Chemical and Biomolecular Engineering Unit Operations Laboratory I

Credit Hours (Minimum if “Range”selected):

2.00

Max Credit Hours:

2.00

Select if Repeatable:

Off

Maximum Repeatable Credits:

1.00

Total Completions Allowed:

(N/A)

Allow Multiple Enrollments in Term:

No

Course Length:

14 weeks (autumn or spring)

12 weeks (summer only)

Off Campus:

Never

Campus Location:

Columbus

Instruction Modes:

(N/A)

Prerequisites and Co-requisites:

Prereq or concur: 2523 (523) and 3610 (610), and enrollment in CBE major.

Electronically Enforced:

No

Exclusions:

Not open to students with credit for 630 or 4630.

Course Goals / Objectives:

Master the application of fundamental concepts from stoichiometry,
thermodynamics, reaction kinetics, and transport phenomena to chemical
engineering unit operations

Be able to design and conduct experiments in the laboratory.

Master the use of modern computational tools to analyze and interpret
the collected data.

Work effectively as a member of a team. Learn skills needed to be a team
leader, including delegating duties and responsibilities.

Prepare high quality written reports and oral presentations to summarize
a project in a professional and informative manner.

Be familiar with safety issues important in the chemical industry,
including laboratory safety protocols, material safety data sheets (MSDS),
and proper handling, storage, and disposal of chemicals.

Become familiar with process flow simulators (ChemCAD) and master the
ability to theoretically simulate the performance of the unit operation
tested ( including estimating capital and utility costs)

Be able to compare results obtained with literature references

Become familiar with the fundamentals of statistical data analysis
(ANOVA, Regression Models, 2k Factorial Design, Response Surface
Methodology for Optimization of Experiments)

Become familiar with pilot scale and commercial scale instrumentation to
measure flow, pressure, velocity, concentration, pH, temperature,
conductivity, solubility, as well as fluid movers, such as pumps,
compressors, fans, and blowers

Become familiar with applications of process control systems

Become familiar with basic principles of solving process problems in a
plant setting

Master fundamental principles of mass transfer equipment, with emphasis
on distillation, absorption, and two-phase mixing dynamics

Become familiar with basic principles of Emergency Vents

Gain an appreciation for the complexity of chemical processes and the
need for continuous learning in a practicing engineer's career.

Check if concurrence sought:

No

Contact Hours:

(N/A)

Grading Plan:

Letter Grade

Course Components:

Lecture

Lab

Grade Roster Component:

Lab

Credit by Exam (EM):

No

Grades Breakdown:

Grades Breakdown
Aspect	Percent
No Grade Breakdown Entered.

Representative Textbooks and Other Course Materials:

Title	Author	Year
No Textbooks and Other Course Materials Entered.

ABET-CAC Criterion 3 Outcomes:

(N/A)

ABET-ETAC Criterion 3 Outcomes:

(N/A)

ABET-EAC Criterion 3 Outcomes:

(N/A)

Embedded Literacies Info:

Attachments:

(N/A)

Additional Notes or Comments:

(N/A)

Basic Course Overview:

CBE_3631_basic.pdf (10.99 KB)

Chemical and Biomolecular Engineering Unit Operations Laboratory I

CBE 3631

Description / Conditions.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Course Detail.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Course Goals and Learning Objectives.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

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ABET Student Learning Outcomes.a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

Embedded Literacies (UG courses only).a,.b{fill:#c2c2c2;}.b{opacity:0;}single-arrow-square

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