2012-08-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/680842摘要：台灣工業部門能源消耗量佔整體消耗量一半，而化工產業能源消耗量在工業部門中排序第一，其中，蒸餾分離製程佔化工產業總能源消耗量45%。因此，提昇蒸餾分離製程效能並與其他操作單元進行能源整合或程序的強化，為化工產業能否作好節約能源使用量的關鍵因素。本計劃擬透過程序模擬設計平台，發展高效節能蒸餾分離製程設計技術，並建立程序模擬設計核心團隊，除了規劃定期的專業訓練課程，協助訓練各製程工廠基層及研發工程人員具備基本程序模擬與分析能力之外，並擬透過逐案深入分析與設計的方式，協助國內化工產業界，朝「產品高值化、製程高效化」方向轉型，提升整體產業競爭力。<br> Abstract: The energy consumption from industrial sector accounts for almost 50% of the total energy consumption in Taiwan, with chemical industry as the top energy user of the industrial sector. Within chemical industry, distillation separation units account for 45% of the total energy consumption in this industry. Thus, how to increase the effectiveness of the separation units and also properly using heat integration and/or process intensification techniques is a key factor for achieving the goal of energy savings. This project will use process simulation tools for the development of process design technology of efficient separation processes and to build a core technology team to help the industry on this task. Besides the regular training course offered to the plant engineers to teach them the basic process simulation and analysis skills, this project will also work on special case studies initiated by particular industrial partners to improve the efficiency of their separation processes. The final goal is to achieve the goal of high value-added products and high efficiency in the separation processes.蒸餾分離製程高效節能程序模擬distillationseparation unitefficient separation processesprocess simulation