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Chemical Engineering

CHEE330

CHEE330 : Heat and Mass Transfer

Personnel

Instructor

Dominik BarzDupuis 213barzd@queensu.ca613-533-6000 x 79470

TAs

Rutendo MutambanengweDupuis B1615rlm3@queensu.ca
Ali KhazaeliDupuis 23915ak52@queensu.ca
Mahmoud KhademiDupuis 23914mk57@queensu.ca

Course Description

This course follows a unified approach to introduce the physical origins and rate equations of heat and mass transfer. The principal topics covered include identification of the driving forces for heat and mass diffusion, development of transport models from first principles, steady state and transient solutions, and convective transfer. The boundary layer analogies are introduced. Closed form analytical solutions and correlations derived from dimensional analysis are used to estimate the heat and mass transfer convection coefficients. (0/0/0/42/0)

Objectives and Outcomes

The principal objective of the course is to provide the necessary tools to help engineers design and operate processes and unit operations in chemical engineering and engineering chemistry. The students will learn how to identify the fundamental heat and mass transfer mechanisms. The course will teach the concepts and methodology needed to develop mass and energy balances and to simplify them and obtain solutions that are applicable to real problems.

Specific course learning outcomes include:

  1. Identification of mechanisms of heat and mass transfer. Formulation of rate equations.
  2. Development of transport models based on the differential equations of heat and mass transfer and their simplified forms; identification of suitable boundary conditions.
  3. Solutions of the differential equations for steady-state, one-dimensional problems; solutions for non-steady state problems.
  4. Estimation of heat and mass transfer coefficients based on dimensional analysis, boundary layer analysis and similarity between momentum, heat and mass transfer.
  5. Solution of problems involving  convective heat and mass transfer in one phase and two phase systems

This course assesses the following attributes:

Knowledge base for engineering (CLO 1-5):

  • Identify mechanisms of heat transfer and calculate heat transfer rates (CHEE-KB-HT-1)
  • Identify mechanisms of mass transfer and calculate mass transfer rates (CHEE-KB-MT-1)
  • Formulate and solve differential equations of heat transfer to calculate temperature distributions (CHEE-KB-HT-2)
  • Formulate and solve differential equations of mass transfer to calculate concentration distributions (CHEE-KB-MT-2)
  • Solve problems involving convective heat transfer using appropriate correlations (CHEE-KB-HT-3)
  • Solve problems involving convective mass transfer using appropriate correlations (CHEE-KB-MT-3)
  • Formulates and solves ordinary and partial differential equations and integral equations arising in Chemical Engineering using analytical and numerical techniques (CHEE-KB-MATH-2)

Problem analysis: (CLO 2, 3, 4):

  • Creates process for solving problem including qualitative approximations and assumptions to reach substantiated conclusions (CHEE-PA-2)
  • Selects and applies appropriate quantitative models, analyses, and boundary conditions to solve problems (CHEE-PA-3)
  • Applies dimensional analysis to derive relationships among process or system variables (CHEE-PA-4)

Relevance to the Program

This engineering science course covers aspects of heat and mass transfer, which together with fluid mechanics comprise one of the corner stones of chemical engineering and engineering chemistry, the so-called "transport courses". The engineering science skills taught in this course are required for 3rd year courses (CHEE 331/332/333 – Design and scale-up of unit operations, CHEE 323 – Industrial catalysis) and 4th year courses (CHEE 412-Transport Phenomena in Chemical Engineering, CHEE 470-Design of Manufacturing processes, CHEE 442 – Introduction to biomedical engineering).

The course assumes knowledge of 2nd year fluid mechanics and thermodynamics.

Course Structure and Activities

3 lecture hours + 1 tutorial hour per week.  Refer to Solus for times and schedules.

Resources

Mandatory Textbook:  "Heat and Mass Transfer", by Welty, Rorrer and Foster. This custom textbook is available from the campus bookstore in hard copy and e-book formats. It is compiled from the textbook "Fundamentals of Momentum, Heat, and Mass Transfer" by the same authors, 6th edition, published by Wiley in 2015 (Chapters 15-30).  This custom textbook is listed as mandatory. The original textbook is also acceptable. Please note that the 5th edition of the same textbook by Welty, Wicks, Wilson, Rorrer (WWWR) is also acceptable (2008).