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Mass and energy balance calculations are the essential parts of the solution of many complex chemical engineering problems. They assist in the planning and design of processes, in the economic evaluation of the proposed and existing processes, in process control, and in process optimization. In this course, students will learn a systematic procedure for solving mass and energy balance problems including drawing and labelling for a flowchart, performing a degree-of-freedom analysis, making appropriate chemical engineering assumptions etc. Students will be able to analytically examine and predict the mass and energy balances around single or multiple unit operation(s) involving gases and liquids, recycle, bypass or purge streams with or without chemical reactions.
Mass Balances (Dr. Alex Yip)- Basic Mass Balance Principles- Units conversion, mass/molar/volumetric flowrates, mass/mole fractions, total and component balances- Steady-state/unsteady-state, batch/continuous processes- Tie element, basis for calculation, flowchart labelling- Independent mass balance equations and Degree-of-Freedom analysis- Steps for solving mass balance problems- Mass balance without chemical reactions- Mass balance with chemical reaction- Mass balance with chemical reaction – combustion reactionEnergy Balances (Dr. Luke Schneider)- Energy conservation and balance equations- Energy balances involving temperature change- Energy balances involving phase changes and steam- Energy balances involving reactions (isothermal and non-isothermal)
Subject to approval of the Dean of Engineering and Forestry.
Students must attend one activity from each section.
Course RequirementsLectures: Three times a week. Workload Attendance at all lectures is highly encouraged. Completion of all assignments, tests, and exams is required.
Concerns Students with concerns about the course should contact any of the lecturers listed above. General enquiries about the First Professional Year (200-level) study should contact the 1st Pro Director of Studies (Assoc. Prof. Ken Morison).
COURSE POLICY ON COLLABORATION AND CHEATING Solving problems in small teams and collaborative learning when working on assignments is encouraged. However direct copying is plagiarism and will result in zero marks for all students involved. When assessment is distributed, you will be instructed whether the assessment is to be submitted for marking individually or as part of a pair/group. The assignments are mainly a tool to prepare you for the exams. The advice is to try them individually before collaborating in groups.
Felder, Richard M.,1939- , Rousseau, Ronald W;
Elementary principles of chemical processes;
3rd ed., 2005 ed. with integrated media and study tools;
Smith, J. M.1916-2009. , Van Ness, H. C., Abbott, Michael M;
Introduction to chemical engineering thermodynamics;
General Policies of the DepartmentStudents may obtain the general policies of the University on matters such as the special considerations applications, appeals procedures, reconsideration of grades and special provision for students with disabilities from the University Calendar. The Departmental assessment details are distributed to the students at the beginning of the year.
This is a compulsory course which provides a basis for many other courses in chemical engineering.
Mass Balance Assignment 1: 10% (Due on 22 March) Mass Balance Assignment 2: 10% (Due on 3 May) Energy Balance Assignment 1: 10% (TBA)Energy Balance Assignment 2: 10% (TBA)Final Exam: Mass Balance (30%); Energy Balance (30%)
Domestic fee $956.00
International fee $5,250.00
* Fees include New Zealand GST and do not include any programme level discount or additional course related expenses.
For further information see
Chemical and Process Engineering.