2. 雷害防制(Countermeasures for Lightning Hazard)
                 (1) 台灣閃電位置改變對科學園區線路事故之影響(Impact  of  Taiwan  Lightning
                      Position Change on Transmission Line Accidents in Science Parks)
                 (2) 345kV 架空輸電線路之雷擊風險評估研究
                      (Research on Lightning Strike Risk
                      Assessment of 345kV Overhead
                      Transmission Line)
                 (3) 台電輸電線路雷害網格圖之研究(Research on
                      Lightning Damage Grid Map of Taiwan
                      Power Transmission Lines)



                。 鹽害防制與礙子特性
                   The Characteristics of Insulators and
                    Countermeasures for Salt-contamination                    高雄科學園區 2022 年雲中(IC)及
                                                                                雲對地(CG)雷擊分布情形圖
                 1. 大氣污染對輸電線路礙子絕緣狀況影響之研究                                      Distribution for the intra-cloud
                   (Study  of  Environmental  Pollution  Effects  on          (IC) and cloud-to-ground (CG)
                   Insulators of Transmission Lines)                          lightning strikes of Kaohsiung
                 2. 彰濱地區即時鹽害預警系統模型建立之研究(The                                       Science Park in 2022
                   Study  of  Modeling  for  Salt  Contamination  Warning  System  in  Zhangbin
                   Area)
                 3. 深  度  學  習  應  用  於  礙  子  洩  漏  電  流  推  估  之  研  究  (Research  on  Insulator  Leakage
                   Current Estimation Using Deep Learning)






                 4.












                                 即時礙子鹽霧害監測系統                                     日間紫外光          夜間目視
                     Real-time Salt Contamination Monitoring System              UV at Day   Visual at Night



                   電力設備即時動態模擬技術發展應用
                     Application of Real-Time Simulation for Power System Equipment

                 。 電力系統即時電磁暫態模擬分析技術
                    Power System Real-Time Electromagnetic Transient (RT-EMT) Simulation
                    and Analysis

                 1. 即時電磁暫態模型建立  (RT-EMT Based Modeling)
                   (1) 台灣 345/161kV 電力系統模型(Taiwan 345/161kV Power System Model)
                   (2) 變流器電源模型(Inverter-based Resources Model)




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