Uncategorized

燃氣複循環機組老舊高能管線系統銲接彎頭劣化機制與冷作彎管替代方案之執行分析研究 (An Executive Analysis and Study on the Degradation Mechanism of Welded Elbows in Aging High-Energy Piping Systems of Combined Cycle Gas Turbine Units and Cold-Bending Pipe Alternatives)

Uncategorized /

摘要 在全球能源轉型與電網負載波動加劇的背景下,燃氣複循環發電廠(Combined Cycle Power P […]

燃氣複循環機組老舊高能管線系統銲接彎頭劣化機制與冷作彎管替代方案之執行分析研究 (An Executive Analysis and Study on the Degradation Mechanism of Welded Elbows in Aging High-Energy Piping Systems of Combined Cycle Gas Turbine Units and Cold-Bending Pipe Alternatives) 閱讀全文 »

探討導入 ASME B31J 於燃氣輪機老舊高能彎頭銲接之管線重新評估與冷作彎管替代改善方案 (Re-evaluation of Aged High-Energy Piping Elbow Welds in Gas Turbines: Implementation of ASME B31J and Cold-Bent Pipe Substitution Alternatives)

Uncategorized /

摘要 隨著全球能源轉型與再生能源併網比例的快速攀升,燃氣複循環發電廠(Combined Cycle Power

探討導入 ASME B31J 於燃氣輪機老舊高能彎頭銲接之管線重新評估與冷作彎管替代改善方案 (Re-evaluation of Aged High-Energy Piping Elbow Welds in Gas Turbines: Implementation of ASME B31J and Cold-Bent Pipe Substitution Alternatives) 閱讀全文 »

CCPP高能主蒸汽支管A106B/C, SA210, P22, P91系列鐵素體鋼XXS冷作彎管之應力與冶金分析研究報告 (Research Report on Stress and Metallurgical Analysis of XXS Cold-Formed Bends in CCPP High-Energy Main Steam Branch Piping (A106B/C, SA210, P22, P91 Series Ferritic Steels))

Uncategorized /

一、 緒論與高能管線之工業背景發展 在全球能源轉型與發電效率極大化的迫切需求驅動下,現代複循環燃氣發電廠(Co

CCPP高能主蒸汽支管A106B/C, SA210, P22, P91系列鐵素體鋼XXS冷作彎管之應力與冶金分析研究報告 (Research Report on Stress and Metallurgical Analysis of XXS Cold-Formed Bends in CCPP High-Energy Main Steam Branch Piping (A106B/C, SA210, P22, P91 Series Ferritic Steels)) 閱讀全文 »

先進燃氣複循環機組 P91 高溫蒸汽管線銲口減量策略與數位化實證——以潁璋工程冷彎技術整合應用為例 (Weld Joint Reduction Strategy and Digital Validation for P91 High-Temperature Steam Piping in Advanced Gas Combined Cycle Units: A Case Study on the Integrated Application of Cold Bending Technology by Yingzhang Engineering)

Uncategorized /

摘要 在全球能源轉型與淨零碳排的戰略框架下,燃氣複循環發電廠(Combined Cycle Power Pla

先進燃氣複循環機組 P91 高溫蒸汽管線銲口減量策略與數位化實證——以潁璋工程冷彎技術整合應用為例 (Weld Joint Reduction Strategy and Digital Validation for P91 High-Temperature Steam Piping in Advanced Gas Combined Cycle Units: A Case Study on the Integrated Application of Cold Bending Technology by Yingzhang Engineering) 閱讀全文 »

CCPP高能主蒸汽支管304/310/316/321/347/800H系列奧氏體不銹鋼XXS冷作彎管之應力與冶金分析(基於2025/2026 ASME B31.1與B31J規範) (Stress and Metallurgical Analysis of XXS Cold-Formed Bends in 304/310/316/321/347/800H Series Austenitic Stainless Steels for CCPP High-Energy Main Steam Branch Pipes (Based on 2025/2026 ASME B31.1 and B31J Codes))

Uncategorized /

一、 緒論與研究背景 在現代複循環發電廠(Combined Cycle Power Plant, CCPP)的

CCPP高能主蒸汽支管304/310/316/321/347/800H系列奧氏體不銹鋼XXS冷作彎管之應力與冶金分析(基於2025/2026 ASME B31.1與B31J規範) (Stress and Metallurgical Analysis of XXS Cold-Formed Bends in 304/310/316/321/347/800H Series Austenitic Stainless Steels for CCPP High-Energy Main Steam Branch Pipes (Based on 2025/2026 ASME B31.1 and B31J Codes)) 閱讀全文 »

CCPP高能主蒸汽支管316系列奧氏體不銹鋼XXS冷作彎管之應力與冶金分析:基於2025/2026 ASME B31.1與B31J規範剖析 (Stress and Metallurgical Analysis of Cold-Bent XXS 316-Series Austenitic Stainless Steel Main Steam Branch Piping in CCPP: An Analysis Based on 2025/2026 ASME B31.1 and B31J Codes)

Uncategorized /

摘要 隨著當代複循環發電廠(Combined Cycle Power Plant, CCPP)持續朝向極端高熱

CCPP高能主蒸汽支管316系列奧氏體不銹鋼XXS冷作彎管之應力與冶金分析:基於2025/2026 ASME B31.1與B31J規範剖析 (Stress and Metallurgical Analysis of Cold-Bent XXS 316-Series Austenitic Stainless Steel Main Steam Branch Piping in CCPP: An Analysis Based on 2025/2026 ASME B31.1 and B31J Codes) 閱讀全文 »

基於 ASME B31J 規範之電廠飛灰輸送陶瓷內襯彎管應力強度與疲勞壽命評估 (Stress Intensity and Fatigue Life Assessment of Ceramic-Lined Elbows for Power Plant Fly Ash Transport Based on ASME B31J)

Uncategorized /

一、 燃煤發電工程中氣固兩相流管線之結構完整性挑戰與技術演進 在全球能源供應的基礎架構中,燃煤火力發電廠持續扮

基於 ASME B31J 規範之電廠飛灰輸送陶瓷內襯彎管應力強度與疲勞壽命評估 (Stress Intensity and Fatigue Life Assessment of Ceramic-Lined Elbows for Power Plant Fly Ash Transport Based on ASME B31J) 閱讀全文 »

國光電廠二期擴建工程 P91/P92 管線預製冷作彎管技術之應用:基於 ASME B31.1 與 B31J 規範之應力強度因子優化與疲勞壽命分析 (Application of P91/P92 Pipe Prefabricated Cold-Bending Technology in the Phase II Expansion Project of Kuo-Kuang Power Plant: Stress Intensification Factor (SIF) Optimization and Fatigue Life Analysis Based on ASME B31.1 and B31J Codes)

Uncategorized /

一、 導論與先進複循環燃氣輪機動力管線之工程挑戰 在現代化高效率複循環燃氣輪機(Combined-Cycle

國光電廠二期擴建工程 P91/P92 管線預製冷作彎管技術之應用:基於 ASME B31.1 與 B31J 規範之應力強度因子優化與疲勞壽命分析 (Application of P91/P92 Pipe Prefabricated Cold-Bending Technology in the Phase II Expansion Project of Kuo-Kuang Power Plant: Stress Intensification Factor (SIF) Optimization and Fatigue Life Analysis Based on ASME B31.1 and B31J Codes) 閱讀全文 »

燃煤氣電共生廠改裝混加氫燃氣複循環系統:高能蒸汽管線P91/P92材料應力與3D/5D冷作彎管分析研究 —— 以 ASME B31.1 與 B31J 新制導入 (Retrofitting Coal-Fired Cogeneration Plants into Hydrogen-Blended Gas Turbine Combined Cycle Systems: Material Stress and 3D/5D Cold-Bent Pipe Analysis for High-Energy Steam Piping under ASME B31.1 and B31J Compliance)

Uncategorized /

一、 緒論與研究背景 在全球能源轉型的劇烈浪潮下,傳統燃煤發電正面臨嚴峻的脫碳與減排壓力。為達成淨零排放(Ne

燃煤氣電共生廠改裝混加氫燃氣複循環系統:高能蒸汽管線P91/P92材料應力與3D/5D冷作彎管分析研究 —— 以 ASME B31.1 與 B31J 新制導入 (Retrofitting Coal-Fired Cogeneration Plants into Hydrogen-Blended Gas Turbine Combined Cycle Systems: Material Stress and 3D/5D Cold-Bent Pipe Analysis for High-Energy Steam Piping under ASME B31.1 and B31J Compliance) 閱讀全文 »

複循環電廠後段飛灰輸送管線改採鋼管內襯陶瓷工法之可行性評估與施工品質控制 (Feasibility Assessment and Construction Quality Control of Retrofitting Downstream Fly Ash Conveying Pipelines with Ceramic-Lined Steel Pipes in Combined Cycle Power Plants)

Uncategorized /

一、緒論 在現代化的大型發電設施與能源轉換工業中,發電技術的演進與環境保護標準的提升促使各式高效能機組被廣泛採

複循環電廠後段飛灰輸送管線改採鋼管內襯陶瓷工法之可行性評估與施工品質控制 (Feasibility Assessment and Construction Quality Control of Retrofitting Downstream Fly Ash Conveying Pipelines with Ceramic-Lined Steel Pipes in Combined Cycle Power Plants) 閱讀全文 »

購物車