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研究生:王中俊
研究生(外文):Chung-Chun Wang
論文名稱:考量不確定性之正逆向物流整合型永續供應鏈網絡設計─以太陽能產業為例
論文名稱(外文):Integrated Forward And Reverse Sustainable Supply Chain Network Design Under Uncertainty – A Case Study Of Solar Energy Industry
指導教授:王立志王立志引用關係
指導教授(外文):Li-Chih Wang
口試委員:王立志袁明鑑鄭辰仰陳子立陳盈彥
口試委員(外文):Li-Chih WangMing-Jian YuanChen-Yang ChengTzu-Li ChenYin-Yann Chen
口試日期:2012-06-07
學位類別:碩士
校院名稱:東海大學
系所名稱:工業工程與經營資訊學系
學門:工程學門
學類:工業工程學類
論文種類:學術論文
論文出版年:2012
畢業學年度:100
語文別:中文
論文頁數:115
中文關鍵詞:永續供應鏈設計逆物流穩健最佳化不確定性矽晶太陽能產業
外文關鍵詞:Sustainable Supply Chain DesignReverse LogisticsRobust OptimizationUncertaintyCrystalline Solar Energy Industry
相關次數:
  • 被引用被引用:4
  • 點閱點閱:473
  • 評分評分:
  • 下載下載:87
  • 收藏至我的研究室書目清單書目收藏:2
本研究提出一套整合正、逆向物流之供應鏈設計模式,考量環境永續議題與市場供需資訊之不確定性,決定逆物系統之建置,包括流潛在廠區位置(location)、運輸流量(flow)、產能(capacity)與技術(technology)投資設計,並過穩健多目標最佳化方法(Robust Multi-objective Programming Model; RMOP),權衡整體供應鏈設計之總成本(total cost)與二氧化碳排放約當量(CO2e)。
數值分析結果指出,逆物流系統建置會依據不同的原物料取得成本與市場不確定性而呈現不同的經濟效益;並透過柏拉圖最適解集合(Pareto-optimal Set),分析成本與二氧化碳排放之間的影響,並依據不同的碳排放上限(Cap)給予企業兼具成本與環境效益的供應鏈設計結果。除此之外,本研究亦驗證穩健最佳化模型(robust model)與確定型模型(deterministic model),於不同市場不確定下,供應鏈設計之穩健性績效。最後,以矽晶太陽能產業為案例,說明正逆物流整合型永續供應鏈設計於實務上之重要性與可行性。

This paper studies an integrated forward and reverse supply chain network design problem with sustainable concerns under the uncertain environment. We are interested in the logistics flows, capacity expansion and technology investments of existing and potential facilities, and consider the uncertainty occurred in raw material supply, customer demand and return quantity. A robust multi-objective programming model (RMOP), that captures the trade-off between the total cost and the carbon dioxide (CO2) emission, is developed from the economic and environmental perspective, respectively.
In the numerical evaluation and results, we analyzed the relationship between the total cost and carbon emission in integrated supply chain network and robustness of the proposed RMOP model by the generated Pareto-optimal set. Finally, a case study of crystalline solar energy industry is applied to illustrate the importance of developing an integrated forward and reverse supply chain network design model in practice.

摘要
ABSTRACT
誌謝
目錄
圖目錄
表目錄
第一章 緒論
1.1 研究背景與動機
1.1.1 研究背景
1.1.2 研究動機
1.2 研究目的
1.3 研究步驟與方法
第二章 文獻探討
2.1 永續供應鏈
2.1.1 永續供應鏈介紹
2.1.2 正逆物流整合型供應鏈架構
2.1.3 碳資產管理
2.1.4 永續供應鏈建模與求解
2.2 穩健化設計(ROBUSTNESS DESIGN)
2.2.1 隨機規劃(Stochastic Programming; SP)
2.2.2 穩健最最化(Robust optimization; RO)
2.3 太陽能產業介紹
2.3.1 矽晶太陽能產業鏈現況
2.3.2 太陽能電池種類
2.3.3 太陽能電池製程地圖(Process Map)
2.3.4 太陽能電池回收趨勢
第三章 正逆向物流整合之永續供應鏈設計模式
3.1 問題描述
3.2 一般化模型(GENERIC MODEL)
3.2.1 假設條件
3.2.2 已知資訊
3.2.3 符號定義
3.2.4 數學模式
3.3 穩健最佳化模型(ROBUST OPTIMIZATION MODEL)
3.3.1 確認不確定參數
3.3.2 定義不確定參數範圍
3.3.3 ROBUST轉換
3.3.4 ROBUST模型
3.4 多目標求解方法
3.4.1 限制法(Constraint Method)
3.4.2妥協規劃法(Compromise Programming Method)
3.5 模式範例
第四章 模式分析與評估
4.1 一般化模型分析
4.1.1 回收率對經濟與環境之影響
4.1.2 市場不確定性對供應鏈設計之影響
4.1.3 確定型模式與穩健型模式績效評估
4.2 太陽能產業案例
4.2.1 產業案例情境介紹
4.2.2 產業案例分析與整合型網絡設計
第五章 結論與未來發展方向
5.1 結論
5.2 未來發展方向
參考文獻
附錄一
附錄二
附錄三
附錄四


中文文獻
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林文華,(2010),PSA2050:2008 產品及服務生命週期溫室氣體排放評估標準介紹。BSI英國標準協會台灣分公司。
郝皓,(2002),逆向物流,IT經濟世界,15,44-45。
高毅民,(2007),企業碳資產管理。「中技社96年度春季環境與能源研討會」發表之論文,台北市。
陳亮榮,(2011),太陽光電系統減少碳排放量之可行性研究(碩士論文),國立臺中教育大學,台中市。

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