” Injection molded PEM fuel cell bipolar plates structure”, Journal of Professional Mechanical Engineers, 2008, Vol.1, No.4, pp.14-20.

(11) J.K. Kuo*, T.H. Yen, C.K. Chen,” Three-dimensional numerical analysis of PEM fuel cells with conventional straight and wave-like gas flow fields channels” Journal of Power Sources 117 (2008) 96-103. (SCI)(IF: 3.792)

(12) C. T. Lin, J. K. Kuo, T. H. Yen*, “Quantum Fluid Dynamics and Quantum Computational Fluid Dynamics”, Journal of Computational and Theoretical Nanoscience,Vol.6, No.5, 1090-1108 (2009) (SCI)(IF:0.9)

(13) Cai-Wan Chang-Jian*, J.K. Kuo, “Bifurcation and chaos for porous squeeze film damper mounted rotor–bearing system lubricated with micropolar fluid,” Nonlinear Dynamics. 58, (2009) 697-741. (SCI) (IF:1.658)(30/105)

(14) T.H. Yen, J.K. Kuo, Y.T. Yang*,”Comparison of Heat Transfer Coefficient in the Backward-Facing Step Flow with the LBM and Field Synergy Principle”, Journal of the Chinese Society of Mechanical Engineers, Vol.30, No.2, 125~134 (2009) (SCI)(IF:0.656)

(15) Shiuh-Ming Chang, Jenn-Kun Kuo*,”Simulation of PEM fuel cell gas flow field channel “, Journal of the Chinese Society of Mechanical Engineers, 2010, VO1.31 ,NO.6(SCI)(IF:06.56)

(16) J.K. Kuo*“ Numerical investigation into thermofluidic and electrochemical characteristics of tubular-type SOFC“, Fuel Cells Vol.10 (2010) 463-471 (SCI)(IF:3.32)

(17) Jenn-Kun Kuo*,Pei-Hsing Huang, Shiuh-Ming Chang ,”Displacement Impact on PEM Fuel Cell Bipolar Plate for Fibre Orientation and Cooling System”, Journal of the Chinese Society of Mechanical Engineers,Vol.32 (2011) 409-417. (SCI) (IF: 0.696) (通訊作者)

(18) J.K.Kuo*, Jian-Kai Wang”Characteristic simulation and mass transfer of membrane electrode assembly in SOFC”Journal of Soild State Electrochemistry Vol.16 (2012) 329-340. (SCI)(IF:2.234) (通訊作者)

(19) J.K. Kuo*, C.F. Wang, “An integrated simulation model for PEM fuel cell power systems with a buck DC-DC converter” International Journal of Hydrogen Energy, Vol.36 (2011) 11846-11855 (SCI) (IF: 4.053)(通訊作者)

(20) Pei-Hsing Huang*, Jenn-Kun Kuo, “Thermal stretching of defective nanowires: the coupled effects of vacancy cluster defects, operating temperature, and wire cross-sectional area”, Applied Physics A: Material Science & Processing, Vol.103,2010,1083-1092. (SCI) (IF: 1.595)

(21) Chin-Tien Lin, Jenn-Kun Kuo, Tzu-Hsiang Yen “Three-dimensional molecular dynamics study of aperture shape effect on nanojet ejection”, Journal of the Chinese Institute of Engineers, Journal of the Chinese Institute of Engineers, Vol.34, Issue 8, 1001-1011 (2011) (SCI (IF:0.225)

(22) Jenn-Kun Kuo, Hung-Yi Li Wen-Chung Weng, Wei-Mon Yan, “Numerical investigation into transient response of proton exchange membrane fuel cell with serpentine flow field”, Iernational Journal of Energy Research VOL.37 (2013)1302-1312.(SCI) (IF:2.122) (第一作者)

(23) Jenn-Jiang Hwang , Yu-Jie Chen, Jenn-Kun Kuo*,”The Study on the Power Management System in a Fuel Cell Hybrid Vehicle”, International Journal of Hydrogen Energy 37(2012) 4476-7789.(SCI)(IF:4.402)(通訊作者)

(24) J.J. Hwang , P.C. Wang, J.K. Kuo*,”Simulation of a Cogeneration System Based on Proton Exchange Membrane Fuel Cell”, Fuel Cells, Volume 12 (2012) 326-334.(SCI)(IF:3.32) (通訊作者)

(25) P.H. Huang*, J.K. Kuo, “Atomistic Simulations of Solid-state Pressure Welding of Metallic Nanowires”, Applied Physics A, Accepted on 4 July 2012. (SCI)(IF:1.63)

(26) Jenn-Kun Kuo*, Jenn-Jiang Hwang, Chin-Hong Lin,”Performance Analysis of a Stationary Fuel Cell Thermoelectric Cogeneration System”, Fuel Cells, Vol.12 (2012) 1104-1114. (SCI)(IF:2.364)(通訊作者)

(27)Jenn-Kun Kuo*, Pei-Hsing Huang, Chi-Fa Wang,”Numerical Modeling and Analysis of PEMFC Integrated with Auxiliary Power Source”, International Journal of Energy Research, Vol.37 (2013) 1635-1644 (SCI)(IF:1.987)(通訊作者)

(28)J.J. Hwang,W.R. Chang,J.K Kuo,W.Wu,”Experimental study on performance of a planar membrane humidifier for a proton exchange membrane fuel cell stack”, Journal of Power Sources, Vol.215,2012,69-76. (SCI)(IF:4.951)

(29)Jenn-Kun Kuo*, Yuan-Yao Hsu,”Intelligent Control Scheme for the Prototype Stationary 1.0 kW PEM Fuel Cell System”, International Journal of Green Energy,Vol.10(2013) 1086-1101. (SCI)(IF:2.069)(通訊作者)

(30)Jenn-Jiang Hwang*, Jenn-Kun Kuo, Wei Wu, Wei-Ru Chang, Chih-Hong Lin, Song-En Wang,”Lifecycle performance assessment of fuel cell/battery electric vehicles”, International Journal of Hydrogen Energy 38(2013)3433-3446. (SCI)(IF:4.402)

(31)Jenn-Kun Kuo*, Hsiang-Kuei Hsieh, “Research of flywheel system energy harvesting tehnology for fuel cell hybrid vehicles” Fuel Cells, Vol.13( 2013)1234-1241. (SCI)(IP:2.364)(通訊作者)

(32)Jenn-Kun Kuo, Pei-Hsing Huang*, Wei-Te Wu, “Mechanical and fracture behaviors of defective silicon nanowires: combined effects of vacancy clusters, temperature, wire size, and shape” Applied Physics A, Accepted on 24 July 2013.(SCI)(IF:1.545)

(33)Pei-Hsing Huang, Jenn-Kun Kuo*, Yuan-Yao Hsu, “Design and Implementation of 8051 Single-Chip Microcontroller for Stationary 1.0 kW PEM Fuel Cell System”, Journal of Chemistry, Vol.762954 (2014)1-8.(SCI)(IF:0.622) (通訊作者)

(34)Jenn-Jiang Hwang, Chin-Hong Lin, Jenn-Kun Kuo*, “Performance analysis of fuel cell thermoelectric cogeneration system with methanol steam reformer”, International Journal of Hydrogen Energy, Vol.39 (2014)14448-14459. (SCI)(IF:2.93)(通訊作者)

(35)Jenn-Kun Kuo, Pei-Hsing Huang*, Wei-Te Wu, Chi-Ming Lu,”Mechanical and fracture behaviors of defective silicon nanowires: combined effects of vacancy clusters, temperature, wire size, and shape”, Applied Physics A, Vol.114 (2014)1247-1256.(SCI)(IF:1.694) (第一作者)

(35)Pei-Hsing Huang, Jenn-Kun Kuo*, Chun-Yen Huang, “A new application of the UltraBattery to hybrid fuel cell vehicles”, International Journal of Energy Research, Vol.40 (2016) 146-159. (SCI)(IF:2.4)(通訊作者)

(36) Jenn-Kun Kuo*, Chung-Neng Huang, Tsung-Hung Lu, “Experimental investigation on heat transfer and pressure drop of ZnO/ethylene glycol-water nanofluids in transition”, Applied Thermal Engineering, Vol. 93 (2016) 425-432. (SCI)(IF: 2.739)(第一作者)(通訊作者)

(37) Pei-Hsing Huang , Jenn-Kun Kuo*, Zong-Dain Wu, “Applying small wind turbines and a photovoltaic system to facilitate electrolysis hydrogen production”,International Journal of Hydrogen Energy, Vol. 41, 2016, 8514-8524. (IF: 3.205) (通訊作者)

(38) Jenn-Kun Kuo, Pei-Hsing Huang*, Tzu-Hsiu Huang and Jheng-Yu Luo, “Adsorption behaviors of hydrogen sulphide on Au(110) nanoslit array surfaces using molecular dynamics simulations”, Molecular Simulation, Vol.42 (2016) 1429-1436. (IF:1.678) (第一作者)

(39) Jenn-Kun Kuo, Pei-Hsing Huang*, Meng-Jun Guo, “Removal of CrMo alloy steel components from investment casting gating system using vibration-excited fatigue failure”, The International Journal of Advanced Manufacturing Technology, Vol. 89, 2017, 101-111. (SCI)(IF:2.209) (第一作者))

(40) Pei-Hsing Huang, Jenn-Kun Kuo*, Cheng-Yun Han, “Numerical investigation into slope-climbing capability of fuel cell hybrid scooter”, Applied Thermal Engineering, Vol.110, 2017, 921-920. (SCI)(IF: 3.356) (通訊作者)

(41) Jenn-Kun Kuo, Pei-Hsing Huang*, Hsin-Yi Lai, Jian-Rong Chen, ” Optimal gating system design for investment casting of 17-4PH stainless steel enclosed impeller by numerical simulation and experimental verification”The International Journal of Advanced Manufacturing Technology, Vol.92 (2017) 1093-1103. (SCI) (IF:2.209 ) ( 第一作者)

(42). Pei-Hsing Huang, Jenn-Kun Kuo*, Sie-Jhih Tsai , Yu-Chou, Tsai, “Evaporation analysis of different fuels in evaporator coil of steam reformer for stationary PEM fuel cell systems”, Applied Thermal Energy, Accepted on 2017.9.10. (SCI)(IF:3.356) (通訊作者)

Hsin-Hui Chung Assistant Professor

Name: Hsin-Hui Chung
Position: Assistant Professor
Degree: 國立成功大學機械工程學系博士班
Experiences: 可成科技高級工程師
Expertise: 結構分析
破壞力學
有限元素

Song-Hao Wang professor

Name: Song-Hao Wang
Position: professor
Degree: Ph.D,University of Pittsburgh
Experiences: 美國匹茲堡大學機械系PA
機械設計工程師,NAGATI ENGINEERING INC, PITTSBURGH, PA
機械工程師, PPG INDUSTRIES, PITTSBURGH, PA,USA
機 械工械師, DULUBAK TECHNOLOGY INC。 BUTLER, PA,USA
台灣崑山科技大學機械系及微精密機械製造中心客座教授
Expertise: CAD/CAM , RP/RT,Computer Application of Engineering analysis Assistant Computer Desigh
Patents: US Patent No. 5,797557,“Apparatus, Systems and Methods for Trans porting A Cylindrical Package”,1998

中空式薄壁金屬件之製造方法

可於內部強制對流之散熱器

Books: Solid Edge電腦輔助3D設計及繪圖”,高立圖書有限公司,#101799, 2005年

翻譯書籍:“Fundamentals of Heat and Mass Transfer” ,高立 圖書 有限公司 ,2005 年

Referred Paper : 研究論文
ASME J. of Mech. Eng. , 1993 \\\”On the Mechanism of Fluid Transport Across the Grinding Zone\\\”
ASME J. Tribology, 1992 \\\”Lubrication with Emulsion in Cold Rolling\\\”
ASME J. Tribology, 1992 \\\”Lubrication with Binary Mixtures: Liquid-Liquid Emulsion in EHL Conjunction\\\”
Tribology Transactions, Vol. 35, No. 1, 1992 \\\”Notes on Transient THD Effects in A Lubrication Film\\\”
Tribology Transactions, Vol. 34, p.259, 1991 \\\”The Influence of Lubricant Visco-Plastic Character on the Line Contact EHL under High Sliding Speeds\\\”
ASME J. Tribology, Vol. 113, p. 398, 1991 \\\”On The Fluid-Solid Interaction in Reference to Thermo-EHL Analysis of Journal Bearings\\\”
ASME J. Tribology, Vol. 113, p. 398, 1991 \\\”On The Maximum Temperature in Double-Layer Journal Bearings\\\”
WEAR, Vol. 137, p. 51, 1989 \\\”On The Role of Particulate Contamination on Scuffing Failure\\\”ASME J. Tribology , Vol. 112, p. 259, 1989 \\\”A Theory of Thermal EHL of Liquid-Solid Lubricant\\\”
ASME J. Tribology, Vol. 111, p. 440, 1989 \\\”A Theory of Thermal EHL of Liquid-Solid Lubricant\\\”
WEAR, Vol. 127, p.1, 1988 \\\”The Influence of the Character of Lubricant on the Surface Strength of Gears\\\”
ASME J. Tribology, Vol. 110, p. 1, 1988 \\\”A Full Numerical EHD Solution for Line Contact under Pure Rolling Condition with a Non-Newtonian Rheological Model\\\”
Proc. of CSME Symp. on Gear Strength & Testing, 1987 \\\”Gear Surface Wear and the Optimum Design\\\”,
Proc. of CSME Symp. on Gear Strength & Testing, 1987 \\\”A Thermal Network Theory and Its Application for Predicting Temperature Distribution in A Gear Transmission System\\\”
Proc. of CSME Symp. on Gear Strength & Testing, 1987 \\\”Friction Coefficient of Gears\\\”
ASME J. Tribology, Vol. 109, p. 666, 1987 \\\”Combined Effects of Thermal and non-Newtonian Character of Lubricant on Pressure, Film Profile, Temperature Rise and Shear Stress in EHL\\\”
WEAR, Vol. 118, p.185, 1987 \\\”Influence of Visco-Plastic and Visco-Elastic Character of Lubricant on EHL\\\”
GEAR, 1986 \\\”The Temperature Rise in Gear Meshing Zone Analyzed by A Thermo-EHL Theory\\\”Porc. of 13th Leeds-Lyon Symp. on Tribology, 1986 \\\”The Effect of Surface Roughness orientation on EHL\\\”
Proc. of 13th Leeds-Lyon Symp. on Tribology, 1986 \\\”A Full Numerical EHL Solution for Sliding-Rolling Line Contacts with a Non-Newtonian Rheological Model\\\”
“ Digital Denture Manufacturing-Application of abrasive computer tomography, CNC machining, and rapid prototyping technologies”- 2 nd International Conference on Advanced Research in Virtual and Rapid Prototyping, Leiria, 28 September – 01 October, 2005

Kuen-Horng Tsai Professor

Name: Kuen-Horng Tsai
Position: Professor
Degree: Ph.D,National Cheng kung University
Experiences: 2005/08 ~ now:國立臺南大學 系統工程研究所 (教授)
2005/08 ~ now:國立臺南大學 創新育成中心(主任)
2003/08 ~ now:國立成功大學 工業設計研究所 (兼任副教授)2005/1 ~ 2006/12:中華民國生物醫學工程學會(副秘書長)
2003/1 ~ 2005/07:南台科技大學 醫療輔具科技中心(主任)
2002/1 ~ 2005/07:南台科技大學 管理與資訊學系(副教授)
2001/2 ~ 2001/12:南台科技大學 工業管理學系(助理教授)
(後改名為管理與資訊系)
1999/2 ~ 2001/01:大葉大學 工業設計研究所(助理教授)
(醫療器材整合設計)
1997/9 ~ 2003/07:國立成功大學 工業設計研究所(兼任助理教授)
(醫療器材整合設計)
1997/8 ~ 1999/01:中山醫學大學院 復建醫學系(助理教授)
1991/8 ~ 1997/07:國立成功大學附設醫院骨科(研究助理)
1989/9 ~ 1991/07:國立成功大學醫學工程研究所(助 教)
Expertise: Medical Assistive Technology
Biomedical Engineering
Biomechanics
Product Planning and Development
Patents: 1 下肢障礙患者新型步態訓練機之設計、開發與評(II) (96-2221-E-024-014-) 2007/8/1- 2008/7/3
2 96年度中小企業創新育成中心專案計畫 2007/1~12
3 多功能安養病床之設計與開發(95-2622-E-024-003-CC3) 2006/11/1-2007/10/31
4 下肢障礙患者新型步態訓練機之設計、開發與評估 (95-2614-B-024-001-) 2006/8/1-2007/10/31
5 95年度中小企業創新育成中心專案計畫 2006/1~12
6 輪椅使用者汽車駕駛之人因工程分析與載具之設計開發
(94-2614-B-024-002-) 2005/8/1- 2006/9/30
7 助動式輪椅之設計、研發與評估(3/3) (94-2614-B-024-001-) 2005/8/1-2006/7/31
8 功能性電刺激踩車系統人機介面之設計與開發 (94-2622-E-024-002-CC3) 2005/5/1-2006/6/30
9 助動式輪椅之設計、研發與評估(2/3) (93-2614-B-218-001- ) 2004/8/1-2005/7/31
10 電動輪椅驅動系統之模組化設計與開發 (93-2622-B-218-001-CC3) 2004/5/1-2005/4/30
11 助動式輪椅之設計、研發與評估(1/3) (92-2614-B-218-001- ) 2003/8/1-2004/7/31
12 混合式手/電動輪椅之研發與評估(2/2)(92-2218-E-218-007- ) 2003/8/1-2004/7/31
13 簡易可攜式電動輪椅之設計開發(91-2622-E-218-014-CC3) 2002/12/1-2003/11/30
14 中風偏癱患者單側操控輪椅之設計研發與評估(2/2) (91-2614-E-218-001- ) 2002/8/1-2003/7/31
15 混合式手/電動輪椅之研發與評估(1/2) (91-2213-E-218-029- ) 2002/8/1-2003/7/31
16 中風偏癱患者單側操控輪椅之設計研發與評估(1/2)(90-2213-E-218-019- ) 2001/8/1-2002/7/31
17 功能性電刺激輔助系統於脊髓損傷者復健之整合研究-子計畫二:
脊髓損傷者使用功能性電剌激輔助系統對下肢痙攣之影響(2/2)
(90-2614-E-218-003- ) 2001/8/1-2002/7/31
18 功能性電刺激輔助系統於脊髓損傷者復健之整合研究-子計畫二:
脊髓損傷者使用功能性電剌激輔助系統對下肢痙攣之影響(1/2)
(89-2614-E-218-002- ) 2000/8/1-2001/7/31
19 肢體殘障者使用翻書機之研發、評估與推廣(89-2213-E-218-044- ) 2000/8/1-2001/7/31
20 中風患者虛擬實境電刺激踩車系統之研發與臨床評估(I)
(96-2221-E-040-009- 2007/8/1-2008/7/31
21 不同功能性電刺激踩車模式對痙攣及心肺功能之量化分析
(95-2221-E-040-004-) 2006/8/1-2007/10/31
22 護理人員職業傷害及因應對策之研究(2/2)(95-2314-B-006-023-) 2006/8/1-2007/7/31
23 不同牽張治療模式對下肢痙攣之量化分析(94-2614-E-040-002-) 2005/8/1-2006/10/31
24 新型下肢驅動輪椅之設計,開發與評估(2/2)(94-2614-B-006-001-) 2005/8/1-2006/10/31
25 複合式感性工學系統應用於產品發展之適用性評估(94-2213-E-006-051-) 2005/8/1-2006/10/31
26 護理人員職業傷害及因應對策之研究(1/2)(94-2320-B-006-045-) 2005/8/1-2006/9/30
27 新型下肢驅動輪椅之設計,開發與評估(1/2)(93-2614-B-006-001- ) 2004/8/1-2005/9/30
28 複合式感性工學應用於產品開發之整合性研究-子計畫三:
建構以觸覺為基礎之統合性感性推衍模式之研究(I)
(92-2213-E-006-047- 2003/8/1-2004/7/31
29 複合式感性工學應用於產品開發之整合性研究-總計畫(II)
(92-2213-E-006-092- ) 2003/8/1-2004/7/31
30 功能性電刺激輔助系統於脊髓損傷者復健之整合研究-總計畫(2/2)
(90-2614-E-006-006- ) 2001/8/1-2002/10/31
31 高頸髓損傷者本土化科技輔具之研製與應用-子計畫一:
高頸髓損傷者科技輔具之臨床應用與成效評估(2/2)
(90-2614-E-040-001- ) 2001/8/1-2002/7/31
32 功能性電刺激輔助系統於脊髓損傷者復健之整合研究-總計畫(1/2)
(89-2614-E-006-008- ) 2000/8/1-2001/10/31
33 高頸髓損傷者本土化科技輔具之研製與應用-子計畫一:
高頸髓損傷者科技輔具之臨床應用與成效評估(1/2)
(89-2614-E-040-002- ) 2000/8/1-2001/7/31

David T.W. Lin Professor

Name: David T.W. Lin
Position: Professor
Degree: PhD of Mechanical Eng., National Cheng Kung Univ.
Experiences: ♦ Position

President, International Society of Mechatronic Engineering, 2016.5~

Director, Center of Low Grade Energy, National Univ. of Tainan, Taiwan, 2017.6~

Professor, Institute of Mechatronic System Engineering, National Univ. of Tainan 2012.2~

Project Leader, EGS, Geothermal Branch, Energy National Technology Project 2013.4~2015.12, 2017.1~

Associate Editor in Chief, Smart Science, ISSN:2308-0477 2013.2~

Associate Editor, Journal of Chinese Society of Mechanical Engineer 2015.11~

Editorial Board, International Journal of Science and Engineering 2011.8~


♦ Professional Experience

Chair of Institute of Mechatronic System Engineering, National University of Tainan, Taiwan 2011.8~2017.7

Deputy Chairman of Secretariat, Aeronautical and Astronautical Society of Republic of China, 2012~2013.

Consultant of Hazardous Materials Management Committee, Fire Agency, 2012

Member of Popular Science Education Committee, Aeronautical and Astronautical Society of Republic of China 2010.1~2015.12

Member of Accreditation, Project of Industrial Operation, Ministry of Science and Technology 2013

Associate Professor, Institute of Mechatronic System Engineering, National University of Tainan, 2008.8~2012.1

Associate Professor, Dept. Mechanical Engineering, Far East University, 2007.8~2008.7

Assistance Professor, Dept. Mechanical Engineering, Far East University, 2005.8~2007.7

Assistance Professor, Dept. Information Management, Hsing Kuo University, 2004.8~2005.7

Teaching Assistant, Dept. Mechatronic Engineering, Huafan University, 1994.8~2004.7

Expertise: Geothermal System
Optimization
LED
Heat Transfer
Pressure Vessel
Low Grade Energy
Energy Saving
Research project: 【1】 林大偉,大學生跨領域科技能力培養研究計畫-微/奈米光機電跨領域研究計畫,計畫協同主持人,90年12月至93年12月。

【2】 林大偉,奈米殼層之放熱過程於氨基酸中之熱傳分析,計畫主持人,94年8月至95年7月,NSC 94-2212-E-269-017。

【3】 林大偉,分子動力學於直接甲醇燃料電池之甲醇穿透率模擬,計畫主持人,95年8月至96年7月,NSC 95-2212-E-269-025。

【4】 林大偉,鋁製板式熱管之逆運算分析,計畫主持人,95年11月至96年3月,工研院計畫。

【5】 林大偉,直接甲醇燃料電池於甲醇穿透率之動態模擬與實驗,計畫主持人,96年8月至97年7月,NSC96-2221-E-269-007。

【6】 林大偉,藻類特用化學品試量產技術研發計畫,計畫顧問,96年10月至98年9月,人宇生物科技股份有限公司,經濟部業界科專計畫。

【7】 林大偉,霧化型均熱板之評估分析,計畫主持人,97年1月至97年6月,工研院計畫。

【8】 林大偉,高爾夫球桿身脊線測量儀之設計與研發,共同主持人,96年度教育部推動技專校院與產業園區產學合作計畫。

【9】 林大偉,以平行分子動力學結合新表列法則於三維流道內蛋白質流體之熱流性質分析,主持人,97年8月至98年7月,98年度台南大學校內計畫。

【10】 林大偉,LED陣列之熱傳最佳化設計,主持人,98年8月至99年7月,99年度台南大學校內計畫。(楊倬昱、黃志平)

【11】 林大偉,FM1 橋狀結構模型建立技術,協同主持人,98年8月至99年7月,工研院98科發計畫分包學界研究計畫。(吳保權)

【12】 林大偉,新型可撓式薄膜焦電溫度感測器之校正與最佳化設計,計畫主持人,99年8月至100年7月,100年度台南大學校內計畫。(孫敏盛、段文心)

【13】 林大偉,LED燈具散熱最佳化設計,計畫主持人,99年7月至99年12月,99年度學界協助中小企業科技關懷計畫。(齊瓦朋、陳聖中)

【14】 林大偉,LED燈具之創新設計-LED燈具之散熱最佳化,計畫主持人,99年6月至99年11月,99年度台南縣政府SBIR計畫。(齊瓦朋、陳聖中)

【15】 林大偉,LED燈具之創新設計-LED燈具之設計介面,計畫主持人,99年6月至99年11月,99年度台南縣政府SBIR計畫。(齊瓦朋、陳聖中)

【16】 林大偉,整合實驗、模擬及最佳化法之壓電型熱管發電機最佳化設計,主持人,100年8月至101年7月,100年度國科會計畫。(NSC-100-2221-E-024-012-)(沈承峰、林家立)

【17】 林大偉,主動式微型致冷器熱流模擬,計畫主持人,100年7月至100年9月,工研院計畫。(陳聖中)

【18】 林大偉,UV LED均光性光學模擬,計畫主持人,100年7月至100年9月,中科院計畫。(陳聖中)

【19】 林大偉,高功率LED之鋁-丙酮板式熱管冷卻模組之研製與最佳化設計,主持人,101年8月至102年7月,101年度國科會計畫。(NSC 101-2221-E-024 -010 -)(楊子蔚、辛龍德)

【20】 林大偉,電動清運車之專利地圖,主持人,101年7月至101年9月,同均企業技術委託案。(郭晏廷)

【21】 林大偉,CO2在增強型地熱系統取熱之研究,共同主持人,102年5月至103年4月,國家型科技計劃。(鍾明哲、魏啟涵)(NSC 102-3113-P-024-001)

【22】 林大偉,高功率LED之鋁-丙酮板式熱管冷卻模組之性能分析與耐久測試,主持人,102年8月至103年7月,102年度國科會計畫。(NSC 102-2221-E-024 -010 -)

【23】 林大偉,鍍膜製程參數最佳化技術,主持人,103年9月至103年12月,界霖科技技術委託案

【24】 林大偉,超臨界CO2在增強型地熱系統儲集層中取熱之研究(1/2),主持人,103年4月至103年12月,國家型科技計劃。(MOST 103-3113-M-024-001)

【25】 林大偉,超臨界CO2在增強型地熱系統儲集層中取熱之研究(2/2),主持人,104年1月至104年12月,國家型科技計劃。(MOST 103-3113-M-024-001)

【26】 林大偉,應用表面聲波元件於力量感測的研究,主持人,105年1月1日至105年12月31日,秀傳醫療體系專題研究計畫。

【27】 林大偉,微創手術用之觸覺感測器與應用於癌症檢測生醫晶片之開發(A)【可撓式觸覺感測器之開發】,主持人,105年9月1日至106年8月31日,秀傳醫療體系專題研究計畫。

【28】 林大偉,增強型地熱系統儲集層取熱之研究,主持人,105年7月1日至105年8月31日,中央研究院獎勵國內學人短期來院訪問研究計畫。

【29】 林大偉,宜蘭平原深層地熱探勘鑽井及地熱系統開發研究- EGS儲集層現地取熱評估系統開發(1/2),主持人,106年1月1日至106年12月31日,國家型能源科技計劃。(MOST 106-3113-M-024-001)

【30】 林大偉,增強型地熱系統儲集層取熱之研究,主持人,106年7月1日至106年12月31日,中央研究院獎勵國內學人短期來院訪問研究計畫。

【31】 林大偉,智慧機械自動化設備人才培育計畫,主持人,106年7月至106年11月,東捷科技股份有限公司/經濟部工業局。

【32】 林大偉,智能電熱溫控陣列,主持人,107年1月1日至107年12月31日,福星熱能科技股份有限公司。

【33】 林大偉,宜蘭平原深層地熱探勘鑽井及地熱系統開發研究-宜蘭地區加熱型地熱系統儲集層技術開發與模擬研究(2/2),共同主持人,107年1月1日至12月31日,國家型能源科技計劃。(MOST 107-3113-M-002-003)

【34】 林大偉,地熱發電系統熱電轉換與發電設備失效模式分析,主持人,107年2月1日至11月30日,工業技術研究院計畫。

【35】 林大偉,地熱產能測試之相似模型開發,主持人,107年8月1日至108年7月31日,107年度科技部計畫。(MOST 107-2221-E-024 -010)

Patents: 【1】 Yan-Ting Guo, David T.W. Lin, Yung-Der, Juang, Chu-Yu Chen, Flexible Surface Acoustic Wave Device, Invention, Application No. 101130003, 2012/8/17.

【2】 David T.W. Lin, Jui Ching Hsieh, Cheng Feng Shen, Piezoelectric Micro Power Generator, Invention, Cert. No. I 455473, 2014/10/1-2032/11/8.

【3】 David T.W. Lin, Jui Ching Hsieh, Ming Che Chung, Chi Han Wei, Zih You Hwang, Bo Yen Shih, Cyun Jie Hwang, The Optimal System of Operated Parameters of Heat Extraction in the EGS, Invention, Processing, 2015/8.

【4】 水下井下壓力感測薄膜及其製備方法,林大偉、李昆達、任春平、郭珈妘,發明專利申請ESW1021,2018/02/01。

【5】 地熱井產能預估方法及其系統,林大偉,發明專利申請107133233,2018/09/20。

【6】 水增強型地熱之最佳取熱系統,林大偉,新型專利申請107216101,2018/11/27。

Books:
Referred Paper : ♦ Referred SCI Journal Papers

【1】 M. Yan*, H.Y. Li , and David. T.W. Lin, 1999 Jan., Mixed convection heat transfer in a radially rotating square duct with radiation effects, Int. J. Heat Mass Transfer, Vol. 42, pp.35-47. (NSC85-2212-E-211-005) SCI , IF:2.383(Engineering, Mechanical=11/130) (7/2,4)

【2】T.W. Lin and W.M. Yan*, 2000 Sep., Experimental study of unsteady thermal convection in heated rotating inclined cylinders, Int. J. Heat Mass Transfer, Vol. 43, pp.3359-3370. (NSC87-2212-E-211-006)SCI , IF:2.383(Engineering, Mechanical=11/130) (4/0,1)

【3】 M. Yan* and David. T.W. Lin, 2001 Mar., Natural convection heat and mass transfer in vertical annuli with film evaporation and condensation, Int. J. Heat Mass Transfer., Vol. 44, No. 6, pp.1143-1153. (NSC87-2212-E-211-006) SCI , IF:2.383(Engineering, Mechanical=11/130) (17/1,8)

【4】 T.W. Lin* and C.K. Chen, 2004 Nov., A molecular dynamics simulation of TIP4P and Lennard-Jones water in nanochannel, ACTA Mechanica, Vol. 173, pp.181-194. (NSC92-2212-E-006-002) SCI , IF:1.465(Mechanics = 61/137)(3/1,0)

【5】 K. Chen and David. T.W. Lin*, 2005 Aug., TIP4P potential for lid-driven cavity flow, ACTA Mechanica, Vol. 178, pp.223-237.(NSC92-2212-E-006-002) SCI , IF: 1.465(Mechanics = 61/137) (1/0,0)

【6】 T.W. Lin and C.Y. Yang*, 2005 Sep., The heat transfer analysis of nanoparticle heat source in Alanine tissue by molecular dynamics, Int. J. Biological Macromolecules, Vol.36, pp.225-231. SCI , IF:2.858(Biochemistry & Molecular Biology = 135/290)(5/1,1)

【7】 T.W. Lin* and C.Y. Yang, 2007 Dec., The estimation of the strength of the heat source in the heat conduction problems, Applied Mathematical Modeling, Vol. 31, pp.2696-2710. SCI , IF:1.706(Engineering, Multidisciplinary = 11/90)(11/0,8)

【8】 J. Cheng*, David. T.W. Lin, 2007 Nov., Surface waves on viscoelastic magnetic fluid film flow down a vertical column, Int. J. Engineering Science, Vol. 45, pp.905-922. (NSC95-2221-E-269-027) SCI , IF:2.668(Engineering, Multidisciplinary = 7/85)(9/2,4)

【9】 T.W. Lin*, 2007 Aug., A study of local effect and global effect on the micro thermal bio-flows by molecular dynamics, Int. J. Biological Macromolecules, Vol. 41, pp.260-265. (NSC95-2221-E-269-025) SCI , IF:2.858(Biochemistry & Molecular Biology = 135/290) (0/0,0)

【10】 T.W. Lin, W.M. Yan*, H.Y. Li, 2008 Mar., Inverse problem of unsteady conjugated forced convection between parallel plate channels, Int. J. Heat Mass Transfer, Vol.51, pp.993-1002. (NSC95-2221-E-269-025) SCI , IF:2.383(Engineering, Mechanical=11/130) (11/0,10)

【11】 T.W. Lin*, H.Y. Li, W.M. Yan, 2008 Dec., Estimating the wall heat flux of unsteady conjugated forced convection between two corotating disks using an inverse solution scheme, ASME J. Heat Transfer, Vol. 30, 12, pp.121702-1~8.(NSC95-2221-E-269-025) SCI, IF:1.450(Engineering, Mechanical=40/130)(2/1,2)

【12】 C. Wang*,David. T.W. Lin, H.P. Hu, 2009 Jun., Error Analysis of Approximate Solutions of Non-linear Burgers’ Equation, Applied Mathematics and Computation, Vol. 212, pp. 387-395(NSC96-2221-E-432-002) ( SCI, IF:1.551)(Mathematics, Applied=35/257)(1/1, 1)

【13】 T. Wang, K.Y. Huang, David. T.W. Lin, W.C. Liao, H.W. Lin, and Y.C. Hu, 2010 May, A flexible proximity sensor fabricated by fully inkjet printing, Sensors, Vol. 10, pp. 5054-5062, (NSC97-2221-E-211-006) SCI, IF:1.953(Instruments & Instrumentation=8/57)(11/1,11)

【14】 S. Pai, C.C. Wang*, and David. T.W. Lin, 2010 Sep., Bifurcation analysis of a microcantilever in AFM system, J. Franklin Instituteand Applied Mathematics, Vol. 347, pp. 1353-1367. (NSC97-2221-E-269-016)SCI, IF:2.418(Engineering, Multidisciplinary  5/90)(1/0,1)

【15】 David T.W. Lin, C.C. Wang*, C.Y. Yang, and J.C. Li, 2010 Oct., Inverse estimation of temperature boundary conditions with irregular shape of gas tank, J. Heat Mass Transfer, Vol. 53, pp. 4651-4662. SCI, IF: 2.383(Engineering, Mechanical=11/130) (3/1,3)

【16】 J. Cheng*, K.C. Liu, and David. T.W. Lin, 2011 Mar., Hydromagnetic stability analysis of a film coating flow down a rotating vertical cylinder, Journal of Mechanics, Vol. 27, No. 1, pp. 27-36. (NSC 98-2221-E-269-017) SCI, IF:0.580( Mechanics=119/137)(1/0,1)

【17】 C. Hsieh, David T.W. Lin*, and C.H. Cheng, 2011 Apr., Optimization of thermal management by the integration of SCGM, finite element method and experiment on the high power LED array, IEEE Transaction on Electron Devices, Vol. 58, No. 4, pp. 1141-1148. SCI , IF:2.472(Engineering, Electrical& Electronic =37/249)(10/4,10)

【18】 T.W. Lin*, C.N. Huang, and C.C. Chang, 2011 Nov/Dec, The optimization of the heat removal on the LED package, Advanced Science Letters, Vol. 4, No. 6/7, pp. 2301-2305.(SCI, IF:1.253) (Multidisciplinary Sciences=15/57)(1/1,1)

【19】 N. Huang*, David. T.W. Lin, and C.C. Chang, 2011 Nov/Dec, Optimal parameter design for permanent-magnet synchronous generators used in the small-scale wind powers, Advanced Science Letters, Vol. 4, No. 4/5, pp. 1607-1610.(SCI , IF:1.253) (Multidisciplinary Sciences=15/57)(1/0,1)

【20】 David T.W. Lin, Y.C. Hu* andY Li, 2011 Mar., The study of the heat transfer analysis on the plate-fin heat sinks by the impinging jet flow, Progress in Computational Fluid Dynamics, Vol. 11, Nos. 3/4, pp. 237-245. SCI , IF:0.688(Thermodynamics =41/55)(0/0,0)

【21】 David T.W. Lin*, C.Y. Yang, J.C. Li, and C.C. Wang, 2011, Dec., Inverse estimation of unknown heat flux boundary with irregular shape fins, J. Heat Mass Transfer, Vol. 54, pp. 5275-5285. SCI , IF:2.383(Engineering, Mechanical=11/130)(8/0,8)

【22】 David T.W. Lin*, Yu Chung Hu and C.H. Cheng, 2012, Feb., The optimization of the thermal response on the ZnO pyroelectric film temperature sensor, IEEE Sensors Journal,12, No.2, pp.397-403. SCI , IF:1.762(Instruments& Instrumentation =18/56)(3/2,3)

【23】 David T.W. Lin, 2012, Apr., Optimization of the shell-and-tube heat exchanger by simplified conjugated gradient method, Advanced Science Letters, 9, pp.451-455. (SCI , IF:1.253) (Multidisciplinary Sciences=15/57)

【24】 Kuo-Chi Liu*, Po-Jen Cheng, and David T.W. Lin, 2012, Apr., Effects of the thermal lag ratio on the behavior of bio-heat transfer, Advanced Science Letters, 9, pp.925-929. (SCI , IF:1.253) (Multidisciplinary Sciences=15/57)

【25】 Xiao-Dong Wang*, Yu-Xian Huang, Chin-Hsiang Cheng, David T.W. Lin, Chung-Hao Kang, 2012, Nov., A three-dimensional numerical modeling of thermoelectric device with consideration of coupling of temperature field and electric potential field, Energy, Vol. 47, pp. 488-497. SCI, IF:4.844(Thermodynamics =2/55)(30/3,30)

【26】 David T.W. Lin*, Jui-Ching Hsieh, Nachaya Chindakham, Pham Duy Hai, 2013, Jun., Optimal design of the composite laminate hydrogen storage vessel, J. Energy Research, Vol. 37, pp. 761-768. SCI , IF:2.418(Nuclear Science & Technology =1/34)(2/0,2)

【27】 Yu-Xian Huang, Xiao-Dong Wang, Chin-Hsiang Cheng, David T.W. Lin, 2013, Sep., Geometry optimization of thermoelectric coolers using simplified conjugate gradient method, Energy, Vol. 59, pp.689-697. SCI, IF:844 (Thermodynamics =2/55) (13/0,13)

【28】 David T.W. Lin, Chih-Chung Chen, 2013, Oct., The study of the percutaneous laser disc decompression, Advanced Science Letters, 19, No. 10, pp.2872-2876. (SCI , IF:1.253) (Multidisciplinary Sciences=15/57)

【29】 Wan Chun Chuang, David T.W. Lin*, Yuh-Chung Hu, Hsin-Li Lee, C.H. Cheng, Pei-Zen Chang, Ngo Bao Quyen, 2014, Apr., A method integrating optimal algorithm and FEM on CMOS residual stress, of Mechanics, Vol. 30, Issue 2, pp. 123-128. sited by Advanced in Engineering https://advanceseng.com/mechanical-engineering/method-integrating-optimal-algorithm-fem-cmos-residual-stress/ (SCI, IF:0.580)(Mechanics=119/137) (4/0,4)

【30】 Jui Ching Hsieh, David T. W. Lin*, and Long Der Shin, 2014 Apr., Performance study of heat pipe heat exchanger for ground source heat pump, Journal of the Chinese Society of Mechanical Engineers, Vol. 35, No. 2, pp.165-170.(NSC 102-3113-P-024-001)SCI, IF=0.274(Engineering, Mechanical=114/125)

【31】 Jui-Ching Hsieh, David T.W. Lin*, Chin-Hsiang Cheng, Siwapong Kingkaew, Sheng Chung Chen, 2014 Jun., The optimal design of the thermal spreading on the high power LEDs, Microelectronics Journal, Vol. 45, pp.904-909. (NSC102-2221-E-024-010) (SCI, IF:0.836) (Engineering, electrical & electronic=161/249)(0/0,0)

【32】 Jui-Ching Hsieh, David T.W. Lin, Hsin-Jung Huang, Tzu-Wei Yang, 2014 May., An experimental study on the compatibility of acetone and aluminum flat plate heat pipes, Heat and Mass Transfer, Vol. 50, No. 5, Issue 11, pp. 1525-1533. (NSC101-2221-E-024-010) (SCI, IF:0.946) (Thermodynamics =34/55) (0/0,0)

【33】 J. Cheng, David T. W. Lin*, W. M. Liu, Jui-Ching Hsieh and C. C. Wang, 2015 Dec., The study of an innovative heat removal model of the aluminum-acetone flat plate heat pipe on high power LEDs, Transactions of the Canadian Society for Mechanical Engineering, Vol. 39, No. 3, pp. 739-748. (SCI, IF:0.194(Engineering, Mechanical =121/130) (0/0,0)

【34】 Jui-Ching Hsieh, David T.W. Lin, Bo-hen Lee, M. C. Chung, 2016 Aug., Experimental study on the heat transfer of supercritical carbon dioxide in the long silica-based porous media tube, Heat and Mass Transfer, 52, No. 8, pp. 995-1004. (SCI, IF:0.946)(Thermodynamics=34/55)(0/0,0)

【35】 David T.W. Lin*, C.H. Cheng, Jui-Ching Hsieh, 2018 Feb., Stress minimization of the pressure vessel by optimal shape design, Journal of Chinese Mechanical Engineering Society, Vol. 39, No. 1, pp.33..(SCI)

【36】 Kun-Dar Li, Chun-Ping Jen, David T.W. Lin*, Yu-Jie Shen, Jia Yun Kuo, Ashwin Verma, Shih-Chi Chan, Kai-Che Liu, 2018 Apr., Study of force-feedback tactile sensor fabricated by AlN doped ZnO piezoelectric film, Journal of Chinese Mechanical Engineering Society, Vol. 39, No. 2, in press. (SCI)

【37】 Jui-Ching Hsieh, Yi-Hong Chen, David T.W. Lin, Chun-Ping Jen*, 2018, Investigation on Heat Transfer Phenomena of Water-EGS in the Reservoir Based on the Brinkman Model, submitted for Geofluids. (SCI)

【38】 David T.W. Lin*, Jui-Ching Hsieh, Po-Yen Shih, 2018, Optimization of operating condition of geothermal system based on supercritical CO2 heat extraction, submitted for Geothermics. (SCI)

【39】 Jui-Ching Hsieh, David T.W. Lin*, Min-Sheng Suen, 2018, Using genetic algorithm to minimize the stress concentration for electro-thermal micro-actuator, submitted. (SCI)

【40】 Jui-Ching Hsieh*, David T.W. Lin, Chia-Li Lin, 2018, Performance and optimization of thermoelectric conversion for an energy harvester on the basis of vapor-flow-induced vortex vibrations, submitted for Applied Mathematical Modeling. (SCI)

【41】 曹瓊文, 吳沛宜, 林大偉, 2018, 運用基因演算法探討人力資本、人力雇用模式與創新績效之關係-以TIS3資料庫為研究樣本, submitted for 組織與管理. (TSSCI)


♦ EI&Others

【1】 T.W. Lin*, 2011 Oct., A molecular dynamics study of the heat transfer phenomena in the bio-tissue, Int. J. Science and Engineering, Vol. 1, No. 2, pp. 17-21.

【2】 T.W. Lin*, 2012 Jun., The study of molecule list algorithm based on the large momentum molecular system, Int. J. Science and Engineering, Vol. 2, No. 2, pp. 19-24.

【3】 T.W. Lin*, Pham Duy Hai, Chin-Hsiang Cheng, 2012 Jun., Optimal design of the composite laminate vessel based on SCGM, Int. J. Science and Engineering, Vol. 2, No. 2, pp. 25-33.

【4】 Yuh-Chung Hu, David T.W. Lin, Hai-Lin Lee, Pei-Zen Chang, 2012 Dec., A solution processed ZnO thin film, Applied Mechanics and Materials, Vol. 239-240, pp. 1585-1588. (EI)

【5】 Tsung Chi Hsieh, Kuan-Ju Chen, David T. W. Lin*, Yang Der Juang, and Yuh Chung Hu, 2013 Jun., The improvement of parameters of manufacturing process on flexible surface acoustic wave device, Applied Mechanics and Materials, Vol. 321-324, pp. 532-535. (EI)

【6】 Chao-Kuang Chen, David T.W. Lin*, Yung Der Juang Yuh-Chung Hu, Yen Ting Kuo and Chu Yu Chen, 2013 Jun., The innovated flexible surface acoustic wave devices on fully inkjet printing technology, Smart Science, Vol.1, pp. 13-17.

【7】 Jui Ching Hsieh, David T. W. Lin*, Wei-Mon Yan, and Long Der Shin, 2013 Dec., The design of heat pipe heat exchanger CO2 EGS, Applied Mechanics and Materials, Vol. 479-480, pp. 284-288. (EI)

【8】 C. Hsieh, B. H. Lee, M. C. Chung, David. T. W. Lin, and S. H. Kuo, 2014 May, Experimental study of heat transfer for supercritical carbon dioxide with upward flow in vertical tube, KMUTNB: International Journal of Applied Science and Technology, Vol. 7, No. 2, pp. 67-71.

【9】 David T.W. Lin, Ming-shun Hsiao, Jui-Ching Hsieh, Bo-Heng Lee, 2014 Dec., The Study of Heat Extraction of Supercritical CO2 on the Reservoir of the Enhanced Geothermal System, Journal of Solar and New Energy, Vol. 14 (2), pp9-13.

【10】 C. Hsieh, David. T. W. Lin, C. H. Wei, and H. J. Huang, 2015 Jan., The heat extraction investigation of supercritical carbon dioxide flow in heated porous media, Vol. 61, pp. 262-265, Energy Procedia. (EI) (NSC 102-3113-P-024-001)

【11】 You-Peng Yuan, David T.W. Lin, 2015 Mar., The design mobile & flexible CO2 sensor based on the SAW device, J. Science and Engineering, Vol. 5, No. 1, pp. 29-32.

【12】 P-J Cheng, David T. W. Lin*, C. C. Wang, W. M. Liu and C. W. Chang, 2015 May, Design of the cooling module of LEDs based on the aluminum acetone flat plate heat pipe, Applied Mechanics and Materials, Vol. 764-765, pp. 244-248.

【13】 Jui-Ching Hsieh, David T.W. Lin*, Hsin-Jung Huang, and Zih-You Huang, 2015 Jun., Heat transfer characteristics of supercritical carbon dioxide in a horizontal tube, International Proceedings of Chemical, Biological and Environmental Engineering, 82, pp. 20-24. (EI)

【14】 M. Liu, David T.W. Lin, Chi-Chang Wang, 2015 Jun., Thermal analysis of aluminum-acetone flat plate heat pipe application in heat dissipation of high power LEDs, International Proceedings of Chemical, Biological and Environmental Engineering, Vol. 82, pp. 42-46. (EI)

【15】 David T.W. Lin, Cyun-Jie Huang, Jui-Ching Hsieh and B. H. Lee, 2015 Jun., The Heat Extraction of Enhanced Geothermal System for Supercritical CO2Journal of Petroleum, Vol. 51, No. 2, pp. 53-59.

【16】 David T.W. Lin*, You-Peng Yuan and Yuh Chung Hu, 2015 Jun., Fabrication of ZnO thin film sensor for CO2 monitoring, International Proceedings of Chemical, Biological and Environmental Engineering, 82, pp. 109-112. (EI)

【17】 David T.W. Lin*, Jui-Ching Hsieh, C.H. Wei, 2015 Dec., The heat transfer phenomena of supercritical COporous flow based on Darcy model, J. Science and Engineering, Vol. 5, No. 4, pp. 1-6. (NSC 104-3113-P-024-001)

【18】 C. Hsieh, B. H. Lee, David. T. W. Lin, and M. C. Chung, 2015 Dec., Experimental study of the heat transfer of supercritical carbon dioxide in silica-based porous media, Energy Procedia, Vol. 61, pp. 914-917. (EI) (NSC 102-3113-P-024-001)

【19】 Bo-Yen Shih, Jui-Ching Hsieh, Hsin-Jung Huang, David T.W. Lin*, Chung-Neng Huang, and Chi-Chang Wang, 2016 May, Investigating the heat transfer phenomena of CO2-EGS in the reservoir by experiment verification, MATEC Web of Conference, 59:03005. (EI)

【20】 J. Huang, J.C. Hsieh,David. T. W. Lin*,J.K. Kuo, Y.C. Hu, 2016 Jun., The experimental study of heat extraction of supercritical CO2 in the geothermal reservoir, MATEC Web of Conference, 60:04010. (EI)

【21】 Po-Jen Cheng*, Kuo-Chi Liuand David T. W. Lin, 2016, Jun., The magnetohydrodynamic field on the surface instability of axisymmetric condensate films at liquid–vapor interfaces, Applied System Innovation: Proceedings of the 2015 International Conference on Applied System Innovation (ICASI 2015) (EI). (MOST 103-2221-E-269-007)

【22】 David T.W. Lin*, Jui Ching Hsieh, Bo Yen Shih, 2016 Aug., Heat transfer optimization of SCO2 porous flow based on Brinkman model, MATEC Web of Conference 71, 02004. (EI)

【23】 David T.W. Lin*, Chung-Hao Kang and Sheng-Chung Chen, 2018 May, Optimization of the Micro Channel Heat Sink by Combing Genetic Algorithm with the Finite Element Method, Inventions, 3, No. 2, 32.


♦ 論文被專書收錄

【1】 convection flow between two co-rotating discs, ASME J. Heat Transfer, Vol. 30, 12, pp.121702-1~8, referred by “Convective Heat and Mass Transfer in Rotating Disk Systems” Shevchuk, I.V., 2009, ISBN:978-3-642-00717-0.


♦ 學生論文

【1】 王瑞詠,2007,用於大動量系統之分子動力學模擬之新分子表列法則,高雄應用科技大學模具工程所碩士論文(共同指導教授)。

【2】 徐銘鴻,2009,散熱片於衝擊噴流條件下之熱傳特性分析,遠東科技大學機械工程所碩士論文(指導教授)。

【3】 陳翊航,2009,經皮雷射椎間盤減壓術之暫態熱傳分析,遠東科技大學機械工程所碩士論文(指導教授)。

【4】 劉強,2009,廠房建築物消防系統細水霧之滅火改善研究,國立台南大學高分子材料與製程設備產業研發碩士專班碩士論文(指導教授)。

【5】 蔡芳明,2010,高速衝擊噴流對於散熱片之熱傳分析,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【6】 黃志平,2010,整合實驗簡易共軛梯度法及多重物理量分析之高功率LED 陣列熱傳最佳化研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【7】 郭銘仁,2010,高功率發光二極體封裝之熱傳研究暨視窗介面開發,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【8】 劉正堯,2010,殼管式熱交換器之熱傳最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【9】 李仁傑,2010,運用循次法分析逆向熱傳導問題,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【10】 楊倬昱,2010,高功率LED陣列之熱傳最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【11】 黃文治,2010,壓力容器之外形最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【12】 Ha Thi Xuan Chi,2010,The Optimaldesignprocessoftheplateheatexchanger,國立台南大學機電系統工程研究所碩士論文(共同指導教授)。

【13】 Ngo Bao Quyen,2011,Optimal residual stress in the CMOS fabrication,國立台南大學機電系統工程研究所精密工業產業研發碩士外國學生專班碩士論文(指導教授)。

【14】 Doan Van Tan,2011,The study of the thermal effect on the ZnO pyroelectric film temperature sensor,國立台南大學機電系統工程研究所精密工業產業研發碩士外國學生專班碩士論文(指導教授)。

【15】 Pham Duy Hai,2011,Optimal design composite pressure vessel with liner base on SCGM,國立台南大學機電系統工程研究所精密工業產業研發碩士外國學生專班碩士論文(指導教授)。

【16】 孫敏勝,2011,運用基因演算法進行多晶矽光開關之應力最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【17】 Nachaya Chindakham,2011,Optimal design of composite pressure vessel by using genetic algorithm,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【18】 Siwapong Kingkaew,2011,Design and optimization of a LED lamp holder using a simplified conjugate gradient method and genetic algorithm,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【19】 林詩韻,2011,冷卻系統於高壓氧艙之熱傳最佳化設計,國立台南大學機電系統工程研究所碩士論文(共同指導教授)。

【20】 沈承鋒,2012,Experiment on the generated power of PVDF by impinging vapor flow,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【21】 陳聖中,2012,Optimization design of the micro channel heat sink by genetic algorithm and interval genetic algorithm,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【22】 楊子蔚,2012,Study on generated non-condensable gas of flat plate heat pipe and improved performance,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【23】 郭晏廷,2012,The fabrication of flexible surface acoustic wave devices based on fully ink jet technology,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【24】 蘇銘雄,2013,遠紅外線對於冷凍冷藏之節能防腐效益評估,國立台南大學機電系統工程研究所產碩專班碩士論文(指導教授)。

【25】 謝宗錡,2013,可撓表面聲波元件於製程參數之改良,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【26】 潘家德,2013,熱管散熱器之熱管陣列配置設計,國立台南大學機電系統工程研究所產碩專班碩士論文(指導教授)。

【27】 林家立,2013,運用蒸汽衝擊共振獵能裝置之研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【28】 辛龍德,2013,熱管熱交換器應用於地源熱泵之研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【29】 戴士翔,2013,梯狀結構微流道散熱器散熱分析及最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【30】 潘春花,2014,養殖池壓力式排放口控制因子之研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【31】 李天佑,2014,節能垃圾車之創新設計與專利佈局,國立台南大學機電系統工程研究所產碩專班碩士論文(指導教授)。

【32】 陳淑敏,2014,垃圾投遞收費裝置之創新設計,國立台南大學機電系統工程研究所產碩專班碩士論文(指導教授)。

【33】 李佳芬,2014,遠紅外線對柴油垃圾車廢氣及油耗影響之研究,國立台南大學機電系統工程研究所產碩專班碩士論文(指導教授)。

【34】 張嘉維,2014,利用鋁─丙酮板式熱管散熱之LED模組設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【35】 黃麗慈,2014,以全噴墨印表技術製造與設計諧振環超材料之研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【36】 蔡其宏,2014,可撓表面聲波元件製程的參數設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【37】 魏啟涵,2014,超臨界二氧化碳於增強型地熱系統儲集層取熱之模擬,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【38】 鍾明哲,2014,超臨界CO2 於多孔介質流動之取熱實驗探討增強型地熱系統之熱傳現象,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【39】 袁有朋,2015,以表面聲波為基礎設計之可撓式二氧化碳感測器,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【40】 黃子祐,2015,超臨界二氧化碳之水平管孔隙流熱傳特性研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【41】 蔡文修,2015,石墨烯成長於銅基板化合物之影響,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【42】 劉悟慢,2015,應用於40W高功率LED燈具之被動式散熱模組開發與最佳化設計,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【43】 吳沛宜,2015,運用基因演算法探討人力資本、人力雇用模式與創新績效之關係-以TIS3資料庫為研究樣本,國立台南大學經營與管理學系科技管理碩士在職專班論文(共同指導教授)。

【44】 陳志忠,2015,經皮雷射椎間盤減壓術之暫態熱傳分析與模擬,國立台南大學機電系統工程研究所博士論文(指導教授)。

【45】 蕭名舜,2016,現地儲集層取熱模擬,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【46】 許修豪,2016,石墨烯助效磊晶氮化鋁薄膜,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【47】 施柏衍,2016,最佳化增強型地熱系統之超臨界二氧化碳取熱之操作平台,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【48】 黃群傑,2016,超臨界CO2在多孔介質之熱傳特性實驗研究於增強型地熱系統,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【49】 鐘千翔,2016,超材料之尺寸效應於折射率設計之研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【50】 沈裕傑,2017,氮化鋁摻雜氧化鋅製作力回饋壓電材料元件感測器,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【51】 王詣旻,2017,孔隙流中的超臨界熱傳現象,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【52】 Gisell Chu, 2018, Experimental determination of correlation of thermal dispersion on porous media,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【53】 郭珈妘,2018,可撓式薄膜無鉛鐵酸鉍壓力感測器之製程開發,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【54】 陳奕宏,2018,基於孔隙熱傳模型之水增強型地熱系統取熱之最佳化研究,國立台南大學機電系統工程研究所碩士論文(指導教授)。

【55】 林胤辰,2018,基於場協同理論探討種植萵苣之山型垂直農場不同出風口之最佳化分析,國立台南大學機電系統工程研究所碩士論文(指導教授)。


♦ 獲獎

【1】 1998 The Honor Member of The Phi Tau Phi Scholastic Honor Society

【2】 1998,1999 Beta Research Award of National Science Council.

【3】 2009-10 Marquis Who’s Who (世界名人錄)

【4】 2011-12 Marquis Who’s Who in Science and Engineering

【5】 Paper Award of The 2011 IAENG International Conference on Industrial Engineering M. S. Suen, K.C. Liu, J. C. Hsieh, David T. W. Lin 2011, Optimal design of the electrothermal V-beam microactuator based on GA for stress concentration, The 2011 IAENG International Conference on Industrial Engineering, HongKong, Mar 17-19.

【6】 2010, 2011, 2012, 2014 Excellent Research Talent Award, National Science Council.

【7】 2015-2017, Excellent scholarship, Ministry of Education

Activities

【1】 2007, Session Chair, Session2C1: Sensors and Actuators, The Second Annual IEEE International Conference on Micro/Nano Engineered and Molecular System 2007 (IEEE NEMS 2007), Bangkok, Thailand, Jan. 16-19.

【2】 2008, Chair, The international conference on Hydroforming 2008, Tainan, Taiwan, April 8.

【3】 2009, Secretary General, The 1st international conference on Integration and Application of Mechatronic System 2009, Tainan, Taiwan, Dec 4-5.

【4】 2010, Local Organizing Committee and Review Committee of International Symposium on Transport Pheomena (ISTP21).

【5】 2010, Invited Session Organizer, Session Co-Chair, Invited Session SSB-8: Mechatronic System & Optimization, Stability, 2010 IEEE International Symposium on Computer, Communication, Control and Automation., Tainan, Taiwan, May. 5-7.

【6】 2010, Session Chair, SessionI2: 再生能源與節能減碳技術組議程, The 34th National Conference on Theoretical and Applied Mechanics, Yunlin, Taiwan, Nov 19-20

【7】 2010, Invited Speaker, 2010 COMSOL Multiphysics Conference, Taipei, Taiwan, Nov. 26,.

【8】 2010, Invited Speaker, 氫能技術研討會,工研院南分院綠能所, 12/17。

【9】 2011, Cooperation and Invitation Prof. Prapai of King Mogkout’s University of Technology North Bangkok,Mar-May.

【10】 2011, 馬來西亞台灣高等教育展台南大學代表,吉隆坡,新山,馬來西亞,六月。

【11】 2011, 印尼台灣高等教育展台南大學代表,亞齊,日惹,泗水,印尼,十月。

【12】 2011, Minisymposium Organizers : Advanced Modeling on Nonlinear Coupled Mechanical Systems, 3rd International Symposium on Computational Mechanics, 2nd Symposium on Computational Structural Engineering (ISCM III-CSE II ), Taipei, Taiwan, Dec 5-7.

【13】 2012, 獲陸委會中華基金補助邀請華北電力大學能源學院暨北京能源重點實驗室主任王曉東教授來台短期合作研究,Feb-April.

【14】 2012, Technical Committee and Chair of Taiwan Branch of The 1st International Conference of Multi Disciplines of Engineering on Advanced Technology and Environmentalism Design (MDEATED 2012), PATTAYA, Thailand, Mar 6-8. (泰國台灣及德國參所大學合辦,擔任台灣主辦人)

【15】 2012, Representative of Taiwan, APAIE (Asia Pacific Association of International Education),Bangkok,Thailand,April.

【16】 2012, Memorandum signed with University of North China Electric Power, China(華北電力大學),May.

【17】 2013, International Program Committee of CT&IT 2013, Taiwan

【18】 2013, 中國機械工程學會第三十學術研討會屆籌備委員。

【19】 2013, 中國機械工程學會第三十屆學術研討會論文分審分組主席。

【20】 2013, 國科會工程處102年度技術及知識應用型產學合作計畫之成果發表暨績效考評評審,11/6。

【21】 2013, 中台灣創意研發競賽評審,12/5

【22】 2014, Scientific Committee of International Heat Transfer Symposium, Beijing, China, May.

【23】 2014,第二十一屆全國計算流體力學學術研討會籌備委員。

【24】 2014, Chair of The 2nd International Conference of Multi Disciplines of Engineering on Advanced Technology and Environmentalism Design (MDEATED 2014), Tainan, Taiwan, Oct 31-Nov2. (Cooperated with King Mongkut\’s University of Technology North Bangkok)

【25】 2014, 中國機械工程學會第三十一屆學術研討會論文分審分組主席。

【26】 2014, 中國機械工程學會第三十一學術研討會屆籌備委員。

【27】 2015, Technique Committee of International Conference of Informatics, Environment, Energy and Application, Battaya, Thailand, March.

【28】 2014,2015,南科管理局綠能低碳計畫評鑑委員

【29】 2015, Invited Speech, International Conference on Biomimetics And Ornithopters- 2015, Taipei, Jun

【30】 2015, Organize Committee of International Conference on Geothermal Energy, Taipei, Taiwan, Oct.

【31】 2016, Conference Chair, The 5th International Conference on Informatics, Environment, Energy and Applications (IEEA 2016), Hong Kong, March 26-28, 2016.

Chong-Ching Chang Professor

Name: Chong-Ching Chang
Position: Professor
Degree: Ph.D,University of Pittsburgh
Experiences: 1.崑山科技大學微精密製造中心
2.崑山科技大學研究發展處副研發長
3.崑山科技大學機械工程技術系教授
4.崑山科技大學精密製造中心主持人
5.美國喬治亞理工學院機械系訪問學者
6.崑山科技大學機械工程技術系 微精密製造組召集 人
7.崑山科技大學機械工程技術系建教合作與推廣教育規劃委員會召集人
8.崑山科技大學機械工程技術系副教授
9.美國匹茲堡大學機械所研究助理
10.崑山工專機械科講師
11.國立成功大學大學機械所研究助理
Expertise: Mechatronic Systems
Auto-Production Systems
Precision Mechanical
Research project: –教育部 —
1.八十五年教育部科技教育改進計畫製造業自動化 [ 模具自動化主題 —CAD/CAM 與逆向工程 ]
2.八十六年教育部科技教育改進計畫製造業自動化 [ 模具自動化主題 — 快速原型 (RP) 與快速模具 (RT)
3.八十七 – 八十九年教育部產業科技精密機械 [ 精密模具製造技術之發展與製程之改進 ]
4.教育部產學合作計劃(88.9-91.8)
5.教育部科技改進教育整合型多媒體計劃 (88.10-89.8.)
6.『促進技職教育之多元化與精緻化』中程計劃 – 微機電整合中心(88.-89)
7.教育部精密機械產業科技教育改進計畫(90.8-94.7 )
8.教育部精微機電科技教育改進計畫(90.8-94.7 )
9.教育部醫療機電整合科技教育改進計畫(90.8-94.7 )
–國科會 —
1.E 世代 – 數位牙齒 93.8.1-94.7.31
2.延展性金屬名牌之創新製作方法 93.6.1-94.5.31
3.「 南部科學工業園區 — 路竹基地」之研發環境改善整合型計畫 ( 精密機械領域 )— 玻璃基板薄膜濺鍍及平面顯示器檢測技術研究 93.5.1-94.4.30
4.微米級快速原型機之控制介面軟體研發 (NSC92-2218-E-168-016) 92.8.1-93.7.31
5.快速影像腳形與腳壓量測系統 (NSC 92-2622-E-168-009-CC3 ) 92.6.1-93.5.31
6.微米級快速原型機光源系統與成型條件最佳化之研究 (NSC 91-2212-E-168-012 ) 91.8.1-92.7.31
7.假牙與牙套之立體影像重建與電腦輔助製造 (NSC 91-2622-E-168-005-CC3 ) 91.6.1-92.5.31
8.微米級快速原型機之研發 (NSC 90-2212-E-168-009- )  90.8.1-91.7.31
9.發展逆向工程及快快成型系統以加速雛形製作之研究 ─ 子計畫四:發展四軸掃描技術並結合 RP 系統於雛形製作之應用 (3/3) (NSC 89-2218-E-168-006 ) 89.8.1-90.7.31
10.發展逆向工程及快快成型系統以加速雛形製作之研究 ─ 子計畫四:發展四軸掃描技術並結合 RP 系統於雛形製作之應用 (2/3) (NSC 89-2218-E-168-001 ) 88.8.1-89.7.31
11.發展逆向工程及快快成型系統以加速雛形製作之研究 ─ 子計畫四:發展四軸掃描技術並結合 RP 系統於雛形製作之應用 (1/3) (NSC 88-2218-E-168-001 )  88.8.1-89.7.31
12.碳化鎢放電加工之熱效應對裂痕生成之影響 (NSC 87-2212-E-168-005) 86.8.1-87.7.31
13.IC 封裝模具 WEDM 加工屑附著問題 (NSC 87-2212-E-168-003)   86.8.1-87.7.31
14.加工液添加鋁粉改善碳化鎢放電加工之研究 (NSC 86-2212-E-168-001) 85.8.1-86.7.31
Patents: 1.平台式印表機 (新型第 202612 號)
2.快速原型機(新型第 207731 號)
3.真空工作空間中之氣壓缸作動結構(新型第 201084 號)
4.以破壞方式逐層取像建構 3D 影像數據之方法 (發明第 164809 號)
5.利用 CNC 加工機建構快速原形機之方法及裝置(發明第 194153 號)
6.微快速原形機(審核中)
7.積體電路之製造方法(審核中)
8.可依腳壓而調節之多氣囊式鞋底或鞋墊 -大陸(第 571346 號)
9.同步製作模具及快速原型之方法(第 197973 號)
10.利用掃描影像計算腳壓分佈之方法(第 202020 號 )
11.延展性金屬銘牌之製作方法(第 189655 號 )
12.延展性金屬銘牌之製作方法 -大陸(已核准,公告中)
13.定壓式打氣筒(第 221873 號)
14.多氣室鞋墊之製作方法(審核中)
15.防偽光碟結構(已核准,公告中)
16.光碟盒之透光圖像結構(第 M240428 號)
17.多氣囊之可調式胸罩(已核准,公告中)
Books: 1. 1997,張仲卿、侯順雄、張進寬,熱傳遞,1997,ISBN 957-584-511-0,高立出版社。
2. 1998,八十七年教育部科技教育計畫精密機械結案報告書。
3. 1999,八十八年教育部科技教育計畫精密機械結案報告書。
4. 1999,張仲卿,逆向工程與整合應用,1999, ISBN 957-584-664-8, 高立出版社。
5. 1999,張仲卿,電腦輔助機械繪圖,1999, ISBN 957-584-720-2,高立出版社。
6. 1999,張仲卿,PowerSolution 電腦輔助設計與製圖,1999,ISBN 957-584-924-5,高立出版社。
7. 1999,張仲卿,快速原型與快速模具在塑膠射出模具之應用與引進,No. 2,1999,崑山學報。
8. 2000,八十九年教育部科技教育計畫精密機械結案報告書。
9. 2001.張仲卿、孫書煌,Solid edge V9.0電腦輔助機械繪圖,2001, ISBN 957-584-946-9, 高立出版社。
10. 2001,九十年教育部科技教育計畫精密機械結案報告書。
11. 2002,九十一年教育部科技教育計畫精密機械結案報告書。
12. 2003,九十二年教育部科技教育計畫精密機械結案報告書。
13. 2005,九十四年教育部科技教育計畫精密機械結案報告書。
14. 2005,張仲卿﹑王松浩,電腦輔助3D設計及繪圖,2005,高立圖書公司。
Referred Paper : 1.Y. S. Liu, C. C. Chang and J. Y. Jang, 1995, \” The Tribological Analysis of Ceramic Coatings of Cutting Tools\”, Journal of Technology, Volume 10, No.3, p.341.
2.C. C. Chang, S. H. Wang and A. Z. Szeri, 1996, \” On the Mechanism of Fluid Transport Across the Grinding Zone\”, ASME Journal of Manufacturing Science and Engineering, Vol. 118, p.333. (SCI & EI)
3.C. C. Chang, 1996, \”An Comprehensive Model of Coolant Flow and Heat Transfer in Grinding\”, The Chinese Journal of Mechanics, Vol. 12, No. 4, p.513.
4.C. C. Chang, 1997, \”An Application of Lubrication Theory to Predict Useful Flow-Rate of Coolants on Grinding Porous Media\”, Tribology International, Vol. 30/8, p.575.(SCI & EI)
5.C. C. Chang, and A. Z. Szeri, 1998,” A Thermal Analysis of Grinding”, Wear, Vol. 216, p.77. (SCI & EI)
6.張仲卿等,1999,\”快速原型與快速模具在塑膠射出模具之應用究\”,模具技術資訊,Vol. 46, p. 18。
7.張仲卿等,2000,”整合逆向工程、快速原型、快速模具、模流分析改善傳統模具製程”,機械技術雜誌,Vol. 185, p. 178.
8.張仲卿等,2002,”本土型光硬化樹脂快速原型機之研發”,機械月刊,二月份,Vol. 319, p. 228.
9.張仲卿等,2002,”E世代假牙與牙套之數位資料與製作(I)磨削式電腦斷層取像系統”,中華民國自動化科技學會會刊,Vol. 1, No. 4., p. 228.
10.M. Y. Lee, C. C. Chang, 2002, “3D Image Reconstruction and Rapid Prototyping Models in Custom Implant Design for Patient with Cranial Defect”, IEEE Engineering in Medicine and Biology, Vol. 21, No. 2, pp. 38-44. (SCI & EI)
11.Un Chia Chen, Yu Shi Liu, C.-C. Chang, Jen Fin Lin, 2002, ”The effect of the additive concentration in emulsions to the tribology behavior of a cold rolling tube under sliding contact”, Tribology International, 35, pp.309-320. (SCI & EI)
12.C. C. Chang and H. W. Chiang, 2003, “Three-Dimensional Image Reconstruction of Complex Objects by Abrasive Computed Tomography Apparatus”, International Journal of Advanced Manufacturing Technology, Volume 22, Numbers 9-10, pp. 708-714. (SCI & EI)
13.C.-P. Jen, W.-D. Wu, C.-Y. Wu, Y.-C. Lin, G.-G. Wu and C.-C. Chang, 2003, ”Improved Design and Experimental Demonstration of the Bi-directional Microfluidic Driving System, Sensors and Actuators B 96 , pp. 701–708.(SCI & EI)
14.C. C. Chang, M. Y. Lee and Y.C. Ku, 2003, “Digital Custom Denture Design with New Abrasive Computer Computer Tomography and Rapid Prototyping Technologies”, Biomedical Engineering-Applications, Basis & Commuications, Vol. 15., pp.115-123.
15.C. C. Chang, J. F. Lin, C. Y. Chen, C. F. Ai, 2004, ” The Effect of Under-Layers and Pre-test Temperature on the Tribological Characteristics of Tin Films Rubbing against Steel”, Wear, 256, pp. 252-267.
16.C. C. Chang 2004, “Direct Slicing and G-Code Contour for Rapid Prototyping Machine of UV Resin Spray by PowerSOLUTION Macro Commands”, International Journal of Advanced Manufacturing Technology, Volume 23, Numbers 5-6, pp.358-369. (SCI & EI)
17.C. C. Chang, 2004,” Rapid Prototyping Fabricated by UV Resin Spray Nozzles”, Rapid Prototyping Journal, Vol.10, No. 2, pp.136-145.
18.C. C. Chang, M. Y. Lee and C. H. Chang, 2004, “Adaptive Multi-airbag Foot Pressure Redistribution Insole Design using Image-based Rapid Pressure Measuring System”, submitted to the International Journal of Advanced Manufacturing Technology.
19.C. C. Chang and M. Y. Lee, 2005, “Digital Denture Manufacturing -Application of abrasive computer Tomography, CNC machining and rapid prototyping technologies”, accepted by the International Journal of Advanced Manufacturing Technology.

Chung-Neng Huang Professor & Chairman

Name: Chung-Neng Huang
Position: Professor & Chairman
Degree: Ph.D., TOHOKU University, Sendai, Japan
Experiences: 國立臺南大學 機電系統工程研究所 教授 2011 年 08 月~迄今
國立臺南大學 機電系統工程研究所 副教授 2006 年 08 月 至 2011 年 07 月
國立臺北科技大學 車輛工程系 副教授 2006 年 02 月 至 2006 年 07 月
國立臺北科技大學 車輛工程系 助理教授 2001 年 02 月 至 2006 年 01 月
日本東北大學 電氣.通信研究所 助理教授 2000 年 04 月 至 2001 年 01 月
臺北市政府 工務局 薦任幫工程司 1992 年 09 月 至 1994 年 05 月
Expertise: Mechatronic System Optimization
Green-Energy Exploration
Intelligent Vehicular Technologies
Hybrid Controls
Customized Design & Manufacture
Research project: 以穩定風力發電輸出為目的整合可變速風力機、飛輪儲能系統與可調式電池系統之協調控制技術(100-2221-E-024-019-)
連結於配電網路之風力發電系統的評估-以可接受之最大輸出為觀點(97-2221-E-024-013-)
機車節能控制器之研發(96-2622-E-024-005-CC3)
以穩定車輛電力輸出為目的之主動式無段變速系統(94-2622-E-024-003-CC3)
FACTS潮流控制器對當前電力系統之影響評估(I)-最適化閘控串聯式補償器配置模式之選定(94-2213-E-024-011-)
智慧型切換式磁阻馬達驅動器之研發(93-2622-E-027-023-CC3)
在電力網路之潮流控制器群的最佳配置模式 (I)(92-2213-E-027-046-)
智慧型魔術方塊式立體停車系統的研製(92-2622-E-027-015-CC3)共同研究:
保健型壓力氧氣艙之研究與開發,(99-2221-E-024-013-.)
(國家型科技計畫)高效能小型(10千瓦)風力發電機之系統開發與性能驗證
【能源科技前瞻研究】:再生能源–分散式多用途小容量風力發電系統開發研究–【能源科技前瞻研究】再生能源 — 分散式多用途小容量風力發電系統開發研究(2/2) 2007/12/01 至 2009/01/31
【能源科技前瞻研究】:再生能源 — 分散式多用途小容量風力發電系統開發研究 2006/12/01 至 2007/11/30
身心障礙者電動福祉車之研發-電動福祉車能量管理系統之研發(子計畫三)(92-2218-E-027-008- )其他單位:
學界協助中小企業科技關懷計畫-插入式導線連結器之研發2011/7/1~2011/12/31
工業區廠商轉型再造升級計畫-自旋式噴氣冷卻系統 2010/12/1~2011/5/31
台電電力系統負載特性研究 2004/04/15 至 2004/12/14研發成果
1. 自平衡冷卻系統: 102年國科會專題計畫-超音波水霧冷卻系統及其FPGA模糊控制器之設計與實現。
2. 超音波水霧控制系統: 102年國科會專題計畫-超音波水霧冷卻系統及其FPGA模糊控制器之設計與實現。
3. 超音波水霧控制系統: 2012年學界協助中小企業科技關懷計畫-空調變頻控制模組研發計畫。
4. 升降設備節能裝置: 101年國科會專題計畫-具時變嚙合效應之正齒輪轉子軸承系統非線性動態分析。
5. 節能巨輪轉動系統: 101年國科會專題計畫-具時變嚙合效應之正齒輪轉子軸承系統非線性動態分析。
6. 複合動力驅動系統: 100年國科會專題計畫-以穩定風力發電輸出為目的整合可變速風力機、飛輪儲能系統與可調式電池系統之協調控制技術。
7. 以音頻訊號特徵分析為基礎之電動機轉速/轉矩估測法(已通過台灣發明專利外,並通過成大國外專利審查小組審查,提出美國(已通過)、中國大陸發明專利申請)
Patents: 1. 美國專利編號:US8589115B2;蕭飛賓、黃崇能;system and method for estimating torque and rotational speed of motor。
2. 中華民國專利編號:I276299;黃崇能;智慧型切換式磁阻馬達驅動方法及其裝置。
3. 中華民國專利編號:I398742;蕭飛賓、黃崇能;應用田口方法以及模糊推論決定發電機最佳參數之方法。
4. 中華民國專利編號:I399563;蕭飛賓、黃崇能;馬達轉矩和轉速之估測系統與估測方法。
5. 中華民國專利編號:M450619;黃崇能、郭振坤;適用巨輪轉動系統之節能系統。
6. 中華民國專利編號:M450622;黃崇能、郭振坤;升降設備節能裝置。
7. 中華民國專利編號:M459140;黃崇能、郭振坤;行動載具之複合動力驅動裝置。
8. 中華民國專利編號:M463781;黃崇能、郭振坤;軌道車用之收能枕木。
9. 中華民國專利編號:M456203;黃崇能、郭振坤、林大偉;殺菌通道設備。
10. 中華民國專利申請號:101139109;黃崇能、郭振坤;軌道車振動能量收集裝置。
11. 中華民國專利申請號:101138693;黃崇能、郭振坤;不斷電燃料電池發電系統。
12. 中華民國專利申請號:101138615;黃崇能、郭振坤;超音波水霧控制系統。
13. 中華民國專利申請號:101138473;黃崇能、郭振坤;冰水瓶。
14. 中華民國專利申請號:101138471;黃崇能、郭振坤;複合動力驅動系統。
15. 中國大陸專利申請號:CN201110022391.3;蕭飛賓、黃崇能;馬達轉矩和轉速之估測系統與估測方法。
Books: 國立臺南大學遠距教學e-course「介面設計」
工業科實用電器工業 第1-10講
僑務委員會中華函授學校出版
Referred Paper : 國外期刊
[1] C.N. Huang*, Y.S. Chen, “Design of magnetic flywheel control for performance improvement of fuel cells used in vehicles”, Energy, vol.118, pp.840-852, Jan. 1, 2017.
[2] C.N. Huang*, C.C. Yu, “Integration of Taguchi\’s Method and Multiple-Input Multiple-Output ANFIS Inverse Model for the Optimal Design of a Water-Cooled Condenser”, Applied Thermal Engineering, vol.98, pp.605-609, Jan. 11, 2016.
[3] C.N. Huang*, C.C. Yu, “Design of an Intelligent Vehicle Control Based on the Center of Gravity of Pilot”, Sensors and Materials, 28(9), 933-938, Sept. 2016.
[4] C.N. Huang*, Y.S. Chen, “Design of a Flywheel Control for Fuel Cell Vehicles”, Sensors and Materials, 28(9), pp. 933-938, Sept. 2016.
[5] C.N. Huang*and Arron Chung, “An Intelligent Design to the PID Controller for Nonlinear System”, Asian Journal of Control, vol. 18, no. 2, pp.447-455, Mar. 2016. (SCI)
[6] J.K. Kuo*, C.N. Huang, T.H. Lu, “Experimental investigation on heat transfer and pressure drop of ZnO/ethylene glycol-water nanofluids in transition”, Applied Thermal Engineering, vol. 93, pp.425-432, Dec. 3, 2015. (SCI)
[7] Athasit Wongcharoen, Chung-Neng Huang*, Oct. 2013,” A Novel Solution for Fluid Flow Problems based on the Lattice Boltzmann Method”, Molecular Simulation, vol. 19, no. 4.(SCI)
[8] Cheng-Chi Wang* , Chung-Neng Huang, Her-Terng Yau , Shin-Xiang Hsu, May 2013,” Bifurcation and chaos analysis of atomic force microscope system”, Microsystem Technologies, vol. 19, no. 4.(SCI)
[9] Chung-Neng Huang*, Chen-Min Cheng, Mar. 2013, “A Novel Method of Transfer-Function Identification for Unknown Systems”, Applied Mechanics and Materials, vol. 321-324 (2013) pp. 1967-1970. (EI)
[10] Chung-Neng Huang*, Ying-Han YE, and Chien-Kuo Lan, Mar. 2013, “The Development of Dual-effect Fuzzy Control System based on FPGA”, Applied Mechanics and Materials, vol. 321-324 (2013) pp. 1645-1648. (EI)
[11] C.N. Huang*, Jul. 2012, “ACVT Fixed-speed Control for Wind-power Fluctuations”, Advanced Science Letters, vol.14, no. 1, pp.479-482 (SCI).
[12] C.N. Huang*, Apr. 2012, “A Novel Rolling-Motion Control based on Integrating Concise Optimizations for the 1DOF Inverted Pendulum”, Advanced Science Letters, vol. 9, pp. 348-353 (SCI)
[13] R.J. Lian* and C.N. Huang, Mar. 2012, “Self-organizing Fuzzy Radial Basis Function Neural-Network Controller for Robotic Motion Control”, International Journal of Innovative Computing, Information and Control, vol.8, no.3, pp. 1955-1971. (SCI)
[14] C.N. Huang* and C.C. Chang, Nov. 2011“Optimal-Parameter Determination by Inverse Model based on MANFIS: The Case of Injection Molding for PBGA”, IEEE Transactions on Control Systems Technology, vol.19, no.6, pp. 1596-1603. (SCI)
[15] C.N. Huang*, M.Y. Lee, C.C. Chang, Mar./Apr. 2011, “Development of a Computer Aided Design and Manufacturing System for Customized Insoles”, IEEE Computer Graphics and Applications, vol. 31, no. 2, pp.74-79. (SCI)
[16] C.N. Huang*, David T.W. Lin, and C.C. Chang, Apr./May 2011 “Optimal Parameter Design for Permanent-magnet Synchronous Generators used in the Small-scale Wind Powers”, Advanced Science Letters, vol. 4 ,no.4-5 , pp. 1607-1610. (SCI)
[17] David T.W. Lin*, C.N. Huang, and C.C. Chang, Jun./ Jul. 2011 “The Optimization of the Heat Removal on the LED Package”, Advanced Science Letters ,vol. 4 ,no.6-7, pp. 2301-2305. (SCI)
[18] C.N. Huang*, David T.W. Lin, and C.C. Chang, 2010“An Intelligent Vehicular Control based on the Gravity-Shifting Signals”, IEEE Intelligent Information Technology Application Research Association, (EI and ISTP) (PEITS 2010 recommended)
[19] C.N. Huang*, Apr. 2010 “The Development of Self-Balancing Controller for One-wheeled Vehicles”, Engineering, ISSN Print: 1947-3931, ISSN Online: 1947-394X, vol.2, no.4, pp.212-219.
[20] C.N. Huang*, C.C. Chang, Feb. 2010, “Determination of Optimal Manufacturing Parameters for Injection Mold by Inverse Model Basing on MANFIS”, Journal of Intelligent Learning Systems and Applications. ISSN Print: 2150-8402, ISSN Online: 2150-8410, vol. 2, pp.28-35.
[21] C.N. Huang*, C.C. Chang, Dec. 2009, “Determination of the Optimal Manufacturing Parameters by Inversely Modeling Basing on MANFIS: The Case of a Plastic Ball Grid Array”, International Journal of Intelligent Systems Science and Technology, vol. 1, no. 2, pp. 44-49.
[22] C.N. Huang*, Sep. 2009,“Wind-Power Estimating Model Based on the Experimental Data in Laboratory,” Journal of Energy and Power Engineering, ISSN: 1534-8975, vol. 3, no. 9, pp. 60-66.
[23] J. Lin , R.J. Lian , C.N. Huang , W.T. Sie, Oct. 2009,“Enhanced fuzzy sliding mode controller for active suspension systems”, Mechatronics, International Journal of IFAC, ISSN: 0957-4158, Vol. 19, No. 7, pp.1178-1190. (SCI).
[24] C.N. Huang*, Guohong Wu, and Longyun Kang, Dec. 2006, ”Design of Auxiliary Generation System by Wind Power for Improving Vehicular Efficiency”, IEEE Transaction on Vehicular Electronics and Safety, ISBN: 1-4244-0759-1, pp.178-183 (EI)
[25] Y.C. Chang, W.H. Chen, C.Y. Lee, C.N. Huang, Sept., 2006,\”Simulated Annealing Based Optimal Chiller Loading for Saving Energy,\” Energy Conversion and Management, 47, pp. 2044-2058. (SCI)


國內期刊
1. Chi-Wei Tsai, Chung-Neng Huang*, Oct. 2016, \”Wind Energy Investigation based on MANFIS-PSO Control with Inertia-tunable Flywheel: A Case Study on the Dongji Island “, International Journal of Science and Engineering, vol.6, no.2, pp.9-25.
2. Jyun-Jhih Ke, Chung-Neng Huang*, Apr. 2016, “A Novel Design of the MANFIS-PSO PID Controller to Improve the Operational Stability and Sensitivity for Quadrotors”, International Journal of Science and Engineering, vol.6, no.1, pp.1-22.
3. Chen-Min Cheng, Chung-Neng Huang*, Sep. 2013, \”Study on A Novel Modeling Method for the Electromagnetic Flywheel Systems “, International Journal of Science and Engineering, vol. 3, No. 3, pp.7-13.
4. Ying-Han Ye, Chung-Neng Huang*, Sep. 2013, \”Development of Supersonic Vaporization Cooling System for an Air-cooled Chiller”, International Journal of Science and Engineering, vol. 3, No. 3, pp.1-6.
5. Jong-Jeng Su and Chung-Neng Huang*, Jun. 2012, \” A Study on Ultrasonic Drivers with the Functions of Short-Circuit Protection and Multi-Frequency Scanning\”, IJSE(國立台南大學理工期刊),Vol. 2, No. 2, pp.35-44.
7. Kuan-Ti Huang and Chung-Neng Huang*, Jun. 2012, \”Design of Active Grey-Kalman System for Vehicles in Roll Steering Control\”, IJSE(國立台南大學理工期刊),Vol. 2, No. 2, pp.45-52.
8. Athasit Wongcharoen and Chung-Neng Huang*, Mar. 2012,\” A Novel Solution based on the Lattice Boltzmann Method to Fluid Flow Problems\”, IJSE(國立台南大學理工期刊),Vol. 2, No. 1, pp. 5-12.
9. Aaron Chung and Chung-Neng Huang*, Mar. 2012,\” A Novel Development of Speed Control for Induction Motors based on the Nonlinear System Identification\”, IJSE(國立台南大學理工期刊), Vol. 2, No. 1, pp. 23-30.
10. Chung-Neng Huang* and Wen-Ping Cheng, Sep. 2011, \”Development of the Small-scale Wind-power System for Improving Vehicular Power Stability and Energy Efficiency\”, IJSE(國立台南大學理工期刊), Vol. 1, No. 2, pp. 41-48.
11. K.H. Tseng, Y.H. Hsiao, and C.N. Huang, Jun. 2007,” A Study on Diagnosis Method for Inspecting the Weak Bus of Power System,” Journal of National Taipei University of Technology(國立台北科技大學學報), vol. 40, no. 2, pp. 1-11.
12. C.J. Lin, C.N. Huang*, Mar. 2007, “A study on the Fuel Consumption Performance of Hybrid Electric Vehicles”, Journal of Vehicle Engineering(車輛工程期刊), spring CSAE9601007, pp. 111-128.