潁璋 Cold Bending 園地 CCPP高應變A335P91管線熱疲勞與熱分層現象:管線在運轉時期對比冷作彎管與電銲彎頭之差異化深度分析研究 (Thermal Fatigue and Stratification of A335 P91 Pipelines in CCPP: A Comparative In-depth Analysis of Cold-Bent Pipes vs. Welded Elbows During Operation) 一、序論:電力產業轉型下之材料挑戰與複循環電廠運轉 閱讀更多 » 2026-01-06 A335 P91 於CCPP高溫高壓環境下冶金失效與濕環境電位腐蝕深度分析報告 (Metallurgical Failure Analysis and Potentiometric Corrosion Depth Evaluation of ASTM A335 P91 Steel in High-Temperature, High-Pressure CCPP Environments and Wet Conditions) 一、緒論:複循環電廠與 P91 鋼材的技術定位 在 閱讀更多 » 2026-01-05 化工廠配管工程在ASME B31.3為規範下:高黏度與膠稠性流體輸送管線之工法對比分析 (Comparative Analysis of Construction Methods for High-Viscosity and Viscous Fluid Transport Pipelines under ASME B31.3 Standards) 一、前言:ASME B31.3 規範體系與流體服務 閱讀更多 » 2026-01-05 CCPP高應變A335P91蒸氣管線應變位移現象:管線完成SRHT其支撐設計點位對比冷作彎管與電銲彎頭之差異化深度分析研究 (In-Depth Comparative Analysis of Strain-Displacement Phenomena in CCPP A335 P91 Steam Pipelines: Cold-Bent Pipes vs. Welded Elbows at Post-SRHT Support Design Points) 一、緒論:CCPP環境下P91管線的設計挑戰與應變 閱讀更多 » 2026-01-04 CCPP天然氣混氫管線:冷作彎管與電銲彎頭之差異化深度分析研究 (A Comparative In-depth Analysis of Cold-Formed Bends and Welded Elbows in Hydrogen-Natural Gas Blend Pipelines for CCPP) 前言 隨著全球能源轉型與脫碳趨勢,氫氣(H2)作為 閱讀更多 » 2026-01-04 CCPP蒸氣管線水錘現象:傾斜度管線設計對比冷作彎管與電銲彎頭之差異化深度分析研究 (In-depth Analysis and Research on the Differences Between Cold-bent Pipes and Welded Elbows in Sloped Pipelines Regarding Water Hammer Phenomena in CCPP) 前言 在當代複循環火力發電廠(Combined C 閱讀更多 » 2026-01-03 « 上一頁 頁面1 頁面2 頁面3 頁面4 頁面5 頁面6 頁面7 頁面8 頁面9 頁面10 頁面11 頁面12 頁面13 頁面14 頁面15 頁面16 頁面17 頁面18 頁面19 頁面20 頁面21 頁面22 頁面23 頁面24 頁面25 頁面26 頁面27 頁面28 頁面29 頁面30 頁面31 頁面32 頁面33 頁面34 頁面35 下一頁 »
CCPP高應變A335P91管線熱疲勞與熱分層現象:管線在運轉時期對比冷作彎管與電銲彎頭之差異化深度分析研究 (Thermal Fatigue and Stratification of A335 P91 Pipelines in CCPP: A Comparative In-depth Analysis of Cold-Bent Pipes vs. Welded Elbows During Operation) 一、序論:電力產業轉型下之材料挑戰與複循環電廠運轉 閱讀更多 » 2026-01-06
A335 P91 於CCPP高溫高壓環境下冶金失效與濕環境電位腐蝕深度分析報告 (Metallurgical Failure Analysis and Potentiometric Corrosion Depth Evaluation of ASTM A335 P91 Steel in High-Temperature, High-Pressure CCPP Environments and Wet Conditions) 一、緒論:複循環電廠與 P91 鋼材的技術定位 在 閱讀更多 » 2026-01-05
化工廠配管工程在ASME B31.3為規範下:高黏度與膠稠性流體輸送管線之工法對比分析 (Comparative Analysis of Construction Methods for High-Viscosity and Viscous Fluid Transport Pipelines under ASME B31.3 Standards) 一、前言:ASME B31.3 規範體系與流體服務 閱讀更多 » 2026-01-05
CCPP高應變A335P91蒸氣管線應變位移現象:管線完成SRHT其支撐設計點位對比冷作彎管與電銲彎頭之差異化深度分析研究 (In-Depth Comparative Analysis of Strain-Displacement Phenomena in CCPP A335 P91 Steam Pipelines: Cold-Bent Pipes vs. Welded Elbows at Post-SRHT Support Design Points) 一、緒論:CCPP環境下P91管線的設計挑戰與應變 閱讀更多 » 2026-01-04
CCPP天然氣混氫管線:冷作彎管與電銲彎頭之差異化深度分析研究 (A Comparative In-depth Analysis of Cold-Formed Bends and Welded Elbows in Hydrogen-Natural Gas Blend Pipelines for CCPP) 前言 隨著全球能源轉型與脫碳趨勢,氫氣(H2)作為 閱讀更多 » 2026-01-04
CCPP蒸氣管線水錘現象:傾斜度管線設計對比冷作彎管與電銲彎頭之差異化深度分析研究 (In-depth Analysis and Research on the Differences Between Cold-bent Pipes and Welded Elbows in Sloped Pipelines Regarding Water Hammer Phenomena in CCPP) 前言 在當代複循環火力發電廠(Combined C 閱讀更多 » 2026-01-03
