Course Outlines and Materials

• APSC 400 Technology, Engineering & Management (TEAM)
• CHEE 209 Analysis of Process Data
• CHEE 210 Thermodynamic Properties of Fluids
• CHEE 218 Laboratory Projects I
• CHEE 221 Chemical Processes and Systems
• CHEE 222 Process Dynamics and Numerical Methods
• CHEE 223 Fluid Mechanics
• CHEE 224 Transport Phenomena Fundamentals
• CHEE 229 Cell Based Engineering Principles
• CHEE 270 ChemEtronics
• CHEE 302 Technical Entrepreneurship
• CHEE 311 Phase and Reaction Equilibrium
• CHEE 315 Laboratory Projects II
• CHEE 319 Process Dynamics and Control
• CHEE 321 Chemical Reaction Engineering
• CHEE 323 Industrial Catalysis
• CHEE 324 Organic Process Development
• CHEE 330 Heat and Mass Transfer
• CHEE 331 Design of Unit Operations
• CHEE 340 Biomedical Engineering
• CHEE 342 Environmental Biotechnology
• CHEE 361 Engineering Communications, Ethics and Professionalism
• CHEE 363 Electrochemical Engineering
• CHEE 371 Mitigation of Industrial Pollution
• CHEE 380 Biochemical Engineering
• CHEE 408 Bioengineering Research Project
• CHEE 410 Engineering Innovation and Entrepreneurship
• CHEE 412 Transport Phenomena
• CHEE 414 Foundation of the Oil & Gas Industry
  
• CHEE415 Engineering Chemistry Laboratory
• CHEE 418 Strategies for Process Investigations
• CHEE 420 Laboratory Projects III
• CHEE 421 Research Project
• CHEE 434 Process Control II (Winter 2022)
• CHEE 440 Pharmaceutical Technology
• CHEE 452 Transport Phenomena in Physiological Systems
• CHEE 460 Applied Surface and Colloid Science
• CHEE 463 Electrochemical Energy Systems
• CHEE 471 Chemical Process Design
• CHEE 484 Bioremediation (NOT OFFERED)
• CHEE 490 Polymer Formulations and Processing Technology

Program Goals and Learning Objectives

In keeping with the vision of the Department of Chemical Engineering, we pursue understanding beyond the limitations of existing knowledge, ideology, and disciplinary structure. We affirm the value to individuals and society of the cultivation and enrichment of the human mind and spirit. Our faculty, students, alumni and staff strive toward these objectives in a context of freedom with responsibility. We foster initiative, integrity and excellence in an environment of collegiality, civility and responsible stewardship.

Our program educational objectives are consistent with the goals of Queen's University and its Engineering Department, and are designed to meet the needs of our constituents: our graduates, the employers of our graduates, the graduate study programs that our graduates enter and society in general.

Objective 1

To teach our students to analyze and design chemical processes that span molecular to macroscopic scales. To this end, objectives of the Chemical Engineering Undergraduate program are to provide students:

• with a solid foundation in basic scientific and engineering principles, while allowing specialization in applied chemistry, environmental and biochemical/biomedical engineering, process control and applied mathematics
• with relevant experience using laboratory experiments and expertise using statistical tools for analyzing process data and designing experiments aimed at improving process operation and product quality
• with up-to-date computer software tools for chemical process simulation, analysis, design and control
• with an appreciation of the importance of economic, safety and environmental objectives in chemical process design optimization and control and that our graduates have the required skills to accomplish these objectives
• with the required design skills, engineering knowledge, communication skills, and exposure to problem-based learning and team-work to function as capable chemical engineers in industry
• with preparation for graduate studies
• with programs that meet the requirements of the Canadian Engineering Accreditation Board

Objective 2

To teach our students the interpersonal skills required in a professional environment. To this end, our students will demonstrate the following:

• Ability to accomplish engineering goals through teamwork
• Ability to lead a team, allocate tasks and assemble results
• Ability to communicate effectively by written, graphical and spoken means

Objective 3

To provide a liberal education in humanities and history. To this end, our students will demonstrate the following:

• Understanding and appreciation of cultural aspects of society
• Ability to assess the impact of engineering solutions in a global and societal context
• Understanding of professional and ethical responsibility of engineering practice
• Knowledge of contemporary issues

Objective 4

To create scholars and professionals. To this end, our students will demonstrate the following:

• Commitment to excellence and integrity
• Confidence in self-instruction as a preparation for life-long learning
• Sense of duty to their professional community