1. Y.-J. Wei, T.-P. Teng*, Evaluating retrofitting and operational efficiency of automobile air conditioners using environmentally-friendly refrigerants, Applied Thermal Engineering 268 (Jun. 2025) 125874. (SCI, 2025 Representative Works).
  2. T.-P. Teng, W.-J. Chen*, Using Pearson correlation coefficient as a performance indicator in the compensation algorithm of asynchronous temperature humidity sensor pair, Case Studies in Thermal Engineering 53 (2024) 103924 (15pages).
  3. S.-P. Yu, T.-P. Teng*, C.-C. Huang, H.-K. Hsieh, Yi-Jia Wei, Performance evaluation of carbon-based nanofluids for direct absorption solar collector, Energies, 16 (2023) 1157. (SCI, 2023 Representative Works)
  4. H.-K. Hsieh,T.-P. Teng*, Retrofit assessment of automobile air conditioners using hydrocarbon refrigerants, Applied Thermal Engineering, 214 (2022) 118781 (11pages). (SCI, 2022 Representative Works).
  5. T.-P. Teng*, S.-P. Yu, Y.-F. Lue, Q.-L. Xie, H.-K. Hsieh, C.-C. Huang, Influence of far infrared TiO2 and multi-walled carbon nanotubes coatings on the performance of a hot water heater, Applied Sciences-Basel 11 (15), 2021, 7043 (11 pages) (SCI, 2021 Representative Works).
  6. T.-P Teng, C.-M. Cheng, S.-P. Yu*, Evaluation of heat-exchange performance of carbon-based nanofluids for air-cooled exchangers with different cross-section shapes, Applied Thermal Engineering, 179 (Oct. 2020) 115725 (SCI, 2020 Representative Works).
  7. T.P. Teng*, T.C. Hsiao, C.C. Chung, Characteristics of carbon-based nanofluids and their application in a brazed plate heat exchanger under laminar flow, Applied Thermal Engineering, 146 (May, 2019) 160-168 (SCI, 2019 Representative Works).
  8. T.P. Teng*, T.C. Hsiao, C.C. Chung, Preparation and experimental evaluation of phase-change characteristics in carbon-based suspensions, Materials, 11 (Jul. 2018) 1315 (12 Pages) (SCI, 2018 Representative Works).
  9. Y.H. Hung, W.P. Wang, Y.C. Hsu, T.P. Teng*, Performance evaluation of an air-cooled heat exchange system for hybrid nanofluids, Experimental Thermal and Fluid Science, 81 (Feb. 2017) 43-55. (SCI, 2017 Representative Works)
  10. Y.C. Hsu, T.P. Teng*, Enhancement of isobutane refrigerator performance by using far-infrared coating, Energy Conversion and Management 128 (Nov. 2016) 20–27(SCI, 2016 Representative Works).
  11. T.P. Teng*, Y.C. Hsu, W.P. Wang, Y.B. Fang, Performance assessment of an air-cooled heat exchanger for multiwalled carbon nanotubes-water nanofluids, Applied Thermal Engineering, 89 (Oct. 2015) 346-355 (SCI, 2015 Representative Works).
  12. C.C. Yu, T.P. Teng*, Retrofit assessment of refrigerator using hydrocarbon refrigerants, Applied Thermal Engineering, 66 (1-2) (May, 2014) 507-518 (SCI, 2014 Representative Works).
  13. T.P. Teng*, C.C. Yu, Heat dissipation performance of MWCNTs nano-coolant for vehicle, Experimental Thermal and Fluid Science, 49 (Sep. 2013) 22–30 (SCI, 2013 Representative Works).
  14. T.P Teng*, H.E. Mo, H. Lin, Y.H. Tseng, R.H. Liou, Y.F. Long, Retrofit assessment of window air conditioner, Applied Thermal Engineering, 32 (Jan. 2012) 100-107 (SCI, 2012 Representative Works).
  15. T.P. Teng*, C.M. Cheng, F.Y. Pai, Preparation and characterization of carbon nanofluid by a plasma arc nanoparticles synthesis system, Nanoscale Research Letters, 6 (Apr. 2011) 293 (11 pages) (SCI, 2011 Representative Works).
  16. T.P. Teng*, Y. H. Hung, T. C. Teng, H. E. Mo, H. G. Hsu, The effect of alumina /water nanofluid particle size on thermal conductivity, Applied Thermal Engineering, 30 (Oct. 2010) 2213-2218 (SCI, 2010 Representative Works).
  17. C.S. Jwo, T.P. Teng*, D.J. Wu, H. Chang, S. L. Chen, Research on pressure loss of alumina nanofluid flow in a pipe, Journal of the Chinese Society of Mechanical Engineers, 30(6) (Dec. 2009) 511-517 (SCI, 2009 Representative Works).
  18. C.S. Jwo, L.Y. Jeng, H. Chang, T. P. Teng, Experimental Study on Thermal Conductivity of Lubricant Containing Nanoparticles, Reviews on Advanced Materials Science, 18(7) (Sep. 2008) 660-666 (SCI, 2008 Representative Works).
  19. C.S. Jwo, T.P Teng*, H. Chang, A simple model to estimate thermal conductivity of fluid with acicular nanoarticles, Journal of Alloys and Compounds, 434 (May, 2007) 569-571 (SCI, 2007 Representative Works).

  1. 黃家慶*、鄧敦平、謝祥楷,溫度對於碳系奈米流體基本性質影響之研究,中國機械工程學會第三十八屆全國學術研討會論文集,Paper NO. E2-010,國立成功大學 台南市,3~4, Dec. 2021 [MOST 109-2221-E003-002]。
  2. 鄧敦平、黃家慶*、謝祥楷,奈米碳冷凍油之抗磨耗性能研究,中國機械工程學會第三十七屆全國學術研討會論文集,Paper NO. 580,pp. 3591-3596,國立虎尾科技大學,雲林縣,20~21, Nov. 2020。
  3. T.P. Teng, Q.L. Xie*, S.P. Yu, C.C. Chung, Photoabsorption Characteristics of Carbon-based Nanofluids, Global Conference on Engineering and Applied Science (2019 GCEAS), July 16-18, 2019, Hokkaido, Japan (Accepted).
  4. T.P. Teng, C.C. Chung*, T.C. Hsiao, Preliminary discussion and verification for far infrared radiation energy, Young Researcher Forum-4, 2nd World Congress on Nano Science and Nano Technology, August 10-11, 2018 Osaka, Japan.
  5. J.Y. Li, T.P. Teng, The influence of heat transfer augmentor on the performance of window air conditioners, 5th Asia Conference on Mechanical and Materials Engineering (ACMME 2017), ID: AC2017-141, 9–11 June 2017, Tokyo, Japan
  6. T.P. Teng, J.Y. Li*, W.P. Wang, Preparation and characterization of carbon-based nanofluid through a heating and cooling processing method, Asian Conference on Engineering and Natural Sciences (ACENS 2016), ID: ACENS-8908, pp. 150-159, Fukuoka, Japan, 01-03, February, 2016.
  7. T.P. Teng*, W.P. Wang, Y.C. Hsu, Y.B. Fang, Producing a carbon nanofluid by using a flame synthesis system, Asia-Pacific Conference on Engineering and Applied Science(APCEAS 2015), No. 208, pp. 271-279, Osaka, Japan, 25-27, August, 2015.
  8. T.P. Teng*, Y.B. Fang, Y.C. Hsu, L. Lin, The Phase Change Characteristics of Carbon Nanofluids, Annual Conference on Engineering and Information Technology (ACEAIT 2014), No. 2804, Tokyo, Japan, 28-30, March, 2014.
  9. 林利*、鄧敦平、方彥博、徐有駿,電沉積法製備WO3薄膜與光誘導特性研究,中國機械工程學會第三十屆全國學術研討會論文集,Paper NO. 1091,國立宜蘭大學,6~7, Dec., 2013。
  10. T.P. Teng*, L. Lin, C.C. Yu, Optical Characteristics of WO3 Thin Films Prepared Using the Electrodeposition Method, 2013 International Conference on Mechatronics,Applied Mechanics and Energy Engineering (MAMEE 2013), No. 123, Singapore, July 27-29, 2013.
  11. 林利*、高緯成、鄧敦平、方彥博、徐有駿,WO3 薄膜的製備與特性研究,2013 全國精密製造研討會論文集-SME 2013,Paper NO. B0020,國立臺北科技大學,22, Nov., 2013。
  12. T.P. Teng*, C.C. Yu, The Effect on Heating Rate for Phase Change Materials Containing MWCNTs, 2012 International Conference on Chemical Engineering and Applications (CCEA 2012), No. E10005, Hong Kong, 27-28 October, 2012.
  13. 鄧敦平、游朝傑*、鄭皓文,冷凍系統換裝碳氫混合冷媒可行性評估,中國機械工程學會第二十八屆全國學術研討會論文集,A12-010,國立中興大學,10~11, Dec., 2011。
  14. T.P. Teng*, B.G. Lin, Y.Y. Yeh, Characterization of Heat Storage by Nanocomposite-enhanced Phase Change Materials, International Conference on Advanced Engineering Materials and Technology (AEMT 2011), NO. K-6142, Sanya, China, July 29-31, 2011.
  15. 鄧敦平, 楊啟榮, 葉雲友*, 潘叔憶, 以RF磁控濺鍍法製作超親水性薄膜與性能測試, 中國機械工程學會第二十七屆全國學術研討會論文集, EE02-019, 國立台北科技大學, 10-11, Dec., 2010。
  16. T.P. Teng*, S.Y. Pan, Y.Y. Yeh, B.G. Lin, Fabrication and Performance Test of Titanium dioxide nanophotocatalytic films by electrophoretic deposition, The 2nd International Conference on Nanomechanics and Nanocomposites (ICNN-2010), Session D: Nano-structured surface & coating, pp. 360-363.Oct. 10-13, 2010, Beijing, China.
  17. T.P. Teng*, H.G. Hsu, H.E. Mo, L.Y. Jeng, D.J. Wu, Dependence relationship between particle size and thermal conductivity of Al2O3-water nanofluid, The 16th International Symposium on Metastable, Amorphous and Nanostructured Materials (ISMANAM2009), PII-083, July 5-9, 2009, Beijing, China.

名稱 開始日期 結束日期 委託單位 編號 參與身份別
車用鋰離子電池散熱材料與系統開發及應用研究 2024/08/01 2025/07/31 國科會 NSTC 113-2221-E-003-023 -
碳系奈米流體之分散系統開發、特性分析與應用研究 2023/08/01 2024/07/31 科技部(原國科會) MOST 110-2221-E-003 -009 -MY3 主持人
碳系奈米流體之分散系統開發、特性分析與應用研究 2022/08/01 2023/07/31 科技部(原國科會) MOST 110-2221-E-003 -009 -MY3 主持人
碳系奈米流體之分散系統開發、特性分析與應用研究 2021/08/01 2022/07/31 科技部(原國科會) MOST 110-2221-E-003 -009 -MY3 主持人
太陽能集熱流體與塗層研製、特性分析與應用研究 2020/08/01 2021/07/31 科技部(原國科會) MOST 109-2221-E-003-002- 主持人
高壓燃燒法製備微/奈米碳系材料與工作流體及其應用研究-3 2019/08/01 2020/07/31 科技部(原國科會) MOST 106-2221-E-003 -021 -MY3 主持人
遠紅外線塗料提升熱傳性能分析與節能應用研究-3 2019/08/01 2020/07/31 科技部(原國科會) MOST 106-2221-E-003 -024 -MY3 主持人
高壓燃燒法製備微/奈米碳系材料與工作流體及其應用研究-2 2018/08/01 2019/07/31 科技部(原國科會) MOST 106-2221-E-003 -021 -MY3 主持人
遠紅外線塗料提升熱傳性能分析與節能應用研究-2 2018/08/01 2019/07/31 科技部(原國科會) MOST 106-2221-E-003 -024 -MY3 主持人
高壓燃燒法製備微/奈米碳系材料與工作流體及其應用研究-1 2017/08/01 2018/07/31 科技部(原國科會) MOST 106-2221-E-003 -021 -MY3 主持人
遠紅外線塗料提升熱傳性能分析與節能應用研究-1 2017/08/01 2018/07/31 科技部(原國科會) MOST 106-2221-E-003 -024 -MY3 主持人
石墨粉冷熱處理法之碳系奈米流體製造、特性分析與應用研究 2016/08/01 2017/07/31 國科會 MOST 104-2221-E-003 -019 -MY2 主持人
單一整合型計畫-高職節能控制技術課程應用推廣及其成效探討(2/2) 2015/09/01 2016/07/31 國科會 MOST 104-2514-S-159 -001 - 主持人
石墨粉冷熱處理法之碳系奈米流體製造、特性分析與應用研究 2015/08/01 2016/07/31 國科會 MOST 104-2221-E-003 -019 -MY2 主持人
單一整合型計畫-高職節能控制技術課程應用推廣及其成效探討(1/2) 2014/10/01 2015/08/31 國科會 MOST 103-2514-S-159-001- 主持人
氧-乙炔火焰法之奈米碳系流體製造系統開發、特性分析與應用研究 2014/08/01 2015/07/31 國科會 MOST 103-2221-E-003-021- 主持人
奈米冷凍機油的合成、特性分析、最佳化與碳氫冷媒冷凍空調系統應用研究 2013/08/01 2014/07/31 國科會 NSC 102-2221-E-003 -017 - 主持人
改良式水冷熱處理法之奈米碳/碳管流體製造系統開發、流體特性與應用研究(2/2) 2013/08/01 2014/07/31 國科會 NSC 101-2221-E-003 -011 -MY2 主持人
改良式水冷熱處理法之奈米碳/碳管流體製造系統開發、流體特性與應用研究(1/2) 2012/08/01 2013/07/31 國科會 NSC 101-2221-E-003 -011 -MY2 主持人
單一整合型計畫-建構節能減碳實作體驗課程研究(2/2) 2012/04/01 2013/03/31 國科會 101-3113-S-003-010- 主持人
奈米車用冷卻液的開發、特性分析與應用研究 2011/08/01 2012/07/31 國科會 100-2221-E-003-029- 主持人
單一整合型計畫-建構節能減碳實作體驗課程研究(1/2) 2011/07/01 2012/03/31 國科會 100-3113-S-003 -011 -  主持人
微奈米潛熱儲能材料開發與應用研究 2010/08/01 2011/07/31 國科會 99-2221-E-003-008- 主持人
能源國家型人才培育自由導向整合型計畫-建構節能減碳實作體驗課程計畫(2/2) 2010/06/01 2011/03/31 國科會 99-3113-S-003-006- 主持人
能源國家型人才培育自由導向整合型計畫-觀光旅遊之節能減碳教育研究及推廣(2/2) 2010/06/01 2011/03/31 國科會 99-3113-S-003 -004 -  主持人
奈米相變儲能材料與系統之研究與開發 2009/08/01 2010/10/31 國科會 98-2221-E-003-018- 主持人
能源國家型人才培育自由導向整合型計畫-觀光旅遊之節能減碳教育研究及推廣(1/2 2009/07/01 2010/05/31 國科會 98-2514-S-003-009-NE 主持人