Use the Tab and Up, Down arrow keys to select menu items.
An introduction to heat-transfer and mass-transfer operations, further topics in chemical and process thermodynamics.
This course is in three sections: a 14 lecture block on Heat Transfer is taught by Professor Shusheng Pang. Prof Phil Wankat, teaches a 10 lecture block on Mass Transfer and Dr Aaron Marshall has 12 lectures building on the Thermodynamics from ENCH291. Students should gain the following:Heat Transfera) Sufficient understanding of the principles of heat transfer to: Use the electrical analogy to interpret systems involving conduction and convection; Analyse one and two-dimensional steady state conduction problems; Select and apply appropriate correlations for convection heat transfer; Be prepared for the detailed analysis of heat exchangers in the second professional year.Mass Transferb) Appreciation of the role of diffusional processes in the separation of mixtures to include: Brief outline of important chemical engineering separation techniques including distillation, absorption, extraction, leaching, drying, membranes; Outline of Fick’s law for steady state molecular diffusion, diffusivity; The differences between molecular & eddy diffusion; Introduction to the theory of interfacial mass transfer; The definition and use of mass transfer coefficients; Be prepared for more detailed analysis of gas/liquid and liquid/liquid operations in the second professional year.Thermodynamicsc) An understanding of the 2nd Law and its applications, including: Identification of the 1st Law limitations; Development of the second law based on the heat engine; The entropy balance based on real-world observations; Liquid-Vapour cycles, heat engines, heat pumps / refrigeration technology; Maximum efficiency and lost work; Statistical thermodynamics and entropy; Be prepared for advanced thermodynamics in second professional year.Relation to Other CoursesThis paper provides essential background for ENCH393 (Fluid Mechanics and Heat Transfer), ENCH396 (Chemical Engineering Separations 1) and ENCH392 (Thermodynamics and Chemical Reaction Engineering).
Subject to approval of the Dean of Engineering and Forestry.
Aaron Marshall and Shusheng Pang
Cussler, E. L; Diffusion : mass transfer in fluid systems ; 2nd ed; Cambridge University Press, 1997.
Mills, Anthony F; Basic heat and mass transfer ; 2nd ed; Prentice Hall, 1999.
ConcernsStudents with concerns about the course should contact any of the teachers listed above, the 1st Pro Director of Studies, or the Head of Department.General Policies of the DepartmentStudents may obtain the general policies of the University on matters such as the aegrotat applications, appeal procedures, reconsideration of grades, plagiarism and special provision for students with disabilities from the University Calendar. The Departmental assessment details are distributed to students at the beginning of the new semester.
Workload Attendance at all lectures, submission of all laboratories, assignments, completion of directed reading, writing of personal lecture notes, practice of problem solving from past examination papers and from the recommended texts, revision and preparation for end of year exam. Course Requirements Completion of laboratories, assignments and final-year examination. A satisfactory report must be submitted for all laboratory experiments to obtain a pass in the course.
Domestic fee $777.00
International fee $4,375.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Chemical and Process Engineering .