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¸£Àû±ÆÕ¾ Catalog 2023-2024

EXPLORE PROGRAMS

Biological Engineering (BS): Environmental Engineering Concentration

This is an archived copy of the 2023-2024 catalog. To access the most recent version of the catalog, please visit .

To see more about what you will learn in this program, visit the !

The BE curriculum is jointly administered by the College of Agriculture and Life Sciences and the College of Engineering and combines the fields of engineering, biology, chemistry, and agriculture. The Biological Engineering program is accredited by the Engineering Accreditation Commission of ABET,Ìý. BE graduates are qualified to become registered professional engineers by passing the appropriate examinations and upon completing the engineering experience requirements. Specific curriculum requirements are available online.

BAE faculty, in concert with program constituencies, has developed the following undergraduate program objectives. Within the first five years following graduation, NC State's Biological Engineering graduates will:

  • Excel in their careers by applying their engineering knowledge, critical-thinking skills, systematic approach to problem solving, and innovation to improve biological and agricultural systems;
  • Work effectively both independently and as part of professional teams and demonstrate leadership potential in project management;
  • Display professionalism, ethics, equity, and inclusivity in the practice of engineering to safeguard life, health, and public welfare;
  • Communicate effectively in a professional environment; and
  • Be engaged in life-long learning and professional development.

Plan Requirements

Plan of Study Grid
First Year
Fall SemesterHours
°ä±áÌý101 Chemistry - A Molecular Science 1 3
°ä±áÌý102 General Chemistry Laboratory 1 1
·¡Ìý101 Introduction to Engineering & Problem Solving 2 1
·¡Ìý115 Introduction to Computing Environments 1
·¡±·³ÒÌý101 Academic Writing and Research 2 4
²Ñ´¡Ìý141 Calculus I 1 4
ÌýHours14
Spring Semester
Select one of the following: 4
CHÌý201
&ÌýCHÌý202
 Chemistry - A Quantitative Science
and Quantitative Chemistry Laboratory
CHÌý220
&ÌýCHÌý222
 Introductory Organic Chemistry
and Organic Chemistry I Lab
CHÌý221
&ÌýCHÌý222
 Organic Chemistry I
and Organic Chemistry I Lab
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: 3
AREÌý201
 Introduction to Agricultural & Resource Economics
AREÌý201A
 Introduction to Agricultural & Resource Economics
ECÌý201
 Principles of Microeconomics
ECÌý205
 Fundamentals of Economics
ÌýHours15
Second Year
Fall Semester
BAEÌý200 Computer Methods in Biological Engineering 2
CEÌý214
or MAEÌý206
 Engineering Mechanics-Statics 2
or Engineering Statics
 3
MAÌý242 Calculus III 4
PYÌý208
&ÌýPYÌý209		 Physics for Engineers and Scientists II
and Physics for Engineers and Scientists II Laboratory		 4
BIOÌý181
or BIOÌý183
 Introductory Biology: Ecology, Evolution, and Biodiversity
or Introductory Biology: Cellular and Molecular Biology
 4
ÌýHours17
Spring Semester
BAEÌý203 Introduction to AutoCAD Civil 3D for Environmental & Ecological Engineers 2
BAEÌý204 Introduction to Environmental and Ecological Engineering 2
MAEÌý208 Engineering Dynamics 2 3
MAÌý341 Applied Differential Equations I 3
MAEÌý201 Engineering Thermodynamics I 3
SSCÌý200 Soil Science 3
ÌýHours16
Third Year
Fall Semester
BAEÌý325 Introductory Geomatics 3
BAEÌý302 Transport Phenomena 3
BAEÌý371 Fundamentals of Hydrology for Engineers 3
CEÌý282 Hydraulics 2 3
BAEÌý305 Biological Engineering Circuits 4
ÌýHours16
Spring Semester
BAEÌý401 Sensors and Controls 3
BAEÌý472 Irrigation and Drainage 3
CEÌý225
or MAEÌý214
 Mechanics of Solids 2
or Solid Mechanics
 3
STÌý370 Probability and Statistics for Engineers 3
Select one of the following: 3
AECÌý360
 Ecology
PBÌý321
 Introduction to Whole Plant Physiology
PBÌý360
 Ecology
SSCÌý332
 Environmental Soil Microbiology
ÌýHours15
Fourth Year
Fall Semester
BAEÌý478 Circular Approach to Manure Management 3
BAEÌý451 Engineering Design I 2
Select one of the following: 3
BAEÌý473
 Introduction to Hydrologic and Water Quality Modeling
BAEÌý481
 Structures & Environment
BAEÌý573
 Introduction to Hydrologic and Water Quality Modeling
SSCÌý473
 Introduction to Hydrologic and Water Quality Modeling
SSCÌý573
 Introduction to Hydrologic and Water Quality Modeling
Select one of the following: 3
IDSÌý201
 Environmental Ethics
STSÌý301
 Science and Civilization
STSÌý304
 Ethical Dimensions of Progress
ENGÌý331
or ENGÌý333
 Communication for Engineering and Technology
or Communication for Science and Research
 3
ÌýHours14
Spring Semester
BAEÌý452 Engineering Design II 2
Select one of the following: 3
BAEÌý322
 Introduction to Food Process Engineering
BAEÌý361
 Analytical Methods in Engineering Design
BAEÌý481
 Structures & Environment
ÌýHours5
ÌýTotal Hours112
1

A grade of C or higher is required.

2

A grade of C- or higher is required.

GEP Courses
GEP Humanities6
GEP Social Sciences3
GEP Health and Exercise Studies2
GEP US Diversity, Equity, and Inclusion3
GEP Interdisciplinary Perspectives2
GEP Global Knowledge (verify requirement)
Foreign Language Proficiency (verify requirement)
Total Hours16

Semester Sequence

This is a sample.

Plan of Study Grid
First Year
Fall SemesterHours
°ä±áÌý101 Chemistry - A Molecular Science 1 3
°ä±áÌý102 General Chemistry Laboratory 1 1
·¡Ìý101 Introduction to Engineering & Problem Solving 1 1
·¡Ìý115 Introduction to Computing Environments 1
·¡±·³ÒÌý101 Academic Writing and Research 1 4
²Ñ´¡Ìý141 Calculus I 1 4
GEP Health and Exercise Studies 1
ÌýHours15
Spring Semester
Select one of the following: 4
CHÌý221
&ÌýCHÌý222
 Organic Chemistry I
and Organic Chemistry I Lab
CHÌý220
&ÌýCHÌý222
 Introductory Organic Chemistry
and Organic Chemistry I Lab
CHÌý221
&ÌýCHÌý222
 Organic Chemistry I
and Organic Chemistry I Lab
MAÌý241 Calculus II 1 4
PYÌý205 Physics for Engineers and Scientists I 1 3
PYÌý206 Physics for Engineers and Scientists I Laboratory 1
Select one of the following: 3
ECÌý201
 Principles of Microeconomics
ECÌý205
 Fundamentals of Economics
AREÌý201
 Introduction to Agricultural & Resource Economics
ÌýHours15
Second Year
Fall Semester
BAEÌý200 Computer Methods in Biological Engineering 2
MAEÌý206
or CEÌý214
 Engineering Statics 1
or Engineering Mechanics-Statics
 3
MAÌý242 Calculus III 4
PYÌý208 Physics for Engineers and Scientists II 3
PYÌý209 Physics for Engineers and Scientists II Laboratory 1
BIOÌý181
or BIOÌý183
 Introductory Biology: Ecology, Evolution, and Biodiversity
or Introductory Biology: Cellular and Molecular Biology
 4
ÌýHours17
Spring Semester
BAEÌý203 Introduction to AutoCAD Civil 3D for Environmental & Ecological Engineers 2
BAEÌý204 Introduction to Environmental and Ecological Engineering 2
MAEÌý208 Engineering Dynamics 1 3
MAÌý341 Applied Differential Equations I 3
MAEÌý201 Engineering Thermodynamics I 3
SSCÌý200 Soil Science 3
ÌýHours16
Third Year
Fall Semester
BAEÌý325 Introductory Geomatics 3
BAEÌý302 Transport Phenomena 3
BAEÌý371 Fundamentals of Hydrology for Engineers 3
CEÌý282 Hydraulics 1 3
BAEÌý305 Biological Engineering Circuits 4
ÌýHours16
Spring Semester
BAEÌý401 Sensors and Controls 3
BAEÌý472 Irrigation and Drainage 3
MAEÌý214
or CEÌý225
 Solid Mechanics 1
or Mechanics of Solids
 3
STÌý370 Probability and Statistics for Engineers 3
Advanced Biology Elective 3
ÌýHours15
Fourth Year
Fall Semester
BAEÌý451 Engineering Design I 2
BAEÌý478 Circular Approach to Manure Management 3
Engineering Elective 3
Ethics 3
GEP Humanities 3
ENGÌý331
or ENGÌý333
 Communication for Engineering and Technology
or Communication for Science and Research
 3
ÌýHours17
Spring Semester
BAEÌý452 Engineering Design II 2
BAE Elective 3
GEP Social Sciences 3
GEP Interdisciplinary Perspectives 2
GEP US Diversity, Equity, and Inclusion 3
GEP Humanities 3
GEP Health and Exercise Studies 1
ÌýHours17
ÌýTotal Hours128
1

A grade of C- or higher is required.

Career Opportunities

BE students learn to solve a wide variety of engineering problems and will have opportunities for specialization though selection of a specific concentration. Scientific and engineering principles are applied: to conserve and manage air, energy, soil and water resources; to manage, protect and restore natural ecosystems; to understand and utilize biological, chemical and physical processes for the production and conversion of biomass to bio energy; to analyze, understand and utilize mechanical properties of biological materials; to design and develop machinery systems for all phases of agricultural and food production; to design and evaluate structures and environmental control systems for housing animals, plant growth, and biological product storage; to develop improved systems for processing and marketing food and agricultural products; and to design sensor-based instrumentation and control systems for biological and agricultural applications.

Graduates of the BE curriculum receive a Bachelor’s of Engineering in Biological Engineering, qualifying them for positions in design, development, and research in industry, government and public institutions. The curriculum also prepares students for post-graduate work leading to advanced degrees. Typical positions filled by recent BE graduates include: stream and wetlands restoration project manager; product design; development and testing engineer; plant engineering and management; engineering analysis and inspection for federal and state agencies; engineering consultant and research engineer. Entry-level salary ranges for BE graduates are similar to those of Civil, Industrial, and Mechanical Engineering graduates.

The BAET curriculum provides graduates opportunities in technical analysis, application and evaluation of agricultural production systems and environmental systems. The curriculum’s flexibility enables students to specialize technologically in agriculture, the environment, or business management. Careers include technical jobs in production agriculture, environmental systems, agribusiness sales and service, and agricultural extension.