Chemical Engineering Technology

This introductory chemistry course will review and build upon chemistry fundamentals including periodic table trends, stoichiometry and types of chemical reactions, and organic chemistry. Laboratories will focus on basic laboratory techniques as well as complement theory topics by incorporating error analysis, unit conversions, stoichiometry and percent yield calculations. A basic introduction to WHMIS is also included.

This intermediate chemistry course is divided into three major sections: water chemistry, electrochemistry, and organic colloid chemistry. All topics build on material introduced in Engineering Chemistry I, with special emphasis on industrial applications such as galvanic and electrolytic electrochemical cells, galvanic corrosion, industrial polymer chemistry and oil patch oil-water demulsification. Laboratories reflect industrial processes with bench-scale experiments for reaction rate studies, electroplating, corrosion fundamentals, polymer synthesis and basic oil-water emulsification/demulsification.

Pre-requisites:

• CHEM 224

The course emphasizes chemical and engineering systems where reactions take place. Topics include mass and energy balance, phase behaviour of gas vapour mixtures, real gas relationships, combustion, humidification and mixing of solutions. A process simulator is used to illustrate concepts addressed in class.

Pre-requisites:

• THRM 235
• FLDS 255
• MATH 288

Corequsites:

• CHEN 314
• CHEN 309

Equivalents:

• CHEN 301

This course supports previous theory learned in the chemical engineering technology program. In this computer laboratory course, the student will learn to apply the theoretical concepts learned in chemical engineering calculations, heat transfer and mass transfer for the purposes of designing, modeling and optimizing chemical processes, as well as, performing material and energy balances. Once you have taken this course, you will be able to simulate a variety of different chemical processes.

Corequsites:

• CHEN 314
• CHEN 308
• CHEN 313

Equivalents:

• CHEN 304

This course provides an opportunity to apply the principles learned in the program to the operation of a variety of pilot-plant scale chemical process equipment. Topics include: fluid mechanics, pumps, heat exchangers, phase behaviour, compressor simulation and separating mixtures by distillation, gas absorption and evaporation. An important aspect of your laboratory experience will be to develop a safety-conscious work attitude.

Pre-requisites:

• THRM 235
• FLDS 255
• CHEM 264
• MATH 288

Equivalents:

• CHEN 302

This course is an examination of the theory and practice of heat transfer with an emphasis on industrial applications. Topics include: heat transfer mechanisms (conduction, convection and radiation), boiling and condensation, heat exchanger (types, design considerations and operations).

Pre-requisites:

• THRM 235
• FLDS 255
• MATH 288

Corequsites:

• CHEN 309

Equivalents:

• CHEN 306

The course examines both the theory and equipment involved for the separation of solutions and mixtures. Topics include: distillation, absorption, stripping and liquid/liquid extraction. Calculations by hand as well as computer software are used in solving mass transfer related problems.

Corequsites:

• CHEN 308
• CHEN 309

Equivalents:

• CHEN 303

This course focuses on basic instrumentation techniques for chemical analysis in the chemical process industries; analytical equipment in both analytical and process laboratory setting using online equipment. Laboratories focus on chemical analytical instrumentation including ultraviolet/visible and infrared spectrophotometry, atomic absorption, emission, gas chromatography, basic QA/QC principles, air quality monitoring theory and analysis.

Pre-requisites:

• INST 256
• CHEM 264

Professional Communication and Presentation Skills will introduce learners to the professional writing, collaboration and presentation skills needed to be successful in their chosen field. Learners will gain an understanding of the strategies and competencies required for effective communication with an emphasis on developing the interpersonal skills needed to perform as part of a high-functioning team. Coursework will require learners to work in individual and collaborative settings.

Equivalents:

• COMM 265

This practical course on computer functionality and commonly used industry software covers current productivity software to develop industry-specific solutions in the areas of communication and organization, documentation, data management, analysis, and visualization. In addition, file management techniques and best practices; security considerations such as identifying threats, safeguarding data and intellectual property; and digital citizenship and etiquette are also included.

Equivalents:

• BCMP 225

This course is designed to provide students with a general understanding of properties of industrial materials and to provide rational for the selection process. Topics include: properties definition, metallurgy, polymers, ceramics, composites and corrosion.

Pre-requisites:

• CHEM 264

Equivalents:

• EMTL 306

This course emphasizes the interpretation and development of flow diagrams and piping isometrics. The use of ISA instrumentation symbols is emphasized. Topics include: freehand sketching, lettering and linework; AutoCAD theory, special features and syntax; 2-D geometry insertion, manipulation, editing, text, layers, colours, and line types.

This course reviews the application of engineering principles in understanding the environmental issues associated with human activity. Topics include water and wastewater treatment, air pollution control, solid waste management, hazardous waste management, oil spill management, climate change and greenhouse gases management and renewable energy technologies. Design concepts for major treatment processes and control equipment are considered.

Equivalents:

• ENVS 355

This course explores the principles of fluid mechanics as applied to flowing systems in the chemical process industry. Topics include: viscosity, buoyancy, pressure, pump affinity laws and specifications, energy calculations (compressible and incompressible flow) pump power requirements and net positive suction head (NPSH). A major design report on an industrial scale system is completed.

Equivalents:

• FLDS 253

This course explores chemical engineering as a profession with a general overview of industrial technology, processes and equipment. Topics include: chemical engineering as a career, process equipment, environmental impact, professional ethics and safe work practices. Theoretical concepts are reinforced through related lab activities.

An introduction to process measurement and control, explaining how instrumentation and processes interact. These processes could be in any area of study, such as the oil/gas sector, chemical manufacture, agriculture, and mining, building systems or utilities. Areas of study will include measurement and control of variables such as fluid flow, level and pressure. Specific applications to apply the knowledge to design, operate, troubleshoot measurement and control systems.

Equivalents:

• CNTR 252

This course enables the student to apply the basic knowledge of algebra and introductory calculus to resolve applied scientific and technological problems. Applications include linear motion, areas under curves, and volumes of revolution.

Equivalents:

• MATH 235
• MATH 1011

This course enables the student to apply advanced algebra, integral and differential calculus methodologies to scientific and technological applications. Topics include trigonometric and transcendental calculus, methods of integration, specifically integration by parts, by trigonometric substitution, and by use of tables. Applications include linear motion, areas under curves, volumes of revolution, centroids, moments of inertia, and program-relevant applications.

Pre-requisites:

• MATH 238

Equivalents:

• MATH 285

The course will introduce the learner to health and safety fundamentals. Along with personal safety, the learner will be introduced to hazards specific to the oil and gas industry and hazards specific to the use of tools and equipment. From learning about the hazards of hydrocarbons, to information about how to handle and sample hydrocarbons will be covered. Information learned in this course can be applied to many aspects of both work and after work situations.

Equivalents:

• SAFE 280

This course examines the processes and surface equipment used in oil and gas production with an emphasis on compression, separation, dehydration and treating. Whenever possible, the actual types of equipment used in the field will be incorporated into the learning. Theoretical concepts are reinforced through related lab activities.

Learners will be introduced to the fundamentals of project management and its application in industry. The focus of this course is to provide project management skills including planning and management of project scope, time, cost, quality, human resources, communication, risk and procurement. Emphasis is on team building and group work. Project management software will also be evaluated.

Pre-requisites:

• FLDS 255

Equivalents:

• PROJ 399

• CHEN 308
• CHEN 309
• PROJ 327

Equivalents:

• CHEN 311

STAT 245 is an introductory course in data analysis for students in engineering technology programs. Students apply techniques to organize, display, analyze and report data. Outcomes include methods of descriptive and inferential statistics. Students will be exposed to software-based methods in laboratory sessions using industry-grade data. Some advanced topics of analysis are selectable toward the end of the course.

A basic foundation of thermodynamics is provided with an emphasis on the application of thermodynamics to solve practical problems encountered in chemical engineering. Topics include: first and second law of thermodynamics, phase behaviour and thermodynamic properties of pure substances, application of steam tables and Mollier charts. Theoretical concepts are reinforced through related lab activities.

Equivalents:

• THRM 254