Agricultural & Biological Engineering: Renewable Energy Systems Engineering, BS
for the degree of Bachelor of Science in Agricultural & Biological Engineering, Renewable Energy Systems Engineering Concentration
Graduates design renewable energy systems, using solar, wind, biological, and geothermal resources.
for the degree of Bachelor of Science in Agricultural & Biological Engineering, Renewable Energy Systems Engineering Concentration
Graduation Requirements
Minimum Overall GPA: 2.0
Minimum hours required for graduation: 128 hours, to include a minimum of 40 hours of upper-division coursework generally at the 300 and/or 400 level. These hours can be drawn from all elements of the degree.
General education: Students must complete the Campus General Education requirements including the campus general education language requirement. One of the Social and Behavioral Sciences (SBS) courses must include one of the following economics courses: ECON 102, ACE 100, ACE 210, ACE 251 or ACE 255. ABE 469 will satisfy a technical core course and the Campus General Education Advanced Composition requirement.
Orientation and Professional Development
Code | Title | Hours |
---|---|---|
ABE 127 | Introduction to Agricultural & Biological Engineering | 2 |
ENG 100 | Grainger Engineering Orientation Seminar (External transfer students take ENG 300.) | 1 |
Total Hours | 3 |
Foundational Mathematics and Science
Code | Title | Hours |
---|---|---|
CHEM 102 | General Chemistry I | 3 |
CHEM 103 | General Chemistry Lab I | 1 |
CHEM 104 | General Chemistry II | 3 |
CHEM 105 | General Chemistry Lab II | 1 |
MATH 221 | Calculus I (MATH 220 may be substituted. MATH 220 is appropriate for students with no background in calculus. 4 of 5 credit hours count towards degree.) | 4 |
MATH 231 | Calculus II | 3 |
MATH 241 | Calculus III | 4 |
MATH 257 | Linear Algebra with Computational Applications | 3 |
MATH 285 | Intro Differential Equations | 3 |
PHYS 211 | University Physics: Mechanics | 4 |
PHYS 212 | University Physics: Elec & Mag | 4 |
Total Hours | 33 |
Agricultural and Biological Engineering Technical Core
Code | Title | Hours |
---|---|---|
ABE 128 | Applied Biology for Agricultural and Biological Engineers | 3 |
ABE 227 | Computer-Aided Problem-Solving for ABE I | 3 |
ABE 228 | Computer-Aided Problem-Solving for ABE II | 3 |
ABE 340 | Thermodynamics for Agricultural and Biological Engineering | 3 |
ABE 430 | Project Management | 2 |
ABE 469 | Capstone Design Experience | 4 |
CS 101 | Intro Computing: Engrg & Sci | 3 |
ECE 205 | Electrical and Electronic Circuits | 3 |
SE 101 | Engineering Graphics & Design | 3 |
IE 300 | Analysis of Data | 3 |
or STAT 400 | Statistics and Probability I | |
TAM 211 | Statics | 3 |
TAM 212 | Introductory Dynamics | 3 |
Total Hours | 36 |
Concentration Requirements: complete a minimum of 30 hours from courses below
Code | Title | Hours |
---|---|---|
Required courses | ||
ABE 341 | Transport Processes in ABE | 3 |
ABE 425 | Engrg Measurement Systems | 4 |
ABE 436 | Renewable Energy Systems | 3 |
ABE 488 | Bioprocessing Biomass for Fuel | 4 |
Total Hours | 14 |
Code | Title | Hours |
---|---|---|
Select one of the following sets: | ||
ATMS 201 & ATMS 307 | General Physical Meteorology and Climate Processes | 6 |
CPSC 112 & CPSC 415 | Introduction to Crop Sciences and Bioenergy Crops | 7 |
GEOL 107 & GEOL 380 | Physical Geology and Environmental Geology | 8 |
Code | Title | Hours |
---|---|---|
Select one of the following sets: |
Code | Title | Hours |
---|---|---|
Wind Energy | 10 | |
TAM 251 | Introductory Solid Mechanics | 3 |
CEE 300 | Behavior of Materials | 4 |
NPRE 475 | Wind Power Systems | 3 |
Code | Title | Hours |
---|---|---|
Solar Energy | 9 | |
TAM 251 | Introductory Solid Mechanics | 3 |
MSE 280 | Engineering Materials | 3 |
ECE 333 | Green Electric Energy | 3 |
Code | Title | Hours |
---|---|---|
Biofuels | 10 | |
CHEM 232 | Elementary Organic Chemistry I | 3 |
CHBE 478 | Bioenergy Technology | 3 |
TAM 335 | Introductory Fluid Mechanics | 4 |
Code | Title | Hours |
---|---|---|
Total Minimum Concentration Hours | 30 |
Code | Title | Hours |
---|---|---|
Free Electives | 10 | |
Additional course work, subject to the Grainger College of Engineering restrictions to Free Electives, so that there are at least 128 credit hours earned toward the degree. | ||
Total Hours of Curriculum to Graduate | 128 |
for the degree of Bachelor of Science in Agricultural & Biological Engineering, Renewable Energy Systems Engineering Concentration
Sample Sequence
This sample sequence is intended to be used only as a guide for degree completion. All students should work individually with their academic advisors to decide the actual course selection and sequence that works best for them based on their academic preparation and goals. Enrichment programming such as study abroad, minors, internships, and so on may impact the structure of this four-year plan. Course availability is not guaranteed during the semester indicated in the sample sequence.
Students must fulfill their Language Other Than English requirement by successfully completing a third level of a language other than English. This sample curriculum plan makes the assumption that the foreign language graduation requirement has been satisfied by completing three years of study of a single foreign language in high school. See the corresponding section on the Degree and General Education Requirements.
Free Electives: Additional course work, subject to the Grainger College of Engineering restrictions to Free Electives, so that there are at least 128 credit hours earned toward the degree.
First Year | |||
---|---|---|---|
First Semester | Hours | Second Semester | Hours |
ABE 127 | 2 | ABE 128 | 3 |
ENG 100 | 1 | PHYS 211 | 4 |
MATH 221 (MATH 220 may be substituted) | 4 | MATH 231 | 3 |
CHEM 102 | 3 | CHEM 104 | 3 |
CHEM 103 | 1 | CHEM 105 | 1 |
Composition I or General Education course (Humanities or Social & Behavioral Sciences course with Cultural Studies designation) | 4 | Composition I or General Education course (Humanities or Social & Behavioral Sciences course with Cultural Studies designation) | 3 |
15 | 17 | ||
Second Year | |||
First Semester | Hours | Second Semester | Hours |
ABE 227 | 3 | ABE 228 | 3 |
CS 101 | 3 | PHYS 212 | 4 |
MATH 241 | 4 | MATH 285 | 3 |
SE 101 | 3 | MATH 257 | 3 |
TAM 211 | 3 | TAM 212 | 3 |
16 | 16 | ||
Third Year | |||
First Semester | Hours | Second Semester | Hours |
ABE 340 | 3 | IE 300 or STAT 400 | 3 |
ECE 205 | 3 | ABE 425 | 4 |
ABE 436 | 3 | ABE 341 | 3 |
ATMS 201 (or CPSC 112 or GEOL 107) | 4 | ATMS 307 (or CPSC 415 or GEOL 380) | 3 |
Free Elective course | 3 | Choose one course from Social & Behavioral Sciences Course list: ECON 102, ACE 100, ACE 210, ACE 251, ACE 255 | 3 |
16 | 16 | ||
Fourth Year | |||
First Semester | Hours | Second Semester | Hours |
ABE 430 | 2 | ABE 469 | 4 |
General Education course (Humanities or Social & Behavioral Sciences course with Cultural Studies designation) | 3 | General Education course (Humanities or Social & Behavioral Sciences course with Cultural Studies designation) | 3 |
Free Elective course | 4 | Free Elective course | 3 |
ABE 488 | 4 | Choose concentration course from listed set of courses (Wind Energy, Solar Energy or Biofuels)et of courses (Wind, Solar or Biofuels) | 3 |
Choose concentration course from listed set of courses (Wind Energy, Solar Energy or Biofuels) | 3 | Choose concentration course from listed set of courses (Wind Energy, Solar Energy or Biofuels) | 3 |
16 | 16 | ||
Total Hours 128 |
for the degree of Bachelor of Science in Agricultural & Biological Engineering, Renewable Energy Systems Engineering Concentration
- An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
- An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
- An ability to communicate effectively with a range of audiences.
- An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
- An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
- An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
- An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
for the degree of Bachelor of Science in Agricultural & Biological Engineering, Renewable Energy Systems Engineering Concentration
Agricultural and Biological Engineering Website
Agricultural & Biological Engineering Faculty
College of Agricultural, Consumer & Environmental Sciences
Grainger College of Engineering