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台灣東北角協和電廠改建案:高鹽害、極高濕度與強風衝擊環境下管線工程之彎頭銲接與冷作彎管差異化深度研究報告 (Comparative Study on Elbow Welding vs. Cold Bending of Piping Systems Under Extreme Salt Mist, High Humidity, and Strong Wind Conditions: A Case Study of the Hsieh-ho Power Plant Renewal Project in Northeast Taiwan)

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一、 緒論 1.1 協和電廠更新改建計畫之背景與工程必要性 基隆協和電廠作為台灣北部電力系統的重要基石,其更新 […]

台灣東北角協和電廠改建案:高鹽害、極高濕度與強風衝擊環境下管線工程之彎頭銲接與冷作彎管差異化深度研究報告 (Comparative Study on Elbow Welding vs. Cold Bending of Piping Systems Under Extreme Salt Mist, High Humidity, and Strong Wind Conditions: A Case Study of the Hsieh-ho Power Plant Renewal Project in Northeast Taiwan) 閱讀全文 »

探討東聯化學(OUCC)液氮製造、儲存與運輸系統之核心工程:基於液化天然氣(LNG)管線設計概念之極致真空隔熱技術分析 (An Analysis of Core Engineering in OUCC’s Liquid Nitrogen Production, Storage, and Transportation Systems: Ultra-High Vacuum Insulation Technology Based on LNG Pipeline Design Concepts)

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一、摘要與前言 極低溫流體(Cryogenic Fluids)的製造、儲存與運輸基礎設施,代表著當代化學工程、

探討東聯化學(OUCC)液氮製造、儲存與運輸系統之核心工程:基於液化天然氣(LNG)管線設計概念之極致真空隔熱技術分析 (An Analysis of Core Engineering in OUCC’s Liquid Nitrogen Production, Storage, and Transportation Systems: Ultra-High Vacuum Insulation Technology Based on LNG Pipeline Design Concepts) 閱讀全文 »

CCPP最具破壞性的四大流體行為:水錘現象、汽錘與雙相流衝擊、空化現象/汽蝕、流體誘發振動之研究報告 (Research Report on the Four Most Destructive Fluid Phenomena in CCPP: Water Hammer, Steam Hammer and Two-Phase Flow Impact, Cavitation, and Flow-Induced Vibration)

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摘要 複循環發電廠(Combined Cycle Power Plant, CCPP)作為現代電網中基載與尖峰

CCPP最具破壞性的四大流體行為:水錘現象、汽錘與雙相流衝擊、空化現象/汽蝕、流體誘發振動之研究報告 (Research Report on the Four Most Destructive Fluid Phenomena in CCPP: Water Hammer, Steam Hammer and Two-Phase Flow Impact, Cavitation, and Flow-Induced Vibration) 閱讀全文 »

探討CCPP建廠預製管線於現場安裝時的致命缺失與防治對策研究:以專案管理、破壞力學與冶金科學為核心之綜合分析 (Critical Defects and Mitigation Strategies for On-site Installation of Prefabricated Spools in CCPP Construction: A Multi-disciplinary Analysis of Project Management, Fracture Mechanics, and Metallurgical Science)

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摘要 複循環發電廠(Combined Cycle Power Plant, CCPP)具備高熱效率與快速起停之

探討CCPP建廠預製管線於現場安裝時的致命缺失與防治對策研究:以專案管理、破壞力學與冶金科學為核心之綜合分析 (Critical Defects and Mitigation Strategies for On-site Installation of Prefabricated Spools in CCPP Construction: A Multi-disciplinary Analysis of Project Management, Fracture Mechanics, and Metallurgical Science) 閱讀全文 »

針對CCPP A335.P9x合金鋼管3D/5D冷作彎曲技術解決方案與全生命週期數位化履歷系統之工程分析報告 (Engineering Analysis Report on 3D/5D Cold Bending Solutions and Full Lifecycle Digital Traceability Systems for CCPP A335-P9x Alloy Steel Pipes)

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緒論 在現代複循環發電廠(Combined Cycle Power Plant, CCPP)與超超臨界(Ult

針對CCPP A335.P9x合金鋼管3D/5D冷作彎曲技術解決方案與全生命週期數位化履歷系統之工程分析報告 (Engineering Analysis Report on 3D/5D Cold Bending Solutions and Full Lifecycle Digital Traceability Systems for CCPP A335-P9x Alloy Steel Pipes) 閱讀全文 »

CCPP冷熱共存架構之雙套管(Vacuum Jacketed Piping)應用、熱力學效能與系統安全分析報告 (Application, Thermodynamic Performance, and System Safety Analysis of Vacuum Jacketed Piping in CCPP Cold-Heat Coexistence Architectures)

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一、引言與現代複循環電廠的熱力學演進 傳統的複循環電廠(Combined Cycle Power Plant,

CCPP冷熱共存架構之雙套管(Vacuum Jacketed Piping)應用、熱力學效能與系統安全分析報告 (Application, Thermodynamic Performance, and System Safety Analysis of Vacuum Jacketed Piping in CCPP Cold-Heat Coexistence Architectures) 閱讀全文 »

CCPP管線兩相流誘發震動之機理、流固耦合分析與智慧防治策略研究 (Research on the Mechanism, Fluid-Structure Interaction Analysis, and Intelligent Mitigation Strategies of Two-Phase Flow-Induced Vibration in CCPP Pipelines)

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一、 緒論與研究背景 在全球能源轉型的宏觀背景下,複循環發電廠(Combined Cycle Power Pl

CCPP管線兩相流誘發震動之機理、流固耦合分析與智慧防治策略研究 (Research on the Mechanism, Fluid-Structure Interaction Analysis, and Intelligent Mitigation Strategies of Two-Phase Flow-Induced Vibration in CCPP Pipelines) 閱讀全文 »

CCPP環境下蒸氣管線冷啟動與熱啟動之停機腐蝕機制與防護策略研究 (Study on Standby Corrosion Mechanisms and Protection Strategies for Steam Pipelines during Cold and Hot Starts in CCPP Environments)

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一、複循環發電廠循環操作與停機狀態之熱力學與流體力學脈絡 在當今全球能源轉型與電網結構急遽變化的背景下,複循環

CCPP環境下蒸氣管線冷啟動與熱啟動之停機腐蝕機制與防護策略研究 (Study on Standby Corrosion Mechanisms and Protection Strategies for Steam Pipelines during Cold and Hot Starts in CCPP Environments) 閱讀全文 »

超超臨界與複循環機組 P91/P92 管線風險控管與數位化導入:潁璋冷彎管技術、IH-PBHT 彎後熱處理與數位履歷之專案效益評估 (Risk Management and Digitalization of P91/P92 Piping in USC and CCGT Units: Project Benefit Evaluation of YingZhang Cold Bending, IH-PBHT, and Digital Traceability)

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一、 前言:不容閃失的千億級關鍵戰役與系統性風險 在全球能源結構向低碳化、淨零排放轉型的宏觀趨勢下,天然氣發電

超超臨界與複循環機組 P91/P92 管線風險控管與數位化導入:潁璋冷彎管技術、IH-PBHT 彎後熱處理與數位履歷之專案效益評估 (Risk Management and Digitalization of P91/P92 Piping in USC and CCGT Units: Project Benefit Evaluation of YingZhang Cold Bending, IH-PBHT, and Digital Traceability) 閱讀全文 »

內突銲道誘發管線沖蝕與沖蝕腐蝕之流體動力學與材料衰退機制研究 (Investigation into Hydrodynamics and Material Degradation Mechanisms of Erosion and Erosion-Corrosion Induced by Internal Weld Beads in Pipelines)

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前言 在現代石化、核能及火力發電廠的複雜動力管線系統(Power Piping Systems)中,環口銲接(

內突銲道誘發管線沖蝕與沖蝕腐蝕之流體動力學與材料衰退機制研究 (Investigation into Hydrodynamics and Material Degradation Mechanisms of Erosion and Erosion-Corrosion Induced by Internal Weld Beads in Pipelines) 閱讀全文 »

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