{"ModuleCode":"CN5030","ModuleTitle":"Advanced Chemical Engineering Thermodynamics","Department":"Chemical & Biomolecular Engineering","ModuleDescription":"The objective is to give students the fundamentals of thermodynamics at an advanced level, so that they can apply them to the analysis of complex processes and equipment design in chemical engineering. The module will begin by reviewing the basic laws of thermodynamics, the basic thermodynamic variables, basic thermodynamic properties and relations, and other concepts. This is to be followed by the fundamentals of equilibrium thermodynamics, thermodynamics of the real gas mixture and the real solution systems, criteria of equilibrium and stability; molecular thermodynamics; thermodynamics of aqueous electrolyte and polymer-solutions; and an introduction to statistical thermodynamics. These concepts are then applied to the analysis chemical engineering processes. This is targeted at students who have a basic degree in science and engineering and are pursuing a higher degree in chemical engineering.","ModuleCredit":"4","Workload":"3-0-0-3-4","ExamDuration":"P2H30M","ExamVenue":"E1-06-01/02","CorsBiddingStats":[{"AcadYear":"2010/2011","Semester":"1","Round":"1A","Group":"Lecture 1","Quota":"10","Bidders":"3","LowestBid":"100","LowestSuccessfulBid":"1","HighestBid":"2000","Faculty":"Engineering","StudentAcctType":"Returning Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"1B","Group":"Lecture 1","Quota":"7","Bidders":"0","LowestBid":"0","LowestSuccessfulBid":"0","HighestBid":"0","Faculty":"Engineering","StudentAcctType":"Returning Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"1C","Group":"Lecture 1","Quota":"7","Bidders":"0","LowestBid":"0","LowestSuccessfulBid":"0","HighestBid":"0","Faculty":"Engineering","StudentAcctType":"Returning Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"2A","Group":"Lecture 1","Quota":"7","Bidders":"0","LowestBid":"0","LowestSuccessfulBid":"0","HighestBid":"0","Faculty":"Engineering","StudentAcctType":"Returning Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"2B","Group":"Lecture 1","Quota":"7","Bidders":"1","LowestBid":"100","LowestSuccessfulBid":"1","HighestBid":"100","Faculty":"Engineering","StudentAcctType":"Returning Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"3A","Group":"Lecture 1","Quota":"6","Bidders":"2","LowestBid":"100","LowestSuccessfulBid":"1","HighestBid":"300","Faculty":"Engineering","StudentAcctType":"NUS Students [P]"},{"AcadYear":"2010/2011","Semester":"1","Round":"3B","Group":"Lecture 1","Quota":"5","Bidders":"1","LowestBid":"20","LowestSuccessfulBid":"1","HighestBid":"20","Faculty":"Engineering","StudentAcctType":"NUS Students [P]"}],"AcadYear":"2014/2015","History":[{"Semester":1,"ExamDate":"2014-11-29T09:00+0800","Timetable":[{"ClassNo":"1","LessonType":"Lecture","WeekText":"Every Week","DayText":"Tuesday","StartTime":"1800","EndTime":"2100","Venue":"E5-03-20"}],"IVLE":[{"Announcements":null,"Forums":[],"Workbins":[],"Webcasts":[],"Gradebooks":[],"Polls":[],"Multimedia":[],"LessonPlan":[],"ID":"217b268c-1c15-4eb2-9b34-00cbf1dddd9e","CourseLevel":"1","CourseCode":"CN5030","CourseName":"ADVANCED CHEMICAL ENGINEERING THERMODYNAMICS","CourseDepartment":"","CourseSemester":"Semester 1","CourseAcadYear":"2014/2015","CourseOpenDate":"/Date(1404662400000+0800)/","CourseOpenDate_js":"2014-07-07T00:00:00","CourseCloseDate":"/Date(1417881540000+0800)/","CourseCloseDate_js":"2014-12-06T23:59:00","CourseMC":"0","isActive":"N","Permission":"S","Creator":{"UserID":null,"Name":"Hong Liang","Email":null,"Title":null,"UserGuid":"04754339-2128-4f4a-929e-f2f4d67979ff","AccountType":null},"hasGradebookItems":false,"hasTimetableItems":true,"hasGroupsItems":false,"hasClassGroupsForSignUp":false,"hasGuestRosterItems":false,"hasClassRosterItems":false,"hasWeblinkItems":false,"hasLecturerItems":true,"hasDescriptionItems":true,"hasReadingItems":false,"hasAnnouncementItems":false,"hasProjectGroupItems":false,"hasProjectGroupsForSignUp":false,"hasConsultationItems":false,"hasConsultationSlotsForSignUp":false,"hasLessonPlanItems":false,"Badge":0,"BadgeAnnouncement":0,"WebLinks":[],"Lecturers":[{"ID":"09b060fe-cef6-4e1b-8cb4-634e758f82e1","User":{"UserID":null,"Name":"Hong Liang","Email":null,"Title":null,"UserGuid":"04754339-2128-4f4a-929e-f2f4d67979ff","AccountType":null},"Role":"Lecturer ","Order":1,"ConsultHrs":null}],"Descriptions":[{"ID":"1e5f053b-8835-4692-be49-41f07234cfff","Title":"Learning Outcomes","Description":" This course aims to impart students the fundamental of thermodynamics from the microscopic perspective of molecular interactions, the origins of enthalpy and entropies, to the macroscopic level that describes the direction of free enegy flow in the form of materials convection and heat transport. The direction of energy flow is governed by the decrease in chemical potential or fugacity. Equipped with this conceptual system, students will possess the thermodynamic thinking that is important in handling complex engineering problems including analysis and solution development.
\r\n","Order":1},{"ID":"2e5f053b-8835-4692-be49-41f07234cfff","Title":"Prerequisites","Description":"Physical chemistry or chemical engineering thermodynamic at undergraduate level. ","Order":2},{"ID":"3e5f053b-8835-4692-be49-41f07234cfff","Title":"Teaching Modes","Description":"Lecture-tutorial","Order":3},{"ID":"5e5f053b-8835-4692-be49-41f07234cfff","Title":"Synopsis","Description":"Chemical engineering thermodynamics mainly deals with mixtures: separation, reaction, and mixing/dissolving, which are related with energy flow and equilibrium problems.
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