Chemical Engineering (BS): Honors Concentration
The Honors Program allows students to gain a deeper understanding of chemical engineering principles than would be acquired by completing the standard CHE curriculum. Admission to the program requires students to have earned a minimum overall GPA of 3.5 and a minimum GPA of 3.5 in 唬晨楚泭205 Chemical Process Principles and 唬晨楚泭225 Introduction to Chemical Engineering Analysis. An honors thesis based on a supervised research experience and completion of at least one semester of faculty-supervised research are required for completion of the Honors Program.
Plan Requirements
| First Year | ||
|---|---|---|
| Fall Semester | Hours | |
| 唬晨泭101 or 唬晨泭103 | Chemistry - A Molecular Science 1 or General Chemistry I for Students in Chemical Sciences | 3 |
| 唬晨泭102 or 唬晨泭104 | General Chemistry Laboratory 1 or General Chemistry Laboratory I for Students in Chemical Sciences | 1 |
| 楚泭101 | Introduction to Engineering & Problem Solving 2 | 1 |
| 楚泭115 | Introduction to Computing Environments | 1 |
| 紼插泭141 | Calculus I 1 | 4 |
| 楚捧勞泭101 | Academic Writing and Research 2 | 4 |
| 泭 | Hours | 14 |
| Spring Semester | ||
| CH泭201 or CH泭203 | Chemistry - A Quantitative Science 2 or General Chemistry II for Students in Chemical Sciences | 3 |
| CH泭202 or CH泭204 | Quantitative Chemistry Laboratory 2 or General Chemistry Laboratory II for Students in Chemical Sciences | 1 |
| MA泭241 | Calculus II 1 | 4 |
| PY泭205 &泭PY泭206 | Physics for Engineers and Scientists I and Physics for Engineers and Scientists I Laboratory 1 | 4 |
| Select one of the following Economics Courses: | 3 | |
| Introduction to Agricultural & Resource Economics | ||
| Introduction to Agricultural & Resource Economics | ||
| Principles of Microeconomics | ||
| Fundamentals of Economics | ||
| E泭102 | Engineering in the 21st Century | 2 |
| 泭 | Hours | 17 |
| Second Year | ||
| Fall Semester | ||
| CH泭221 or CH泭225 | Organic Chemistry I 2 or Organic Chemistry I for Students in Chemical Sciences | 3 |
| CH泭222 or CH泭226 | Organic Chemistry I Lab 2 or Organic Chemistry Laboratory I for Students in Chemical Sciences | 1 |
| 唬晨楚泭205 | Chemical Process Principles 2 | 4 |
| MA泭242 | Calculus III 2 | 4 |
| 泭 | Hours | 12 |
| Spring Semester | ||
| CH泭223 or CH泭227 | Organic Chemistry II or Organic Chemistry II for Students in Chemical Sciences | 3 |
| CH泭224 or CH泭228 | Organic Chemistry II Lab or Organic Chemistry Laboratory II for Students in Chemical Sciences | 1 |
| 唬晨楚泭225 | Introduction to Chemical Engineering Analysis 2 | 3 |
| MA泭341 | Applied Differential Equations I 2 | 3 |
| PY泭208 &泭PY泭209 | Physics for Engineers and Scientists II and Physics for Engineers and Scientists II Laboratory | 4 |
| 泭 | Hours | 14 |
| Third Year | ||
| Fall Semester | ||
| CH泭315 &泭CH泭316 | Quantitative Analysis and Quantitative Analysis Laboratory | 4 |
| CHE泭311 | Transport Processes I 2 | 3 |
| CHE泭315 | Chemical Process Thermodynamics 2 | 3 |
| Select one of the following Mathematics Electives: | 3 | |
| Applied Differential Equations II | ||
| Mathematics of Scientific Computing | ||
| Introduction to Linear Algebra | ||
| Introduction to Numerical Analysis I | ||
| Advanced Mathematics for Engineers and Scientists I | ||
| CHE泭395 | Professional Development Seminar | 1 |
| 泭 | Hours | 14 |
| Spring Semester | ||
| Select one of the following Chemistry Electives: | 4 | |
| Chemistry of Polymeric Materials Laboratory | ||
| General Biochemistry | ||
| Principles of Biochemistry | ||
| Physical Chemistry for Engineers | ||
| Special Topics In Chemistry | ||
| Introductory Biology: Cellular and Molecular Biology | ||
| Chemistry of Food and Bioprocessed Materials | ||
| CHE泭312 | Transport Processes II | 3 |
| CHE泭316 | Thermodynamics of Chemical and Phase Equilibria | 3 |
| CHE泭330 | Chemical Engineering Lab I | 4 |
| ENG泭333 | Communication for Science and Research | 3 |
| 泭 | Hours | 17 |
| Fourth Year | ||
| Fall Semester | ||
| CHE泭446 | Design and Analysis of Chemical Reactors | 3 |
| CHE泭450 | Chemical Engineering Design I | 3 |
| CHE泭497 | Chemical Engineering Projects I | 3 |
| Select one of the following: | 3 | |
| Chemical Engineering Process Modeling | ||
| Thermodynamics I | ||
| Transport Phenomena | ||
| Chemical Reaction Engineering | ||
| 泭 | Hours | 12 |
| Spring Semester | ||
| CHE泭435 | Process Systems Analysis and Control | 3 |
| CHE泭451 | Chemical Engineering Design II | 3 |
| Honors Elective | 3 | |
| CHE泭495 | Honors Thesis Preparation | 1 |
| 泭 | Hours | 10 |
| 泭 | Total Hours | 110 |
- 1
A grade of C or higher is required.
- 2
A grade of C- or higher is required.
| Code | Title | Hours | Counts towards |
|---|---|---|---|
| GEP Courses | |||
| GEP Humanities | 6 | ||
| GEP Social Sciences | 3 | ||
| GEP Health and Exercise Studies | 2 | ||
| GEP Elective | 3 | ||
| GEP Interdisciplinary Perspectives | 3 | ||
| GEP Global Knowledge (verify requirement) | |||
| World Language Proficiency (verify requirement) | |||
| Total Hours | 17 | ||
Honors Electives
| Code | Title | Hours | Counts towards |
|---|---|---|---|
| CHE 460/560 | Chemical Processing of Electronic Materials | 3 | |
| CHE泭461 | Polymer Sciences and Technology | 3 | |
| CHE 462/562 | Fundamentals of Bio-Nanotechnology | 3 | |
| CHE 463/563 | Fermentation of Recombinant Microorganisms | 2 | |
| CHE泭465 | Colloidal and Nanoscale Engineering | 3 | |
| CHE泭467 | Polymer Rheology | 3 | |
| CHE 468/568 | Conventional and Emerging Nanomanufacturing Techniques and Their Applications in Nanosystems | 3 | |
| CHE 475/575 | Advances in Pollution Prevention: Environmental Management for the Future | 3 | |
| CHE泭488 | Animal Cell Culture Engineering | 2 | |
| CHE泭495 | Honors Thesis Preparation | 1 | |
| CHE泭497 | Chemical Engineering Projects I | 3 | |
| CHE泭498 | Chemical Engineering Projects II | 1-3 | |
| CHE泭525 | Process System Analysis and Control | 3 | |
| CHE泭543 | Polymer Science and Technology | 3 | |
| CHE泭546 | Design and Analysis of Chemical Reactors | 3 | |
| CHE泭551 | Biochemical Engineering | 3 | |
| CHE泭577 | Advanced Biomanufacturing and Biocatalysis | 3 | |
| CHE泭596 | Special Topics in Chemical Engineering | 1-3 | |
| CHE泭597 | Chemical Engineering Projects | 1-3 | |
| CHE泭711 | Chemical Engineering Process Modeling | 3 | |
| CHE泭713 | Thermodynamics I | 3 | |
| CHE泭715 | Transport Phenomena | 3 | |
| CHE泭717 | Chemical Reaction Engineering | 3 | |
| CHE泭718 | Advanced Chemical Reaction Engineering | 3 | |
| CHE泭719 | Electrochemical Systems Analysis | 3 | |
| CHE泭752 | Separation Processes For Biological Materials | 3 | |
| CHE泭761 | Polymer Blends and Alloys | 3 | |
| CHE泭796 | Special Topics In Chemical Engineering | 1-6 | |
| CHE泭797 | Chemical Engineering Projects | 1-3 | |
| CHE泭798 | Advanced Chemical Engineering Projects | 1-3 |
Semester Sequence
This is a sample.
| First Year | ||
|---|---|---|
| Fall Semester | Hours | |
| 唬晨泭101 &泭唬晨泭102 | Chemistry - A Molecular Science and General Chemistry Laboratory 1,2 | 4 |
| 楚泭101 | Introduction to Engineering & Problem Solving 3 | 1 |
| 楚泭115 | Introduction to Computing Environments | 1 |
| 楚捧勞泭101 | Academic Writing and Research 3 | 4 |
| 紼插泭141 | Calculus I 1 | 4 |
| GEP Health and Exercise Studies | 1 | |
| 泭 | Hours | 15 |
| Spring Semester | ||
| CH泭201 &泭CH泭202 | Chemistry - A Quantitative Science and Quantitative Chemistry Laboratory 2,3 | 4 |
| MA泭241 | Calculus II 1 | 4 |
| PY泭205 &泭PY泭206 | Physics for Engineers and Scientists I and Physics for Engineers and Scientists I Laboratory 1 | 4 |
| Select one of the following: | 3 | |
| Fundamentals of Economics | ||
| Principles of Microeconomics | ||
| Introduction to Agricultural & Resource Economics | ||
| GEP Health and Exercise Studies | 1 | |
| E泭102 | Engineering in the 21st Century | 2 |
| 泭 | Hours | 18 |
| Second Year | ||
| Fall Semester | ||
| CH泭221 &泭CH泭222 | Organic Chemistry I and Organic Chemistry I Lab 3,4 | 4 |
| 唬晨楚泭205 | Chemical Process Principles 3 | 4 |
| MA泭242 | Calculus III 3 | 4 |
| GEP Requirement | 3 | |
| 泭 | Hours | 15 |
| Spring Semester | ||
| CH泭223 &泭CH泭224 | Organic Chemistry II and Organic Chemistry II Lab 4 | 4 |
| PY泭208 &泭PY泭209 | Physics for Engineers and Scientists II and Physics for Engineers and Scientists II Laboratory | 4 |
| 唬晨楚泭225 | Introduction to Chemical Engineering Analysis 3 | 3 |
| MA泭341 | Applied Differential Equations I 3 | 3 |
| GEP Requirement | 3 | |
| 泭 | Hours | 17 |
| Third Year | ||
| Fall Semester | ||
| CH泭315 &泭CHE泭316 | Quantitative Analysis and Thermodynamics of Chemical and Phase Equilibria | 4 |
| CHE泭311 | Transport Processes I | 3 |
| CHE泭315 | Chemical Process Thermodynamics | 3 |
| Select one of the following Mathematics Electives: | 3 | |
| Applied Differential Equations II | ||
| Mathematics of Scientific Computing | ||
| Introduction to Linear Algebra | ||
| Introduction to Numerical Analysis I | ||
| Advanced Mathematics for Engineers and Scientists I | ||
| GEP Requirement | 3 | |
| CHE泭395 | Professional Development Seminar | 1 |
| 泭 | Hours | 17 |
| Spring Semester | ||
| Select one of the following Chemistry Electives: | 4 | |
| Chemistry of Polymeric Materials Laboratory | ||
| General Biochemistry | ||
| Principles of Biochemistry | ||
| Physical Chemistry for Engineers | ||
| Special Topics In Chemistry | ||
| Introductory Biology: Cellular and Molecular Biology | ||
| Chemistry of Food and Bioprocessed Materials | ||
| CHE泭312 | Transport Processes II | 3 |
| CHE泭316 | Thermodynamics of Chemical and Phase Equilibria | 3 |
| CHE泭330 | Chemical Engineering Lab I | 4 |
| ENG泭333 | Communication for Science and Research | 3 |
| 泭 | Hours | 17 |
| Fourth Year | ||
| Fall Semester | ||
| CHE泭497 | Chemical Engineering Projects I | 3 |
| CHE泭446 | Design and Analysis of Chemical Reactors | 3 |
| CHE泭450 | Chemical Engineering Design I | 3 |
| Select one of the following CHE Electives: | 3 | |
| Chemical Engineering Process Modeling | ||
| Thermodynamics I | ||
| Transport Phenomena | ||
| Chemical Reaction Engineering | ||
| GEP Requirement | 3 | |
| 泭 | Hours | 15 |
| Spring Semester | ||
| CHE泭435 | Process Systems Analysis and Control | 3 |
| CHE泭451 | Chemical Engineering Design II | 3 |
| Honors Elective 5 | 3 | |
| GEP Requirement | 3 | |
| CHE泭495 | Honors Thesis Preparation 6 | 1 |
| 泭 | Hours | 13 |
| 泭 | Total Hours | 127 |
- 1
Grade of C (2.0) or higher is required.
- 2
唬晨泭103 General Chemistry I for Students in Chemical Sciences/唬晨泭104 General Chemistry Laboratory I for Students in Chemical Sciences may substitute for 唬晨泭101 Chemistry - A Molecular Science/唬晨泭102 General Chemistry Laboratory and CH泭203 General Chemistry II for Students in Chemical Sciences/CH泭204 General Chemistry Laboratory II for Students in Chemical Sciences may substitute for CH泭201 Chemistry - A Quantitative Science/CH泭202 Quantitative Chemistry Laboratory
- 3
Minimum grade of C- required.
- 4
CH泭225 Organic Chemistry I for Students in Chemical Sciences/CH泭226 Organic Chemistry Laboratory I for Students in Chemical Sciences may substitute for CH泭221 Organic Chemistry I/CH泭222 Organic Chemistry I Lab and CH泭227 Organic Chemistry II for Students in Chemical Sciences/CH泭228 Organic Chemistry Laboratory II for Students in Chemical Sciences may substitute for CH泭223 Organic Chemistry II/CH泭224 Organic Chemistry II Lab.
- 5
Honors electives include CHE泭460 Chemical Processing of Electronic Materials and above, CHE 5xx, CHE 7xx.
- 6
An honors thesis is required for completion of the Honors Program.
Career Opportunities
Careers in chemical engineering are sometimes exciting, always demanding, and ultimately provide a sense of accomplishment and achievement. Graduates find employment in sub-disciplines such as production, technical service, sales, management and administration; research and development; and consulting and teaching. Students desiring careers in teaching, research, or consulting are encouraged to continue their education and pursue a graduate degree (consult the Graduate Catalog). The undergraduate curriculum also provides strong preparation for graduate study in a wide range of professional specialties, and chemical engineering graduates often pursue careers in the medical sciences, business management, and law.
Career Titles
- Agricultural Engineer
- Automotive Engineer
- Biochemist
- Biomedical Engineer
- Chemical Engineer
- Chemist
- Dairy Technologist
- Electronics Engineer
- Engineering Professor
- Environmental Engineer
- Fire Prevention Engineer
- Industrial Air Pollution Analyst
- Industrial Waste Inspector
- Laboratory Tester
- Materials Engineer
- Materials Scientist
- Nanosystems Engineers
- Non-Destructive Testing Specialists
- Nuclear Engineer
- Nuclear Fuels Research Engineer
- Occupational Safety & Health Inspector
- Perfumer
- Petroleum Engineer
- Physicist
- Physics Professor
- Product Safety Engineer
- Quality Control Managers
- Radiation Protection Engineer
- Safety Inspector
- Sales Engineers
- Sales Representative (Chemicals & Drugs)
- Soil Engineer
- Solar Energy Systems Engineers
- Sustainability Specialists
- Toxicologist
- Water/Wastewater Engineers
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