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去銲接化技術於CCPP P91主蒸汽管線之應用研究:韓國原型第四代鈉冷快中子反應爐(PGSFR)P91管線彎管、IH熱處理與建廠效益分析 (Research on the Application of “No-Weld” Technology for CCPP P91 Main Steam Pipelines: Analysis of P91 Pipe Bends, IH Heat Treatment, and Construction Efficiency for the South Korean PGSFR)

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摘要 隨著全球能源結構向低碳化、淨零排放轉型,具備高發電效率、低溫室氣體排放且能快速升降載的複循環發電廠(Co […]

去銲接化技術於CCPP P91主蒸汽管線之應用研究:韓國原型第四代鈉冷快中子反應爐(PGSFR)P91管線彎管、IH熱處理與建廠效益分析 (Research on the Application of “No-Weld” Technology for CCPP P91 Main Steam Pipelines: Analysis of P91 Pipe Bends, IH Heat Treatment, and Construction Efficiency for the South Korean PGSFR) 閱讀全文 »

國光電廠二期高階動力配管去銲接化趨勢: 8吋以下冷作彎管與IH-PBHT整合工法競爭優勢分析  (The Trend Toward Weld-less High-Pressure Piping at the Kuo-Kuang Power Plant Expansion: Competitive Advantages of Integrating Cold Bending (≤ 8-inch) with Induction Heat Treatment (IH-PBHT))

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一、 緒論與專案背景剖析 在全球氣候變遷與淨零碳排政策的強力驅動下,發電產業正處於能源轉型的歷史性十字路口。為

國光電廠二期高階動力配管去銲接化趨勢: 8吋以下冷作彎管與IH-PBHT整合工法競爭優勢分析  (The Trend Toward Weld-less High-Pressure Piping at the Kuo-Kuang Power Plant Expansion: Competitive Advantages of Integrating Cold Bending (≤ 8-inch) with Induction Heat Treatment (IH-PBHT)) 閱讀全文 »

針對 ASME 2026 規範下 317L、317LN 與 317LMN 管線運用於通霄電廠 2 期更新案之綜合研析與評估:材料特性、「冷作彎管+IH-PBHT」工法與系統可靠性探討 (Comprehensive Analysis and Evaluation of 317L, 317LN, and 317LMN Piping for the Tongyuan Power Plant Phase II Expansion Project under ASME 2026 Code: Material Properties, “Cold Bending + IH-PBHT” Methodology, and System Reliability)

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一、 緒論與通霄電廠第二期更新計畫之宏觀工程背景與系統挑戰 面對全球能源轉型、極端氣候變遷以及 2050 年淨

針對 ASME 2026 規範下 317L、317LN 與 317LMN 管線運用於通霄電廠 2 期更新案之綜合研析與評估:材料特性、「冷作彎管+IH-PBHT」工法與系統可靠性探討 (Comprehensive Analysis and Evaluation of 317L, 317LN, and 317LMN Piping for the Tongyuan Power Plant Phase II Expansion Project under ASME 2026 Code: Material Properties, “Cold Bending + IH-PBHT” Methodology, and System Reliability) 閱讀全文 »

CCPP高壓過熱蒸汽管系之冷彎(Cold Bending)工法:針對快速變載與熱疲勞效應之結構完整性研究 (Structural Integrity Analysis of Cold-Bending Methods for CCPP High-Pressure Superheated Steam Piping: Addressing Rapid Load Cycling and Thermal Fatigue Effects)

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一、緒論與產業背景 在全球能源轉型的宏觀背景下,再生能源(如風能與太陽能)於電網中的滲透率急遽攀升。由於再生能

CCPP高壓過熱蒸汽管系之冷彎(Cold Bending)工法:針對快速變載與熱疲勞效應之結構完整性研究 (Structural Integrity Analysis of Cold-Bending Methods for CCPP High-Pressure Superheated Steam Piping: Addressing Rapid Load Cycling and Thermal Fatigue Effects) 閱讀全文 »

針對 ASME 2026 規範下 316L、316LN 與 316Ti 管線運用於通霄電廠 2 期更新案之綜合研析與評估:材料特性、「冷作彎管+IH-PBHT」工法與系統可靠性探討 (Comprehensive Analysis and Evaluation of 316L, 316LN, and 316Ti Piping Materials under ASME 2026 Standards for the Tongxiao Power Plant Phase II Expansion Project: A Study on Material Properties, Cold Bending + IH-PBHT Construction Methods, and System Reliability)

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摘要 在全球能源轉型與深度去碳化的戰略背景下,氫能作為具備零碳排放特性的關鍵能源載體,已成為現代複循環燃氣輪機

針對 ASME 2026 規範下 316L、316LN 與 316Ti 管線運用於通霄電廠 2 期更新案之綜合研析與評估:材料特性、「冷作彎管+IH-PBHT」工法與系統可靠性探討 (Comprehensive Analysis and Evaluation of 316L, 316LN, and 316Ti Piping Materials under ASME 2026 Standards for the Tongxiao Power Plant Phase II Expansion Project: A Study on Material Properties, Cold Bending + IH-PBHT Construction Methods, and System Reliability) 閱讀全文 »

第三代核電廠一迴路及關鍵輔助系統用材: 316LN 奧氏體不銹鋼之深度解析與性能評估 (In-depth Analysis and Performance Evaluation of 316LN Austenitic Stainless Steel for Primary Circuit and Critical Auxiliary Systems in Generation III Nuclear Power Plants)

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摘要 在全球核能技術邁向第三代(Gen III)與第三代半(Gen III+)的進程中,反應爐的設計壽命已從早

第三代核電廠一迴路及關鍵輔助系統用材: 316LN 奧氏體不銹鋼之深度解析與性能評估 (In-depth Analysis and Performance Evaluation of 316LN Austenitic Stainless Steel for Primary Circuit and Critical Auxiliary Systems in Generation III Nuclear Power Plants) 閱讀全文 »

以冷彎工法取代傳統銲接彎頭:提升高海拔電廠管線結構可靠性與耐疲勞壽命之全面評估 (Replacing Traditional Welded Elbows with Cold Bending: A Comprehensive Evaluation for Enhancing Structural Reliability and Fatigue Life of Piping Systems in High-Altitude Power Plants)

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一、 緒論與產業背景 在全球能源結構轉型與淨零碳排(Net Zero)政策的強烈驅動下,具備高發電效率、低溫室

以冷彎工法取代傳統銲接彎頭:提升高海拔電廠管線結構可靠性與耐疲勞壽命之全面評估 (Replacing Traditional Welded Elbows with Cold Bending: A Comprehensive Evaluation for Enhancing Structural Reliability and Fatigue Life of Piping Systems in High-Altitude Power Plants) 閱讀全文 »

核能 316LN 管線冷作彎管與高頻感應熱處理研究:從冶金力學分析到數位化彎曲工法審核 (BPQ)  (Research on Cold-Bending and High-Frequency Induction Heat Treatment of Nuclear-Grade 316LN Piping: From Metallurgical Mechanics Analysis to Digitalized Bending Procedure Qualification (BPQ))

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一、 緒論與核能管線工程背景 在全球能源轉型的戰略背景下,第三代核電技術(如 AP1000、EPR 及華龍一號

核能 316LN 管線冷作彎管與高頻感應熱處理研究:從冶金力學分析到數位化彎曲工法審核 (BPQ)  (Research on Cold-Bending and High-Frequency Induction Heat Treatment of Nuclear-Grade 316LN Piping: From Metallurgical Mechanics Analysis to Digitalized Bending Procedure Qualification (BPQ)) 閱讀全文 »

以 P91/P92 合金鋼之冷彎工法與 IH-PBHT 最佳化取代傳統銲接肘管之實務研究:破管肇因與升級啟示 (Practical Research on Replacing Conventional Welded Elbows with Cold Bending and IH-PBHT Optimization for P91/P92 Alloy Steel: Failure Analysis and Upgrade Insights)

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一、 緒論 在全球能源轉型與淨零碳排的趨勢下,現代超超臨界(Ultra-Supercritical, USC)

以 P91/P92 合金鋼之冷彎工法與 IH-PBHT 最佳化取代傳統銲接肘管之實務研究:破管肇因與升級啟示 (Practical Research on Replacing Conventional Welded Elbows with Cold Bending and IH-PBHT Optimization for P91/P92 Alloy Steel: Failure Analysis and Upgrade Insights) 閱讀全文 »

發電機組高壓主蒸氣管線破管解聯案例之肇因探討與可靠度升級對策 (Root Cause Analysis of High-Pressure Main Steam Pipeline Failures in Power Generating Units and Reliability Enhancement Strategies)

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一、 緒論與台電重大破管案例回顧 (Case Review & Problem Definition)

發電機組高壓主蒸氣管線破管解聯案例之肇因探討與可靠度升級對策 (Root Cause Analysis of High-Pressure Main Steam Pipeline Failures in Power Generating Units and Reliability Enhancement Strategies) 閱讀全文 »

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