https://www.uwgb.edu/engineeringtech/

(Bachelor of Science)

UW-Green Bay Engineering Technology

Combine hands-on learning with academic coursework and get ready for high-demand jobs in the growing field of engineering technology. The University partners with regional leaders and technical colleges so that you will be prepared for an ever-changing industry. Get the technical skills that will make you an expert and the critical-thinking skills that will make you indispensable.

Engineering Technology Mission

All of the Engineering Technology programs (Electrical, Mechanical and Environmental) include a strong liberal arts base along with a number of hands-on experiences, including a capstone experience or internship that often will be working with businesses and organizations within the community.

Environmental Engineering Technology

Environmental engineering technology is the application of engineering principles and interdisciplinary environmental sciences to address challenges associated with human impacts on the environment. This field characterizes the dynamic relationship between human activity and the environment to determine strategies to minimize negative impacts. Career opportunities as an environmental engineering technologist vary greatly including municipal and industrial treatment facility technologists, laboratory and environmental quality technicians, health and safety managers, environmental consultants, and sustainability managers for industry and governmental agencies.

The Bachelor of Science (B.S.) degree in Environmental Engineering Technology at UW-Green Bay is an interdisciplinary program that prepares students for careers in applied environmental engineering using critical problem solving skills needed in regional and national industries, manufacturing, governmental, and engineering services firms. The focus of the program is the application of engineering principles to the solution of practical problems. Students will develop skills in hands on applications and interdisciplinary coursework in engineering, mathematics, geoscience, chemistry, physics, and biology applied to a variety of environmental challenges. Students examine the effects of pollution on humans and ecosystems, form strategies to improve processes to prevent or minimize negative effects, and develop sustainable solutions to using available resources. Teamwork, technical writing, and project management are also emphasized throughout the curriculum. The goal of the major is to develop well rounded engineering technologists that can adapt and succeed in a highly competitive workplace.

Students will benefit from relationships with local technical colleges and local industry to complete a B.S. in engineering technology in the Northeast Wisconsin area. Students may start earning their degree at UW-Green Bay or local technical colleges to give maximum flexibility in degree completion. In addition, the Northeast Wisconsin Educational Resource Alliance, NEW ERA, has established advisory boards linking leaders in regional industry and participating institutions to the major. Through these relationships students will have many opportunities for internships, co-op experiences, and employment after graduation.

Environmental Engineering Technology Program Learning Outcomes

1. Program graduates will be employed as an environmental engineering technologist and perform all functions assigned to an environmental engineering technologist.
2. Graduates will apply multidisciplinary approaches including engineering, chemistry, mathematics, physics, geosciences, and biology to manage the unique challenges and balance the competing social, political, economic, and technical goals of environmental problems and solutions.
3. Graduates will exhibit a desire for life-long learning through higher education, technical training, teaching, membership in professional societies, and other developmental activities and will achieve positions of increased responsibility through these activities.
4. Graduates will demonstrate high levels of oral and written communication skills, critical thinking, responsibility and ethical behavior, and leadership in their careers.
5. Graduates will function effectively both as a leader and as a member of project teams and demonstrate an appreciation for diversity.

Contact

For more information contact:

Jagadeep Thota, Ph.D.
Chair, Engineering
Phone: 920-465-2817
Email: thotaj@uwgb.edu

or

Patricia Terry, Ph.D.
Chair, Richard J. Resch School of Engineering
Phone: 920-465-2749
Email: terryp@uwgb.edu

Major  

Course List

Code	Title	Credits
Supporting Courses		42
BIOLOGY 201 & BIOLOGY 202	Principles of Biology: Cellular and Molecular Processes and Principles of Biology Lab: Cellular and Molecular Processes
CHEM 211 & CHEM 213	Principles of Chemistry I and Principles of Chemistry I Laboratory
CHEM 212 & CHEM 214	Principles of Chemistry II and Principles of Chemistry II Laboratory
ENGR 236	Technical Writing
ET 101	Fundamentals of Engineering Technology
ET 103	Surveying
ET 105	Fundamentals of Drawing
MATH 202	Calculus and Analytic Geometry I
MATH 203	Calculus and Analytic Geometry II
MATH 260	Introductory Statistics
PHYSICS 103	Fundamentals of Physics I (Algebra or Calculus based equivalent)
or PHYSICS 201	Principles of Physics I
Fundamentals Group Courses		28
BIOLOGY 322	Environmental Microbiology
CHEM 207	Laboratory Safety
ENV SCI 320	The Soil Environment
ET 201	Introduction to Environmental Engineering
ET 203	Introduction to Water and Waste Water
ET 218	Fluid Mechanics
ET/ENV SCI 330	Hydrology
ET 391	GIS
GEOSCI 202	Physical Geology
Advanced Study Group Courses		20
Required:
ET 360	Project Management
ET/ENV SCI 334	Solid Waste Management
or ET 331	Advanced Water and Waste Water Treatment
ET 400	Co-op/Internship in Engineering Technology
or ET 410	Capstone Project
Elective choices:
ET/ENV SCI 464	Atmospheric Pollution and Abatement
ECON 305	Natural Resources Economic Policy
ENV SCI 305	Environmental Systems
ENV SCI 433	Ground Water: Resources and Regulations
ET/ENV SCI 323	Pollution Prevention
ET/ENV SCI 415	Solar and Alternate Energy Systems
ET/ENV SCI 424	Hazardous and Toxic Materials
GEOSCI 432	Hydrogeology
PU EN AF 378	Environmental Law
WATER 444	Geochemistry of Natural Waters
Total Credits		90

Curriculum Guide  

The following curriculum guide is for a four-year Environmental Engineering Technology degree program and is subject to change without notice. Students should consult their program advisor to ensure that they have the most accurate and up-to-date information available.

Total 123 credits necessary to graduate.

Plan of Study Grid

Freshman
Fall		Credits
ET 101	Fundamentals of Engineering Technology	2
BIOLOGY 201	Principles of Biology: Cellular and Molecular Processes	3
BIOLOGY 202	Principles of Biology Lab: Cellular and Molecular Processes	1
CHEM 207	Laboratory Safety	1
CHEM 211	Principles of Chemistry I	4
CHEM 213	Principles of Chemistry I Laboratory	1
MATH 202	Calculus and Analytic Geometry I	4
	Credits	16
Spring
CHEM 212	Principles of Chemistry II	4
CHEM 214	Principles of Chemistry II Laboratory	1
MATH 203	Calculus and Analytic Geometry II	4
First Year Seminar		3
General Ed		3
	Credits	15
Sophomore
Fall
BIOLOGY 322	Environmental Microbiology	4
ET 103	Surveying	3
ET 105	Fundamentals of Drawing	3
PHYSICS 103 or PHYSICS 201	Fundamentals of Physics I or Principles of Physics I	5
	Credits	15
Spring
ET 201	Introduction to Environmental Engineering	3
ET 203	Introduction to Water and Waste Water	3
GEOSCI 202	Physical Geology	4
MATH 260	Introductory Statistics	4
ENGR 236	Technical Writing	3
	Credits	17
Junior
Fall
ET 218	Fluid Mechanics	3
ET 330	Hydrology	3
ET 391	GIS	3
General Ed		3
General Ed		3
	Credits	15
Spring
ENV SCI 320	The Soil Environment	4
General Ed		3
General Ed		3
UL Advanced Study ET elective		3
UL Advanced Study ET elective		3
	Credits	16
Senior
Fall
ET 360	Project Management	3
Elective		5
General Ed		3
UL Advanced Study ET elective		3
	Credits	14
Spring
ET 400 or ET 410	Co-op/Internship in Engineering Technology or Capstone Project	3
Elective		3
UL Advanced Study ET elective		3
UL Advanced Study ET elective		3
General Ed		3
	Credits	15
	Total Credits	123

Faculty