faculty

師資介紹

林昆模
  • 姓名

    林昆模

  • 職稱

    專任副教授

  • 學歷

    國立交通大學/中華民國/機械工程/博士

  • 專長

    電漿技術應用、大氣電漿檢測/模擬、熱流數值分析、高效能平行計算

  • 研究室

    R430A

  • 聯絡電話

    TEL:(05)272-0411 ext.33306
    FAX:(05)272-0589

  • Email

    imekml@ccu.edu.tw

  • 網頁

    個人網頁連結

1.    K.-M. Lin*, K.-C. Wang, Y.-S. Chang, and S.-Y. Chuang, “Gas heating mechanisms in atmospheric pressure helium dielectric-barrier discharges driven by a kHz power source,” Applied Sciences, Vol. 10, 7583, 2020 (MOST 109-2221-E-194-017-MY2).
(
doi:10.3390/app10217583) (SCI, IF: 2.458 (5-year, 2019), Ranking: 32/91 in Engineering, Multidisciplinary)

2.    K.-M. Lin*, C.-C. Ou, K.-C. Wang, Z.-W. Liou, and S.-Y. Chuang, “Investigation of gas heating effect and induced pressure waves of a single microdischarge in atmospheric pressure dielectric barrier discharges,” International Journal of Heat and Mass Transfer, Vol. 165, 120527, 2021 (MOST 109-2221-E-194-017-MY2)
(
https://doi.org/10.1016/j.ijheatmasstransfer.2020.120527) (SCI, IF: 4.662 (5-year, 2019), 10/136)

3.    K.-M. Lin*, S.-Y. Chuang, W.-Y. Guo, C.-H. Cheng, and C.-C. Ou, “Thermal Characterization for a Single Microdischarge in Atmospheric Pressure Air Dielectric Barrier Discharges,” Plasma Sources Science & Technology, Vol. 29, 075002, 2020 (MOST 107-2221-E-194-026-)
(
https://doi.org/10.1088/1361-6595/ab8e4b) (SCI, IF: 3.498 (5-year, 2019), 7/34)

4.    K.-M. Lin*, Y.-H. Huang, W.-Y. Guo, and Y.-S Chang, “Development of a Semi-Empirical 1.5D Plasma Fluid Model for a Single Microdischarge in Atmospheric-Pressure Dielectric Barrier Discharges,” Plasma Sources Science & Technology, Vol. 28, 115014, 2019 (MOST 107-2221-E-194-026-)
(https://doi.org/10.1088/1361-6595/ab515c) (SCI, IF: 3.498 (5-year, 2019), 7/34)

5.    K.-M. Lin*, C.-M. Ku, and C.-H. Cheng, “Statistical behavior of a single microdischarge in atmospheric-pressure air dielectric barrier discharges,” Physics of Plasmas, Vol. 26, 013508, 2019 (MOST 106-2221-E-194-039-) (https://doi.org/10.1063/1.5054177) (SCI, IF: 1.714 (5-year, 2019), 17/34)

6.  B.-R. Gu, K.-M. Lin, M.-H. Hu, C.-T. HungJ.-S. Wu and Y.-S. Chen, “A Temporal Multi-scale Algorithm for Efficient Fluid Modeling of One-dimensional Gas Discharge,” Plasma Sources Science & Technology, Vol. 23, No. 6, 065021, 2014
(http://dx.doi.org/10.1088/0963-0252/23/6/065021) (SCI, IF: 3.302 (2016), 3/31)

7.    F.-L. Li, C.-T. Hung, K.-M. Lin, T.-C. Wei, and J.-S. Wu, “Numerical and experimental investigation of light emissions of a planar nitrogen atmospheric-pressure dielectric barrier discharge due to addition of ammonia considering oxygen impurity”, Plasma Sources Science & Technology, Vol. 22, No. 6, 065003, 2013
(doi:10.1088/0963-0252/22/6/065003) (SCI, IF: 3.302 (2016), 3/31)

8.    K.-M. Lin, M.-H. Hu, C.-T. Hung, J.-S. Wu, F.-N. Hwang, Y.-S. Chen, and G. Cheng, “A Parallel Hybrid Numerical Algorithm for Simulating Gas Flow and Gas Discharge of an Atmospheric-Pressure Plasma Jet”, Computer Physics Communications, Vol. 183, pp. 2550–2560, 2012.
(http://dx.doi.org/10.1016/j.cpc.2012.07.004) (SCI, IF: 3.936 (2016), 1/55)

9.   K.-M. Lin, C.-T. Hung, F.-N. Hwang, M. R. Smith, Y.-W. Yang, and J.-S. Wu, “Development of a Parallel Semi-Implicit Two-Dimensional Plasma Fluid Modeling Code Using Finite-Volume Method”, Computer Physics Communications, Vol. 183, pp. 1225-1236, 2012.
(
http://dx.doi.org/10.1016/j.cpc.2012.02.001 ) (SCI, IF: 3.936 (2016), 1/55)

10. F.-L. Li, K.-M. Lin, Y.-W. Yang, C.-T. Hung, J.-S. Wu, and J.-P. Yu, “Numerical Investigation of a Parallel-Plate Atmospheric-Pressure Nitrogen/Ammonia Dielectric Barrier Discharge,” Plasma Chemistry and Plasma Processing, Vol. 31, Number 3, pp. 547-564, 2012.
(http://dx.doi.org/10.1007/s11090-012-9368-x) (SCI, IF: 2.355 (2016), 11/31)

11.  K.-W. Cheng, C.-T. Hung, K.-M. Lin, Y.-M. Chiu, J.-S. Wu* and J.-P. Yu, "Fluid Modeling of a Nitrogen Atmospheric-Pressure Planar Dielectric Barrier Discharge Driven by a Realistic Distorted Sinusoidal AC Power Source ", Japan Journal of Applied Physics, Vol. 51, 116001, 2012  (http://dx.doi.org/10.7567/jjap.51.116001 ) (SCI, IF: 1.384 (2016), 99/148)

12.  M. R. Smith, K.-M. Lin, C.-T. Hung, Y.-S. Chen, and J.-S. Wu*, “Development of an improved spatial reconstruction technique for the HLL method and its applications”, Journal of Computational Physics, Vol. 230, pp. 477-493, 2011. (http://dx.doi.org/10.1016/j.jcp.2010.09.023)

13.  M. R. Smith, C.-T. Hung, K.-M. Lin, J.-S. Wu, and J.-P. Yu, “Development of a semi-implicit fluid modeling code using finite-volume method based on Cartesian grids,” Computer Physics Communications, Vol. 182, pp. 170-172, 2011
 (http://dx.doi.org/10.1016/j.cpc.2010.05.018) (SCI, IF: 3.936 (2016), 1/55)

 

International Conference Papers

 

1.       (Oral) K.-M. Lin*, Y.-H. Huang, W.-Y. Guo, “Numerical Simulations of a Single Microdischarge in Atmospheric Pressure Dielectric Barrier Discharges,” 7th Asian Pacific Congress on Computational Mechanics (APCOM), Taipei, Taiwan, December 17-20, 2019. 

2.       (Oral) S.-Y. Zhuang, K.-M. Lin*, and Y.-S. Chang,Thermal Characterization of an Atmospheric Pressure Helium Dielectric Barrier Discharge Reactor,” 16th International Conference on Flow Dynamics (ICFD), Sendai, Japan, November 6-8, 2019. 

3.       (Invited) K.-M. Lin*, Y.-H. Huang, W.-Y. Guo, and Y.-S. Chang, “Development of a Plasma Fluid Model for Atmospheric Pressure Air Dielectric Barrier Discharges,” 16th International Conference on Flow Dynamics (ICFD), Sendai, Japan, November 6-8, 2019. 

4.       (Invited) K.-M. Lin*, C.-H. Cheng, W.-Y. Guo, and R.-J. Zhan, “Thermal Characterization of an Atmospheric-Pressure Air DBD Reactor,” 15th International Conference on Flow Dynamics (ICFD), Sendai, Japan, November 7-9, 2018.

5.       (Oral) R.-J. Zhan, K.-M. Lin*, C.-Y. Lee, and C.-F. Wong,Characterization of Ozone Densities in the Atmospheric-Pressure Helium/Oxygen Dielectric-Barrier Discharges,” 15th International Conference on Flow Dynamics (ICFD), Sendai, Japan, November 7-9, 2018. 

6.       (Oral) K.-M. Lin*, W.-Y. Guo, R.-J. Zhan, and C.-H. Cheng, “Heat Transfer Analysis in an Atmospheric-Pressure Air DBD Reactor,” 12th Asian Computational Fluid Dynamics Conference (ACFD) (the 25th National Computational Fluid Dynamics Conference, NCFD), Yilan City, Taiwan, October 15-18, 2018. 

7.       (Oral) K.-M. Lin*, C.-M. Ku, Y.-H. Huang, C.-H. Cheng, C.-Y. Lee, “Characterization of a Single Microdischarge in Atmospheric-Pressure Air Dielectric-Barrier Discharges,” 28th Symposium on Plasma Physics and Technology, Czech Technical University in Prague, Prague, Czech, June 18-22, 2018 

8.       C.-T. Hung, K.-M. Lin, M.-H. Hu, Y.-M. Chiu, C.-C. Chiou, S.-Y. Wang, J.-S. Wu*, “Development of Parallel Fluid Modeling Tools for Low-Temperature Non-equilibrium Plasma Physics and Chemistry,” 6th International Conference on Plasma NanoTechnology & Science (IC-PLANTS 2013), Gero Synergy Center, Gero City, Gifu, Japan, January 2-3, 2013.

9.       K.-M. Lin, M.-H. Hu, C.-T. Hung and J.-S. Wu*, “Development of Parallel Hybrid Simulation Tools for Modeling Atmospheric-Pressure Gas Discharges,” 8th EU-Japan Joint Symposium on Plasma Processing (JSPP2012), Keio/Osaka University, Nara, Japan, January 16-18, 2012.

10.     (Oral) K.-M. Lin, M.-H. Hu, C.-T. Hung, and J.-S. Wu, “Development of a Parallel 2-D Hybrid Gas Flow and Plasma Fluid Modeling Algorithm and Its Application in Atmospheric-Pressure Plasma Jets”, The 7th Asia-Pacific International Symposium on the Basics and Applications of Plasma Technology, Taipei Medical University, Taiwan, April 14-16, 2012                                                                                 

11.     K.-M. Lin, M.-H. Hu, C.-T. Hung, and J.-S. Wu, “Numerical Investigation of Atmospheric Pressure Plasma Jet Using Helium Discharge Driven by a Radio-Frequency Power Source”, American Vacuum Society (AVS) International Plasma Workshop, Taipei, Taiwan, March 22-25, 2011

12.     (Oral) K.-M Lin, C.-T. Hung, M. R. Smith, and J.-S. Wu*, “One-dimensional Fluid Modeling of Helium/Oxygen Gas Discharges Driven by a Nearly Sinusoidal AC Power Source”, 7th International Conference on Flow Dynamics, Sendai, Japan, November 1-3, 2010.

13.     (Oral) K.-M. Lin, M. R. Smith, and J.-S. Wu*, “Development of a large scale parallel fluid modeling code using finite-volume method based on Cartesian grids”, Conference on Computational Physics (CCP) 2009, Kaohsiung, Taiwan, December 15-19, 2009.

14.     C.-T. Hung, M.-H. Hu, Y.-M. Chiu, K.-M Lin, Y.-C. Wang, and J.-S. Wu, “Non-Thermal Plasma Simulation Using Parallel Fluid Modeling Code,” HPC-Asia 2009, March 2-5 (2009), Kaohsiung, Taiwan

15.     M. R. Smith, C.-T. Hung, K.-M. Lin, J.-S. Wu, and J.-P. Yu, “Development of a semi-implicit fluid modeling code using finite-volume method based on Cartesian grids,” Conference on Computational Physics (CCP) 2009, Kaohsiung, Taiwan, December 15-19, 2009

 

Domestic Conference Papers

1.    王鎧承,林昆模*,“大氣氦氣電漿噴流子彈效應之研究” 109年度中國機械工程學會年會暨第37屆全國學術研討會,雲林,台灣,Nov.20-212020.

2.    歐家均,陳鈺軒,林昆模*,“大氣氦氣介電質電漿 OH 粒子濃度量測” 109年度中國機械工程學會年會暨第37屆全國學術研討會,雲林,台灣,Nov.20-212020.

3.   張耀升, 莊舜宇, 林昆模*, “氦氣大氣介電質電漿一維流體模型之電流分析,” The 43th National Conference on Theoretical and Applied Mechanics (43屆全國力學會議), 逢甲大學, 台中, 台灣

4.    郭紋育鄭承翰林昆模*, “大氣空氣介電質電漿之氣體加熱機制分析,” The 35th National Conference on Mechanical Engineering (107年度中國機械工程學會年會暨第35屆全國學術研討會)嘉義台灣, Nov. 30-Dec. 1, 2018.

5.    李忠穎, 詹仁景, 林昆模*, “氧氣混合大氣介電質氦氣電漿之臭氧生成機制分析,” The 35th National Conference on Mechanical Engineering (107年度中國機械工程學會年會暨第35屆全國學術研討會), 嘉義台灣, Nov. 30-Dec. 1, 2018.

6.    古竣名, 黃詣洵, 林昆模*, “大氣空氣介電質電漿的微放電行為,” The 41th National Conference on Theoretical and Applied Mechanics (41屆全國力學會議), 國立成功大學, 台南, 台灣, Nov. 24-25, 2017 (佳作).

7.  A. Aliat, K.-M. Lin, M.-H. Hu, and J.-S. Wu*, “Numerical Investigation of an Anode Supported Intermediate Temperature Solid Oxide Button Fuel Cell by Considering Feed Tubes Positioning”, 2010 CFD Taiwan, Jhongli, July, 2010

 

 

研究計畫:

1.  常壓空氣電漿之激發態氮氣分子特性分析, MOST 106-2218-E-194-005-

2.  常壓空氣電漿之激發態氮氣分子特性分析 – 第二部分: 後輝光放電區反應機制與傳輸現象,MOST 106-2221-E-194-039-

3.  常壓氦氣/氧氣電漿之臭氧濃度特性分析, MOST 107-2221-E-194-026-

4.  大氣介電質電漿氫氧基量測與生成機制之研究, MOST 109-2221-E-194-017-MY2