1. 李建興; 史光榮; 王耀諄; 黃建宏,(2006),“應用強韌複數型卡爾曼瀘波器於電力系統訊號參數之追蹤”,臺電工程月刊, No.696, pp.34-47.
  2. 李建興; 張正男; 王耀諄; 何兆榮; 賴良時,(2006),“以深鑿接地井法改善屋內變電所之接地電阻值”,臺電工程月刊,No.695, pp.30-42.
  3. 王耀諄、黃訓誌,(2006),“市電並聯型感應發電機特性極值的探討與驗證,臺電工程月刊,No.698, pp.127-137.
  4. 李建興、張正男、王耀諄、劉茂宏、何兆榮、劉金溢、賴沛林、賴良時, (2007) “屋內式變電所接地電阻之量測與計算”, 台電工程月刊, 第703期, pp. 28-43, March 2007.
  5. 王耀諄、劉京鷹、黃文良 (2007) ,“鹽分梯度發電之技術現狀與發展”,能源季刊,第37卷第3期,2007.07,頁53-64。
  6. 李建興、黃裕霖、王耀諄、林樹民, (2007) “以數值積分法計算屋內電力線與通訊線間之磁場強度”, 電機月刊,第201期,pp. 206-220, September 2007.
  7. 李建興、張佑銘、王耀諄、林樹民, (2007) “建築物避雷接地系統之分析”,電機月刊,第203期,pp. 198-215, November 2007.
  8. 李建興、史光榮、黃建宏、王耀諄, (2008) “以形態學理論增強複數推廣型卡爾曼濾波器之類神經網路於電力系統訊號不良資料的偵測”, 台電工程月刊, 第714期, 2008.02,頁66-78。
  9. Chien-Hung Huang, Chien-Hsing Lee, Kuang-Jung Shih and Yaw-Juen Wang, (2008) “Frequency estimation of distorted power system signals using a robust algorithm,” IEEE Transactions on Power Delivery, Vol. 23, No. 1, pp. 41-51, January 2008. (SCI, EI)
  10. Cheng-Nan Chang, Chien-Hsing Lee and Yaw-Juen Wang, (2009) “Measurement and Computation of Ground Resistances at 161/23.9~11.95-kV Indoor-Type Substations,” European Transactions on Electrical Power, Vol. 19, Issue 3, pp. 368-387, April 2009. (SCI, EI)
  11. Cheng-Nan Chang, Chien-Hsing Lee and Yaw-Juen Wang, (2009) “Improvement of Grounding Resistances Using a deep-ground-well method for indoor-type substations located in complex soils,” European Transactions on Electrical Power, Vol. 19, No. 2, pp. 274-290, March 2009. (SCI, EI)
  12. Chien-Hsing Lee, Cheng-Nan Chang and Yaw-Juen Wang, (2009) “Calculation of fault current-division factors and assessment of earth-grid safety at an independent power producer station,” International Journal of Electrical Power & Energy Systems, Volume 31, Issue 10, November-December 2009, pp. 639-650. (SCI, EI)
  13. Yaw-Juen Wang and Sheng-Yen Huang, (2009) “Determination of the performance extreme values of a three-phase induction motor using a graphical method,” International Journal of Electrical Engineering, Vol. 16, No. 2, April 2009, pp. 101-110. (EI)
  14. Yaw-Juen Wang and Sheng-Yen Huang, (2009) “Analysis of a stand-alone three-phase self-excited induction generator with unbalanced loads using a two-port network model,” IET-Electric Power Applications, Vol. 3, Issue 5, September 2009, pp. 445 - 452. (SCI, EI)
  15. Yaw-Juen Wang and Sheng-Yen Huang, (2010) “Determination of the Performance Extreme Values of a Three-phase Induction Machine Using Algebraic and Graphical Methods,” Journal of Electrical Systems, Vol. 6, Issue 1, March 2010, pp. 1-17. (EI)
  16. Yaw-Juen Wang and Po-Chun Hsu, (2010) “Analytical modelling of partial shading and different orientation of photovoltaic modules,” IET-Renewable Power Generation, Vol. 4, Issue 3, May 2010, pp. 272-282. (SCI, EI)
  17. 王耀諄、許博淳,(2010)「太陽能電池分段線性並聯支路等效電路模型之應用」,台電工程月刊,第745期,民99年9月號,頁53-68。
  18. Chien-Hung Huang, Chien-Hsing Lee, Kuang-Jung Shih and Yaw-Juen Wang, (2010) “Bad data analysis in power systems measurement estimation using complex artificial neural network,” European Transactions on Electrical Power, November 2010, Vol. 20, No. 8, pp. 1082-1100. (SCI, EI)
  19. Yaw-Juen Wang and Po-Chun Hsu, (2011) “Modelling of solar cells and modules using piecewise linear parallel branches,” IET-Renewable Power Generation, Vol. 5, Issue 3, May 2011, pp. 215-222. (SCI, EI)
  20. Yaw-Juen Wang and Po-Chun Hsu, (2011) “An investigation on partial shading of PV modules with different connection configurations of PV cells,” Energy, Vol. 36, May 2011, pp. 3069-3078. (SCI, EI)
  21. Yaw-Juen Wang and Po-Chun Hsu, (2011) “Applications of the piecewise linear parallel branches model to the analysis of partial shading of photovoltaic modules,” International Journal of Electrical Engineering, Vol. 18, No. 1, pp. 1-8. (EI)
  22. Yaw-Juen Wang and Ming-Hsueh Lee, (2012) “A method for balancing a single-phase loaded three-phase induction generator,” Energies, Vol. 5, Issue 9, September 2012, pp. 3534-3549; doi:10.3390/en5093534. (SCI, EI)
  23. Yaw-Juen Wang and Ming-Hsueh Lee, (2012) “A new method for balancing a three-phase induction generator supplying a single-phase load,” International Journal of Electrical Engineering, Vol. 19, No. 3, pp. 137-147. (EI)