課程目標 (Course Objectives):
本課程旨在介紹熱力學之基本原理與實際應用，期使學生在修習此課程後，可將熱力學理論進而應用至實際化工製程研發及設計之中。

課程內涵 (Course Contents):
本課程介紹熱力學之基本原理與實際應用，內容包括古典熱力學之回顧，流體混合物熱力性質估算及關聯預測方法，狀態方程式之應用，偏離函數性質，溶液熱力學理論基礎，殘餘函數，吉布斯自由能，逸壓及活性係數等觀念，流體相平衡觀念建立，及熱力學在化工程序上之應用，如超臨界流體，電解質溶液相平衡等之應用等。

Course Objectives:
This course aims to introduce the basic principles and practical application of thermal learning, so that students can apply thermal theory to the research and development and design of the actual chemical process after taking this course.

Course Contents:
This course introduces the basic principles and actual application of heat learning. The content includes the retrieval of classical heat learning, the estimation and correlation prediction methods of fluid mixture heat properties, the application of status equations, the basis of deviation function, the basis of solution heat theory, the basis of residual function, Gibbs free energy, easing pressure and activity factor, the establishment of fluid phase equilibrium concepts, and the application of heat learning in chemical procedures, such as the application of transcendental fluid, electrolytic solution phase equilibrium, etc.

由化工實用的本質來探討熱力學;並強調於實際工程設計之應用。

The essence of chemical application is used to explore thermal learning; and emphasize the application of actual engineering design.

S. I. Sandler, Chemical, Biochemical, and Engineering Thermodynamics. 4th. Edition. Wiley, 2006.

S. I. Sandler, Chemical, Biochemical, and Engineering Thermodynamics. 4th. Edition. Wiley, 2006.