Concentrations within the BSEChE Program
July 2024
All concentrations consist of 12 credits and must include at least one 300 or 400 level course. Only engineering and general electives can be used as part of a concentration. Up to three research credits in a related area can count toward a concentration with Lisa Clark’s approval. Contact her at cheugadvising@umich.edu for approval of any other courses. Courses taken for a concentration cannot be taken Pass/Fail. Concentrations are not available to students pursuing dual degrees or SUGS masters in the same area. Student must earn a C- or better in all courses counting towards a concentration and must earn a 2.0 or above overall concentration GPA.
Concentration in BioPharmaceutical Engineering
12 credits total, including at least 1 course each from categories A and B.
Category A: BioPharm Science and Engineering
- ChE 517/PharmSci 717 Biopharm engineering (3 cr.)
- ChE/Pharm 519 Modern pharmaceutical engr (3 cr.)
- Phrmacol 601 Principles of pharmacology (3 cr.)
- ChE 497 Solids Processing (3 cr.)
- ChE 496/696 Introduction to Synthetic Biology (3 cr.)
- ChE 696 Principles & Predictions of Drug Distribution (3 cr.)
- ChE 574 Engr principles in drug delivery and targeting (3 cr.)
- Biochem 415/515 Introductory biochemistry (4 cr.), or Chem 351 (4 cr.), MCDB 310 (4 cr.)
- BME 410 Design & applictns of biomaterials (3 cr.)
- Pharm Sci 608 Pharmacokinetic concepts & appl’s (4 cr.)
Category B: Applied Statistics and Math
- ChE 431 Engineering stats & problem solving (3 cr.)
- Stat 412 Intro to probability and statistics (3 cr.)
- Stat 470 Intro to design of experiments (4 cr. w/ Instructor permission)
- Stat 570 Design of experiments (3 cr.)
- Math 419 Linear spaces and matrix theory (3 cr.)
- Math 217 Linear Algebra or Math 214 – Applied Linear Algebra (4 cr alternative-Math 419)
- IOE 460 Decision analysis (3 cr.)
Other Relevant Courses
- BME 500 BME Seminar (1 cr.)
- ChE 407 Chem Process Safety Risk Manag. (2 cr.)
- IOE 425 Lean Manufacturing & Services (2 cr.)
- IOE 436 Human Factors (3 cr.)
- IOE 438 Occupational Safety Management (2 cr.)
- IOE 813 Provid. better hlthcre thru syst engr (2 cr.)
- Psych 449 Decision Processes (3 cr.)
Concentration in Electrical Engineering
NOTE: EECS students are given priority in enrollments.
Required Courses – 4 credits:
- EECS 215 Intro to electronic circuits (4 cr. preferred) or EECS 314 Electrical circuits, systems, & appl’ns (4 cr.)
Technical Electives – 8 credits.
Process Controls:
- EECS 216 Intro to Signals & Systems (4cr.)
- EECS 460 Control Systems Analysis & Design (4cr.)
- EECS 461 Embedded Control Systems (4cr.)
Electronic Devices:
- EECS 320 Intro to semiconductor devices (4 cr.)
- EECS 414 Introduction to MEMS (4 cr.)
- EECS 421 Properties of transistors (4 cr.)
- EECS 423 Solid-state device laboratory (4 cr.)
- EECS 429 Semiconductor optoelectronic devices (4 cr.)
Concentration in Energy Systems Engineering
Technical Electives – 9 credits. Select from:
- AERO 533/ Combustion processes
- ENSCEN 533 (3 cr., requires AEROSP 225)
- CEE 567/ESEng 567 Energy infrastructure systems (3 cr.)
- ChE 496 Fuel processors & fuel cells (3 cr.)
- ChE 496 Solar Energy Conversion (3 cr.)
- ChE 407 Chem Proc. Safety Risk Manag. (2 cr.)
- ME 433/AUTO 533 Adv. energy solutions (3 cr., req. ME 235)
- ME 438 Internal combustion engines (4 cr.)
- ME 538 Advanced IC Engines (3 cr.)
- ME 539 Heat transfer physics (3 cr., req. ME 235 and ME 335)
- ME 571/ESENG 505 Energy generation & storage using modern materials (3 cr.)
- NERS 250/ENSCEN 211 Fundamentals of nuclear energy & Radiological sciences (4 cr.)
Policy/law course – 3 credits. Select from:
- Environ 357/Arch 357 Architecture, Sustainability (3 cr)
- ESENG 501 Seminars on energy systems, tech, and policy (3 cr.)
- EAS 475/EHS 588/Environ 475 Environ law (3 cr.)
- EAS/BE 527 Energy markets and politics (3 cr.)
- PubPol 250 Soc. systems, energy, & pub policy (3cr.)
- PubPol 468/Environ 468 Oil and Gas Policy in the US (3 cr.)
- PubPol 481 Science, tech, & pub policy (3 cr.)
- PubPol 519/EAS 574/RCNSCI 419 Sustainable Energy Systems (3 cr.)
Concentration in Environmental Engineering
Technical electives – 9 credits.
- ChE 407 Chem Proc. Risk Safety Manag. (2 cr.)
- CEE 365 Enviro engr principles (4 cr.)
- CEE 366 Enviro engr lab (3 cr. reqs CEE 270 and 365)
- CEE 428 Groundwater hydrology (3 cr., requires CEE 265 and CEE 325 or equivalent)
- CEE 465 Enviro process engr (3 cr., requires CEE 325 and CEE 365)
- CEE 480 Design of enviro. engr systems (3 cr.)
- CEE 481 Aquatic chemistry (3 cr.)
- CEE 482 Enviro microbiology (3 cr., requires CEE 325 and 365)
- CEE 526 Design of hydraulic systems (3 cr., requires CEE 325 or equivalent)
- CEE 563 Air quality engineering fundamentals (3 cr.)
- CEE 564 Greenhouse gas control (3 cr.)
- CLIMATE 350 Atmospheric thermodynamics (3 cr.)
- CLIMATE 410 Earth system modeling (4 cr.)
- CLIMATE 475 Earth system interactions (4 cr., sr std)
- Earth 305 Earth’s surface and sediment (4 cr.)
- Earth 313 Geobiology (4 cr.)
- Earth 325 Environ geochemistry (4 cr.)
- Earth 477 Hydrogeology (4 cr.)
- Earth 478 Geochemistry of natural waters (4 cr.)
- ME 589 Sustainable design of technology systems (3 cr., sr, std.)
- SPACE 370 Solar terrestrial relations (4 cr.)
Sustainability-focused technical electives
- CEE 265 Sustainable engineering principles (3 cr.)
- CEE 586 Industrial ecology (3 – 4 cr., sr, std.)
Policy/law/economics course – 3 credits. Select from:
- CEE 504 Environmental economics and finance (3 cr.)
- Earth 380 Mineral resources, economics, & the environment (4 cr.)
- Econ 370/Environ 375 Environ & resource econ (3 cr.)
- Environ 235 Natural Resources & Environ Econ (3 cr.)
- Environ 312/Polsci 380 Envirol politics and policy (3 cr)
- Environ 365 International environmental law (3 cr.)
- Environ 412/PubPol 412 Environ values in public policy (3 cr.)
- EAS 475/EHS 588/Environ 475 Environmental law (3 cr.)
- ESENG 501/CEE 565 Seminars of Energy Tech & Policy
- EAS/BE 527 Energy markets and energy politics (3cr)
- PubPol 481 Science, tech, and public policy (3 cr.)
Concentration in the Life Sciences
Required Course:
- MCDB 310 Intro biochem (4 cr.), or Chem 351 (4 cr.) or Biolchem 415/515 (4 cr.)
Technical Electives – 12 credits.
- Anatomy 403 Human Anatomy (5 cr.)
- Biology 205 Developmental biology (4 cr.)
- Biology 207 Intro microbiology (4 cr.)
- Biology 225 Principles of animal physiology (3 cr.)
- Biology 305 Genetics (4 cr.)
- BME 418 Quantitative cell biology (3 cr.)
- BME 419 Quantitative physiology (4 cr.)
- BME 476 Biofluid mechanics (4 cr.)
- BME 479 Biotransport (4 cr.)
- CEE 482 Environmental microbiology (3 cr., requires CEE 325 and 365)
- ChE 517 Biopharm engineering (3 cr.)
- ChE 519 Pharmaceutical eng.. (3 cr., sr. std.)
- ChE 574 Engineering principles in drug delivery &
targeting (3 cr.) - ChE 584 Tissue Engineering (3 cr.)
- MCDB 322 Cell & Molec Neurosci (4 cr.)
- MCDB 411 Protein structure function (3 cr.)
- MCDB 436 Introductory immunology ( 3 cr.)
- Micrbiol 405 Medical microbiology & infectious
diseases (3 cr.) - Micrbiol 440 Human Immunology (3 cr.)
- Micrbiol 460 Eukaryotic Microbiology (3 cr.)
- Physiol 201 Intro to human physiology (4 cr.)
- Physiol 502 Human physiology (4 cr.)
- Stats 449 Topics in biostatics (3 cr.)
Concentration in Materials Science and Engineering
Technical Electives – 12 credits.
Select from:
- MSE 242 Physics of materials (4 cr.) Any 300, 400, 500 level MSE course
Concentration in Mechanical Engineering
Required Courses:
- ME 211 Intro. to solid mechanics (4 cr.)
- ME 240 Intro. to dynamics and vibrations (4 cr.)
Technical Electives – 4 credits. Select from:
- ME 250 Design and manufacturing I (4 cr.)
- ME 311 Strength of materials (3 cr.)
- ME 382 Mechanical Behavior of Materials (4 cr. – requires ME 211)
- ME 400 Mechanical engr analysis (3 cr.)
- ME 401 Statistical quality control & design (3 cr.) ME 420 Fluid mechanics II (3 cr., requires ME 320) ME 438 Internal combustion engines (4 cr.)
- ME 420 Fluid mechanics II (3 cr., requires ME 320)
- ME 440 Intermediate dynamics & vibrations (4 cr.)
- ME 476 Biofluid Mechanics (4 cr. requires ME 320)
Concentration in Nuclear Engineering
Required Courses:
- NERS 250 Fundamentals of NERS (4 cr.)
- NERS 311 Elements of NERS I (3 cr.)
- NERS 312 Elements of NERS II (3 cr.)
At least 2 additional credits, which require the above 3 courses.
Choose from:
- NERS 421 Nuclear engineering materials (3 cr.)
- NERS 425 Applications of radiation (4 cr.)
- NERS 441 Nuclear reactor theory I (4 cr. reqs NERS 312 and NERS 320)
- NERS 471 Introduction to plasmas (3 cr.)
- NERS 484 Radiological health engr fund (4 cr.)
Concentration in Petroleum and Gas Exploration
To include 3 lecture courses, composed of at least 3 credits of 300 level or higher EARTH courses and 3 credits of 300 level or higher CEE courses. Only one of Earth 116 or Earth 119 can count toward the concentration
- Earth 116/ Introductory geology (6 cr.)
- Earth 118 Introductory geology laboratory (1 cr.)
- Earth 119 Introductory geology lecture (3 cr.)
- Earth 284 Environmental geology (4 cr.)
- Earth 305 Earth’s surface & sediments (4 cr., requires intro geology course)
- Earth 314 Global & applied geophysics (4 cr.)
- Earth 351 Earth structure (4 cr.)
- Earth 380 Mineral resources, econ, & the environment (4 cr.)
- Earth 422 Principles of geochemistry (3 cr., requires intro geology course)
- Earth 467 Stratigraphy & basis analysis (4 cr. requires introductory geology course)
- Earth 477 Hydrogeology (4 cr.)
- CEE 345 Geotechnical engineering (4 cr.)
- CEE 428/Enscen 428 Groundwater hydrology (3 cr.)
- CEE 522 Sediment transport (3 cr.)
- CEE 527 Coastal hydraulics (3 cr.)
- CEE 535 Excavation and tunneling (3 cr.)
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