Chemical Engineering (BS): Sustainable Engineering, Energy, and the Environment
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The Sustainable Engineering, Energy, and Environment Concentration connects chemical engineering concepts with global grand challenges in the generation of clean and affordable energy, as well as sustainable and environmentally responsible engineering practices.
Plan Requirements
| First Year | ||
|---|---|---|
| Fall Semester | Hours | |
| °ä±áÌý101 or °ä±áÌý103 | Chemistry - A Molecular Science 1 or General Chemistry I for Students in Chemical Sciences | 3 |
| °ä±áÌý102 or °ä±áÌý104 | General Chemistry Laboratory 1 or General Chemistry Laboratory I for Students in Chemical Sciences | 1 |
| ·¡Ìý101 | Introduction to Engineering & Problem Solving 2 | 1 |
| ·¡Ìý115 | Introduction to Computing Environments | 1 |
| ²Ñ´¡Ìý141 | Calculus I 1 | 4 |
| ·¡±·³ÒÌý101 | Academic Writing and Research 2 | 4 |
| Ìý | Hours | 14 |
| Spring Semester | ||
| CHÌý201 or CHÌý203 | Chemistry - A Quantitative Science 2 or General Chemistry II for Students in Chemical Sciences | 3 |
| CHÌý202 or CHÌý204 | Quantitative Chemistry Laboratory 2 or General Chemistry Laboratory II for Students in Chemical Sciences | 1 |
| MAÌý241 | Calculus II 1 | 4 |
| PYÌý205 &ÌýPYÌý206 | 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 | Ìý | |
| Introduction to Agricultural & Resource Economics | Ìý | |
| Principles of Microeconomics | Ìý | |
| Fundamentals of Economics | Ìý | |
| EÌý102 | Engineering in the 21st Century | 2 |
| Ìý | Hours | 17 |
| Second Year | ||
| Fall Semester | ||
| CHÌý221 or CHÌý225 | Organic Chemistry I 2 or Organic Chemistry I for Students in Chemical Sciences | 3 |
| CHÌý222 or CHÌý226 | Organic Chemistry I Lab 2 or Organic Chemistry Laboratory I for Students in Chemical Sciences | 1 |
| CHEÌý205 | Chemical Process Principles 2 | 4 |
| MAÌý242 | Calculus III 2 | 4 |
| Ìý | Hours | 12 |
| Spring Semester | ||
| CHÌý223 or CHÌý227 | Organic Chemistry II or Organic Chemistry II for Students in Chemical Sciences | 3 |
| CHÌý224 or CHÌý228 | Organic Chemistry II Lab or Organic Chemistry Laboratory II for Students in Chemical Sciences | 1 |
| CHEÌý225 | Introduction to Chemical Engineering Analysis 2 | 3 |
| MAÌý341 | Applied Differential Equations I 2 | 3 |
| PYÌý208 &ÌýPYÌý209 | Physics for Engineers and Scientists II and Physics for Engineers and Scientists II Laboratory | 4 |
| Ìý | Hours | 14 |
| Third Year | ||
| Fall Semester | ||
| PSEÌý335 | Principles of Green Chemistry | 4 |
| CHEÌý311 | Transport Processes I 2 | 3 |
| CHEÌý315 | Chemical Process Thermodynamics 2 | 3 |
| CHEÌý497 | Chemical Engineering Projects I | 3 |
| Ìý | Hours | 13 |
| Spring Semester | ||
| Select one of the following Chemistry Electives: | 4 | |
| Chemistry of Polymeric Materials Laboratory and Chemistry of Polymeric Materials | Ìý | |
| Principles of Biochemistry | Ìý | |
| Physical Chemistry for Engineers | Ìý | |
| Special Topics In Chemistry | Ìý | |
| Introductory Biology: Cellular and Molecular Biology | Ìý | |
| Chemistry of Food and Bioprocessed Materials | Ìý | |
| CHEÌý312 | Transport Processes II | 3 |
| CHEÌý316 | Thermodynamics of Chemical and Phase Equilibria | 3 |
| CHEÌý330 | Chemical Engineering Lab I | 4 |
| Ìý | Hours | 14 |
| Fourth Year | ||
| Fall Semester | ||
| CHEÌý331 | Chemical Engineering Lab II | 2 |
| CHEÌý446 | Design and Analysis of Chemical Reactors | 3 |
| CHEÌý450 | Chemical Engineering Design I | 3 |
| Concentration Elective | 3 | |
| CHEÌý395 | Professional Development Seminar | 1 |
| Ìý | Hours | 12 |
| Spring Semester | ||
| CHEÌý435 | Process Systems Analysis and Control | 3 |
| CHEÌý451 | Chemical Engineering Design II | 3 |
| Concentration Elective | 3 | |
| Ìý | Hours | 9 |
| Ìý | Total Hours | 105 |
| 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 Additional Breadth (Humanities/Social Sciences/Visual and Performing Arts) | 3 | ||
| Restricted Elective - Interdisciplinary Perspectives | 3 | ||
| GEP U.S. Diversity (verify requirement) | |||
| GEP Global Knowledge (verify requirement) | |||
| Foreign Language Proficiency (verify requirement) | |||
| Free Electives | |||
| Free Electives (12 Hr S/U Lmt) 1 | 3 | ||
| Total Hours | 20 | ||
| 1 | Students should consult their academic advisors to determine which courses fill this requirement. |
Concentration Electives
| Code | Title | Hours | Counts towards |
|---|---|---|---|
| BAEÌý528 | Biomass to Renewable Energy Processes | 3 | |
| CEÌý373 | Fundamentals of Environmental Engineering | 3 | |
| CEÌý476 | Air Pollution Control | 3 | |
| CEÌý477 | Principles of Solid Waste Engineering | 3 | |
| CEÌý478 | Energy and Climate | 3 | |
| CEÌý484 | Water Supply and Waste Water Systems | 3 | |
| CEÌý578 | Energy and Climate | 3 | |
| FBÌý576 | Environmental Life Cycle Analysis | 3 | |
| PSEÌý425 | Bioenergy & Biomaterials Engineering | 3 | |
| PSEÌý476 | Environmental Life Cycle Analysis | 3 |
Interdiscplinary Perspectives ElectivesÌý
| Code | Title | Hours | Counts towards |
|---|---|---|---|
| ESÌý100 | Introduction to Environmental Sciences | ||
| ESÌý200 | Climate Change and Sustainability | ||
| ESÌý300 | Energy and Environment | ||
| IDSÌý201 | Environmental Ethics | ||
| SMTÌý232 | Recycling to Create a Sustainable Environment | ||
| PCCÌý201 | Impact of Industry on the Environment and Society |
Semester Sequence
This is a sample.
| First Year | ||
|---|---|---|
| Fall Semester | Hours | |
| °ä±áÌý101 &Ìý°ä±áÌý102 | Chemistry - A Molecular Science and General Chemistry Laboratory 1,2 | 4 |
| ·¡Ìý101 | Introduction to Engineering & Problem Solving 3 | 1 |
| ·¡Ìý115 | Introduction to Computing Environments | 1 |
| ·¡±·³ÒÌý101 | Academic Writing and Research 3 | 4 |
| ²Ñ´¡Ìý141 | Calculus I 1 | 4 |
| GEP Health and Exercise Studies | 1 | |
| Ìý | Hours | 15 |
| Spring Semester | ||
| CHÌý201 &ÌýCHÌý202 | Chemistry - A Quantitative Science and Quantitative Chemistry Laboratory 2,3 | 4 |
| MAÌý241 | Calculus II 1 | 4 |
| PYÌý205 &ÌýPYÌý206 | Physics for Engineers and Scientists I and Physics for Engineers and Scientists I Laboratory 1 | 4 |
| Select one of the following Economics Courses: | 3 | |
| Fundamentals of Economics | Ìý | |
| Principles of Microeconomics | Ìý | |
| Introduction to Agricultural & Resource Economics | Ìý | |
| GEP Health and Exercise Studies | 1 | |
| EÌý102 | Engineering in the 21st Century | 2 |
| Ìý | Hours | 18 |
| Second Year | ||
| Fall Semester | ||
| CHÌý221 &ÌýCHÌý222 | Organic Chemistry I and Organic Chemistry I Lab 4 | 4 |
| CHEÌý205 | Chemical Process Principles 3 | 4 |
| MAÌý242 | Calculus III 3 | 4 |
| GEP Requirement | 3 | |
| Ìý | Hours | 15 |
| Spring Semester | ||
| CHÌý223 &ÌýCHÌý224 | Organic Chemistry II and Organic Chemistry II Lab 3,4 | 4 |
| CHEÌý225 | Introduction to Chemical Engineering Analysis 3 | 3 |
| MAÌý341 | Applied Differential Equations I 3 | 3 |
| PYÌý208 &ÌýPYÌý209 | Physics for Engineers and Scientists II and Physics for Engineers and Scientists II Laboratory | 4 |
| GEP Requirement | 3 | |
| Ìý | Hours | 17 |
| Third Year | ||
| Fall Semester | ||
| PSEÌý335 | Principles of Green Chemistry | 4 |
| CHEÌý311 | Transport Processes I 3 | 3 |
| CHEÌý315 | Chemical Process Thermodynamics 3 | 3 |
| CHEÌý497 | Chemical Engineering Projects I | 3 |
| Free Elective | 3 | |
| Ìý | Hours | 16 |
| Spring Semester | ||
| Select one of the following Chemistry Electives: | 4 | |
| Chemistry of Polymeric Materials and Chemistry of Polymeric Materials Laboratory | Ìý | |
| Principles of Biochemistry | Ìý | |
| Physical Chemistry for Engineers | Ìý | |
| Introductory Biology: Cellular and Molecular Biology | Ìý | |
| Chemistry of Food and Bioprocessed Materials | Ìý | |
| CHEÌý312 | Transport Processes II | 3 |
| CHEÌý316 | Thermodynamics of Chemical and Phase Equilibria | 3 |
| CHEÌý330 | Chemical Engineering Lab I | 4 |
| GEP Requirement | 3 | |
| Ìý | Hours | 17 |
| Fourth Year | ||
| Fall Semester | ||
| CHEÌý331 | Chemical Engineering Lab II | 2 |
| CHEÌý446 | Design and Analysis of Chemical Reactors | 3 |
| CHEÌý450 | Chemical Engineering Design I | 3 |
| Concentration Elective | 3 | |
| GEP Requirement | 3 | |
| CHEÌý395 | Professional Development Seminar | 1 |
| Ìý | Hours | 15 |
| Spring Semester | ||
| CHEÌý435 | Process Systems Analysis and Control | 3 |
| CHEÌý451 | Chemical Engineering Design II | 3 |
| Concentration Elective | 3 | |
| GEP Requirement | 3 | |
| Ìý | Hours | 12 |
| Ìý | Total Hours | 125 |
| 1 | Grade of C (2.0) or higher required. |
| 2 | °ä±áÌý103 General Chemistry I for Students in Chemical Sciences/°ä±áÌý104 General Chemistry Laboratory I for Students in Chemical Sciences may substitute for °ä±áÌý101 Chemistry - A Molecular Science/°ä±áÌý102 General Chemistry Laboratory, and CHÌý203 General Chemistry II for Students in Chemical Sciences/CHÌý204 General Chemistry Laboratory II for Students in Chemical Sciences may substitute for CHÌý201 Chemistry - A Quantitative Science/CHÌý202 Quantitative Chemistry Laboratory. |
| 3 | Minimum grade of (C-) required. |
| 4 | CHÌý225 Organic Chemistry I for Students in Chemical Sciences/CHÌý226 Organic Chemistry Laboratory I for Students in Chemical Sciences may substitute for CHÌý221 Organic Chemistry I/CHÌý222 Organic Chemistry I Lab and CHÌý227 Organic Chemistry II for Students in Chemical Sciences/CHÌý228 Organic Chemistry Laboratory II for Students in Chemical Sciences may substitute for CHÌý223 Organic Chemistry II/CHÌý224 Organic Chemistry II Lab. |
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.