Chemical and Biomolecular Engineering
Department Office: 114 Roger Adams Laboratory, 600 South Mathews, Urbana, (217) 333-3640
Chemical and Biomolecular Engineering
Students may pursue chemical engineering by one of two concentrations (Chemical Engineering concentration or Biomolecular Engineering concentration).
The chemical engineering concentration is designed to prepare students for careers in the chemical, food, energy, pharmaceutical, semiconductor processing, personal care, fiber and materials industries where chemical processes are coupled with heat, mass, and momentum transfer. The Biomolecular Engineering concentration builds upon the traditional principles of chemical engineering, but specializes in biological and biotechnological systems in order to better prepare students who seek employment in the food, pharmaceutical, and biotechnology industries.
The curriculum is arranged in a flexible manner to permit students to use their elective hours and to substitute courses in order to arrange programs incorporating various specific areas of chemical engineering or interdisciplinary areas. For example, sequences can be set up in conjunction with the student's adviser to emphasize environmental engineering, bioengineering, food science, computer science, or one of many other concentrations. It will be advantageous to the student to plan course sequences with an adviser as early in the student's academic career as possible.
The program emphasizes fundamentals required to develop models for the design, control, and operation of chemical processes. Students entering without adequate preparation in mathematics and chemistry may find it difficult to complete the chemical engineering curriculum in four years. A typical program, including all required courses and electives, is shown below. Individual students may vary the order in which the various courses are taken to suit their individual needs. However, care must be exercised in scheduling to ensure that necessary course prerequisites are met.
Major in Specialized Curriculum in Chemical Engineering
Students must select one concentration.
Chemical Engineering Concentration
E-mail: chemeng@illinois.edu
Degree title: Bachelor of Science in Chemical Engineering
Students in the curriculum of chemical engineering must maintain a 2.5 general average, excluding military training in order to be accepted by the department as juniors and seniors.
For information regarding the cooperative education program and internships in the School of Chemical Sciences, see the Chemistry major in the Science and Letters curriculum.
General education: All campus general education requirements must be satisfied.
Minimum hours required for graduation: 129 hours including 16 hours of approved general education courses. Departmental distinction: A student is recommended for departmental distinction on the basis of grade point average and work presented in CHBE 499-Senior Thesis.
Students will have the choice of selecting the Biomolecular Engineering concentration at any time.
First Year
| Hours | First Semester |
|---|---|
| 3 | CHEM 2021 - Accelerated Chemistry I |
| 2 | CHEM 203 - Accelerated Chemistry Lab I |
| 4 | MATH 221 - Calculus I2 |
| 4 | RHET 105 or 108 - Composition I writing requirement |
| 3 | Elective3,4,5 |
| 16 | Total |
| Hours | Second Semester |
|---|---|
| 1 | CHBE 121 - CHBE Profession |
| 3 | CHEM 204 - Accelerated Chemistry II |
| 2 | CHEM 205 - Accelerated Chemistry Lab II |
| 3 | CS 101 - Intro to Computing, Eng & Sci |
| 3 | MATH 231 - Calculus II |
| 4 | PHYS 211 - Univ Physics, Mechanics |
| 16 | Total |
Second Year
| Hours | First Semester |
|---|---|
| 3 | CHBE 221 - Principles of CHE |
| 4 | CHEM 236 - Fundamental Organic Chem I |
| 2 | CHEM 237 - Structure and Synthesis |
| 4 | MATH 241 - Calculus III |
| 4 | PHYS 212 - Univ Physics, Elec & Mag |
| 17 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 321 - Thermodynamics |
| 3 | CHEM 4366 - Fundamental Organic Chem II |
| 3 | MATH 415 - Linear Algebra7 |
| 3 | MATH 2858 - Intro Differential Equations |
| 2 | PHYS 214 - Univ Physics, Quantum Phys |
| 3 | Electives3,4,5 |
| 18 | Total |
Third Year
| Hours | First Semester |
|---|---|
| 4 | CHBE 421 - Momentum and Heat Transfer |
| 2 | CHEM 315 - Instrumental Chem Systems Lab |
| 2 | CHEM 420 - Instrumental Characterization |
| 4 | CHEM 442 - Physical Chemistry I |
| 3 | Electives3,4,5 |
| 15 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 422 - Mass Transfer Operations |
| 4 | CHEM 444 - Physical Chemistry II |
| 3 | CHBE 424 - Chemical Reaction Engineering |
| 6 | Electives3,4,5 |
| 17 | Total |
Fourth Year
| Hours | First Semester |
|---|---|
| 4 | CHBE 430 - Unit Operations Laboratory |
| 3 | CHBE 440 - Process Control and Dynamics |
| 8 | Electives3,4,5 |
| 15 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 431 - Process Design |
| 11 | Electives3,4,5 |
| 15 | Total |
1.Students who do not place into CHEM 202, or who do not satisfy the mathematics prerequisite for CHEM 202, may substitute the sequence CHEM 102, 103, 104, 105, 222, and 223 for CHEM 202, 203, 204, and 205.
2. MATH 220-Calculus may be substituted, with four of the five credit hours applying toward the degree. MATH 220 is appropriate for students with no background in calculus.
3. All Campus General Education requirements must be satisfied, including those in approved course work in the Humanities/Arts, Social/Behavioral Sciences, and Cultural Studies, including the Western, Non-Western and/or U.S. Minorities components. The requirements for the Campus General Education categories Natural Sciences/Technology, Quantitative Reasoning I and II, and Composition I and II are fulfilled through required course work in the curriculum.
4. Three semesters of college credit in one foreign language is required. Three years of high school credit in one foreign language are equivalent to three semesters of college credit.
5. Students must take at least 18 hours of approved technical electives in areas of engineering science. Students may obtain a current list of courses that may be used to satisfy this requirement in Room 209 RAL. Distribution requirements for these 18 hours are:
- a) At least 9 hours must be in 400-level courses.
- b) At least 6 hours must be in 400-level chemical engineering courses.
- c) At least 3 hours must be in 400-level chemical engineering courses other than CHBE 497 and CHBE 499.
- d) One course must be IE 300 or STAT 400.
6. MCB 450 may be substituted for CHEM 436.
7. Students who have taken MATH 225 (2 hours) and will take CHBE 440 (3 hours), will need to take an additional hour from the Technical Elective list.
8. MATH 441 may be substituted for MATH 385. MATH 386 (4 hours) may be substituted for MATH 385. The additional credit hour earned for MATH 386 will be counted as a technical elective hour.
Biomolecular Engineering Concentration
E-mail: chemeng@illinois.edu
Degree title: Bachelor of Science in Chemical Engineering
Students in the Biomolecular Engineering concentration must maintain a 2.5 cumulative grade-point average, excluding military training in order to be accepted by the department with junior and senior level standing.
For information regarding the cooperative education program and internships in the School of Chemical Sciences, see the Chemistry major in the Science and Letters curriculum.
General education: All campus general education requirements must be satisfied.
Minimum hours required for graduation: 130 hours including 16 hours of approved general education electives.
Departmental distinction: A student is recommended for departmental distinction on the basis of grade point average and work presented in CHBE 499-Senior Thesis.
Students will have the choice of selecting the Chemical Engineering concentration at any time.
First Year
| Hours | First Semester |
|---|---|
| 3 | CHEM 2021 - Accelerated Chemistry I |
| 2 | CHEM 203 - Accelerated Chemistry Lab I |
| 4 | MATH 221 - Calculus I2 |
| 4 | RHET 105 or 108 - Composition I writing requirement |
| 3 | Elective3,4,5 |
| 16 | Total |
| Hours | Second Semester |
|---|---|
| 1 | CHBE 121 - CHBE Profession |
| 3 | CHEM 204 - Accelerated Chemistry II |
| 2 | CHEM 205 - Accelerated Chemistry Lab II |
| 3 | CS 101 - Intro to Computing, Eng & Sci |
| 3 | MATH 231 - Calculus II |
| 4 | PHYS 211 - Univ Physics, Mechanics |
| 16 | Total |
Second Year
| Hours | First Semester |
|---|---|
| 3 | CHBE 221 - Principles of CHE |
| 4 | CHEM 236 - Fundamental Organic Chem I |
| 2 | CHEM 237 - Structure and Synthesis |
| 4 | MATH 241 - Calculus III |
| 4 | PHYS 212 - Univ Physics, Elec & Mag |
| 17 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 321 - Thermodynamics |
| 3 | MCB 450-Introductory Biochemistry |
| 3 | MATH 4156 - Linear Algebra |
| 3 | MATH 2857 - Intro Differential Equations |
| 2 | PHYS 214 - Univ Physics, Quantum Phys |
| 3 | Electives3,4,5 |
| 18 | Total |
Third Year
| Hours | First Semester |
|---|---|
| 4 | CHBE 421 - Momentum and Heat Transfer |
| 2 | CHEM 315 - Instrumental Chem Lab |
| 2 | CHEM 420 - Instrumental Characterization |
| 4 | CHEM 442 - Physical Chemistry I |
| 3 | Electives3,4,5 |
| 15 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 422 - Mass Transfer Operations |
| 4 | CHEM 444 - Physical Chemistry II |
| 3 | CHBE 424 - Chemical Reaction Engineering |
| 6 | Electives3,4,5 |
| 17 | Total |
Fourth Year
| Hours | First Semester |
|---|---|
| 4 | CHBE 430 - Unit Operations Laboratory |
| 3 | CHBE 440 - Process Control and Dynamics |
| 8 | Electives3,4,5 |
| 3 | Biomolecular Engineering Elective9 |
| 16 | Total |
| Hours | Second Semester |
|---|---|
| 4 | CHBE 431 - Process Design |
| 8 | Electives3,4,5 |
| 3 | Biomolecular Engineering Elective8 |
| 15 | Total |
1. Students who do not place into CHEM 202, or who do not satisfy the mathematics prerequisite for CHEM 202, may substitute the sequence CHEM 102, 103, 104, 105, 222, and 223 for CHEM 202, 203, 204, and 205.
2. MATH 220-Calculus may be substituted, with four of the five credit hours applying toward the degree. MATH 220 is appropriate for students with no background in calculus.
3. All Campus General Education requirements must be satisfied, including those in approved course work in the Humanities/Arts, Social/Behavioral Sciences, and Cultural Studies, including the Western, Non-Western and/or U.S. Minorities components. The requirements for the Campus General Education categories Natural Sciences/Technology, Quantitative Reasoning I and II, and Composition I and II are fulfilled through required course work in the curriculum.
4. Three semesters of college credit in one foreign language is required. Three years of high school credit in one foreign language are equivalent to three semesters of college credit.
5. Students must take at least 9 hours of technical electives in areas of engineering science. At least 6 hours must be from the list of Bio-technical Electives. One course must be IE 300 or STAT 400. Students may obtain a current list of courses that may be used to satisfy this requirement in Room 209 RAL.
6. Students who have taken MATH 225 (2 hours) and will take CHBE 440 (3 hours), will need to take an additional hour from the Technical Elective list.
7. MATH 441 may be substituted for MATH 385. MATH 386 (4 hours) may be substituted for MATH 385. The additional credit hour earned for MATH 386 will be counted as a technical elective hour.
8. Students must take at least three "Biomolecular Engineering" courses offered by the Department of Chemical and Biomolecular Engineering (for example, including CHBE 471, 472, 473, and 474). Students may not count both CHBE 472 and 473 toward meeting this requirement.
Minor in Biomolecular Engineering
www.scs.uiuc.edu/chem_eng
Biomolecular Engineering is a broad, interdisciplinary field with its main goal of engineering value-added biomolecules and biomolecular systems for applications in medical, chemical, agricultural and food industries. Its practice ranges from fundamental study of biomolecules and biomolecular systems to the design of cellular factories and artificial organs. The Biomolecular Engineering minor is designed to better prepare non-chemical engineering students for careers in the food, pharmaceutical, personal care, and biotechnology industries. This minor is not open to students majoring in chemical engineering. Those students should instead take the biomolecular engineering concentration if they are interested in biomolecular engineering coursework.
Students may fulfill the requirements for a minor in biomolecular engineering by completing the following course sequence. For further information, please contact the Department of Chemical and Biomolecular Engineering.
| Hours | Required Courses |
|---|---|
| 3 | MCB 450-Introductory Biochemistry |
| 3 | CHBE 221-Principles of Chemical Engineering |
| 3 | CHEM 232-Elementary Organic Chemistry I |
| 9 | Biomolecular Engeering Electives1 |
| 3 | Technical Electives2 |
| 21 | Total |
1. Students must take at least three "Biomolecular Engineering" courses offered by the Department of Chemical and Biomolecular Engineering (for example, including CHBE 471, 472, 473, and 474). Students may obtain a current list of courses that may be used to satisfy this requirement in Room 209 RAL.
2. Course to be selected from a departmentally approved list of biomolecular engineering related technical electives.
For more information regarding to the Biomolecular Engineering minor, contact the Chemical and Biomolecular Engineering Department Office, 209 Roger Adams Laboratory, (217) 333-1050, debe@illinois.edu