2011-2012 Undergraduate Catalog [ARCHIVED CATALOG]
Biological and Agricultural Engineering
|
|
|
Joseph Harner, Head
Professors: G. Clark, Douglas-Mankin, Harner, Maghirang, Murphy, Rogers, Slocombe, Steichen, Wang, Wolf, and Zhang; Associate Professors: Barnes and Hutchinson; Assistant Professors: Price and Yuan; Instructor: Brokesh; Adjunct Professor: Casada, Dowell, and Steele; Adjunct Associate Professors: Chang, Hagen, Martin, and Pearson; Adjunct Assistant Professors: Hagen, Armstrong, and Wagner; Emeriti Professors: Alam, Chung, S. Clark, Johnson, Koelliker, Larson, Manges, Powell, Schrock, and Wendling; Emeriti Associate Professors: Baugher and Thierstein.
129 Seaton Hall
785-532-5580
Fax: 785-532-5825
E-mail: contact-l@bae.k-state.edu
www.bae.k-state.edu
Biological Systems Engineering
Biological systems engineers provide an essential link between the biological sciences and engineering, which uses physical and chemical science to solve practical problems. Engineering fundamentals are applied to achieve the goal of a safe and stable food and renewable energy supply while considering human and environmental factors. Three curriculum options are available.
Educational Program Objectives
The biological systems engineering program prepares students for professional engineering careers relating to the production and processing of agricultural and biomass materials for food, non-food, and fiber products while conserving natural resources and protecting our environment. It is our goal to give students the best possible education toward that end within the Accreditation Board for Engineering and Technology (ABET) program criteria for biological systems engineering.
The educational objectives of the biological systems engineering program are that: (1) Graduates are able to design and analyze components and processes in agricultural, biological, or environmental systems; (2) Graduates are successful practitioners in industry, government, consulting firms, or other diverse careers; and (3) Graduates are pursuing continuing education and professional development.
Educational Program Outcomes
While you are a student pursuing a degree in biological systems engineering (BSE) at Kansas State University, you will be taking a variety of courses to provide an educational background that will help you to achieve the BSE Program Educational Objectives. As you take these courses and participate in other scholastic activities, you will be achieving a variety of Program Outcomes (Student Learning Outcomes, SLO’s) that were developed to help you to become successful. By the time students graduate from the BSE program they will have: (1) An ability to apply knowledge of mathematics, science, and engineering; (2) An ability to design and conduct experiments, as well as to analyze and interpret data; (3) An ability to design a biological and agricultural engineering system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability; (4) An ability to function on multi-disciplinary teams; (5) An ability to identify, formulate, and solve engineering problems in agriculture, food, or other biological systems; (6) An understanding of professional and ethical responsibility; (7) An ability to communicate effectively; (8) The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context; (9) A recognition of the need for, and an ability to engage in life-long learning; (10) A knowledge of contemporary issues; and (11) An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.
Environmental option
Biological systems engineers work at the interface between biology and engineering. They must be knowledgeable in both disciplines. Applications in the environmental option include water quality studies of lakes, rivers, and groundwater, soil and water conservation, irrigation and drainage, system design and management, waste treatment, management of air quality inside buildings and outside, remediation of land damaged by construction, mining, and other uses.
The environmental option focuses on the design and management of systems that use or impact natural resources. Non-point pollution issues have long been a component of agricultural engineering programs. Soil conservation programs began in the 1930s, long before the environmental movement began. Point and non-point pollution sources still impact the environment, requiring biological systems engineering expertise to develop solutions to those problems. This option is distinct from but interfaces with the environmental option in civil engineering.
Secondary major in natural resources and environmental sciences
Students enrolled in biological systems engineering, regardless of option, may participate in the natural resources and environmental sciences secondary major. Courses used for the secondary major may also be used for completing regular graduation requirements.
Biological option
Biological systems range in size from cells to complex groups of living organisms. Biological engineers work with these systems in areas that include biomaterials, bioinstrumentation, biological systems modeling, bioremediation, food and fiber processing, and energy from biological products. The biological option fulfills the requirements for a BS in biological systems engineering while providing students with the flexibility to receive a strong “biological” emphasis in their engineering program. Course selections also provide students with the option of a biology minor, or they can opt to meet the requirements for a pre-medical or pre-veterinary program. Graduates in this program area can pursue careers and/or additional studies in fields such as environmental engineering, biological systems engineering, biomedical engineering, food process engineering, medicine, natural resources, and related areas.
Machinery Systems option
Many biological systems engineers design, test, and evaluate the machines used in agriculture, construction, and related offhighway industries. The machinery systems option provides graduates with the analytical tools needed to develop machines that reduce the cost of production for both traditional and new crops, while operating within environmental and energy constraints. This option includes courses that emphasize mechanical design as well as the interaction of machines with soil and plant materials. Related technologies such as fluid power, instrumentation, and electronic controls are also included in this option.
Agricultural technology management (B.S.)
Agricultural technology management Minor
Baccalaureate
Concurrent B.S./M.S.
Secondary Major
BAE 020 - Engineering Assembly Credits: (0) Presentation of professional problems and practices by students, faculty, and professionals associated with the career of biological and agricultural engineering.
Note One hour lecture a month.
When Offered Fall, Spring, Summer
UGE course No
K-State 8 None
KSIS Course Search
BAE 101 - Introduction to Biological and Agricultural Engineering and Technology Credits: (1) Introduction to discipline, department, university, and profession. Exploration of career option. Gain skills through application-oriented problem solving.
Note One hour recitation a week.
When Offered Fall
Cross-listed ATM 101
UGE course No
K-State 8 Ethical Reasoning and Responsibility
KSIS Course Search
BAE 131 - Introductory Design for Biological and Agricultural Engineers Credits: (1) Gain skills in biological and agricultural engineering topics through experiential design labs, application-oriented problem solving, computer use, teamwork, and written and oral communication.
Note Three hour lab a week.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 231 - Biological Systems Engineering Project I Credits: (1) Completion of a team-oriented design project, with emphasis on applying computer tools to problem solving in biological systems engineering.
Note Three hour lab a week
Requisites Prerequisite: BAE 131.
When Offered Spring
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Global Issues and Perspectives
KSIS Course Search
BAE 331 - Biological Systems Engineering Project II Credits: (1) Completion of a team-oriented design project, with emphasis on systems design, data collection, and quantitative analysis related to biological systems engineering.
Note Three hours lab a week.
Requisites Prerequisite: BAE 231.
When Offered Fall
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Natural and Physical Sciences
KSIS Course Search
BAE 345 - Properties of Biological Materials Credits: (2) Characterization of biological material properties that affect the design and analysis of material handling equipment and processes. Physical, electrical, thermal, mechanical, aerodynamic, hygroscopic, and rheological properties of grain and other agricultural products will be examined.
Note One hour recitation and three hours lab a week.
Requisites Prerequisite: PHYS 213.
When Offered Spring
UGE course No
K-State 8 None
KSIS Course Search
BAE 350 - Agricultural Machinery Systems Credits: (2) Basic power and energy concepts. Machinery systems for tillage, planting, and harvesting crops. Impact of these systems on the environment and natural resources.
Note Two hours recitation a week.
Requisites Prerequisite: CHM 210.
When Offered Fall
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Natural and Physical Sciences
KSIS Course Search
BAE 351 - Agricultural Machinery Systems Lab Credits: (1) Basic power and energy concepts. Machinery systems for tillage, planting, and harvesting crops. Impact of these systems on the environment and natural resources.
Note Three hours lab a week.
Requisites Must be taken concurrent with BAE 350.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 499 - Honors Research in Biological and Agricultural Engineering Credits: (Variable) Individual research problem selected with approval of faculty advisor.
Note Open to students in the college of engineering honors program. A report is presented orally and in writing during the last semester.
Requisites Prerequisite: BAE senior and 3.5 GPA.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 535 - Structures and Environment Engineering Credits: (3) Environmental control for agricultural buildings and structures; analysis and design of structural systems and members for agricultural structures.
Note Three hours recitation a week.
Requisites Prerequisite or concurrent enrollment: ME 513 and CE 333 or CE 530.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 536 - Biological Systems Engineering Senior Design Credits: (3) Team-oriented design laboratory, with projects selected to address design of equipment or systems to produce or process food, fiber, and energy, or to preserve environmental quality, remediate damage, and conserve natural resources.
Note Three 3-hour labs a week.
Requisites Prerequisite: BAE 331 and one of the following courses: ME 533, BAE 545, BAE 560.
When Offered Fall
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Ethical Reasoning and Responsibility
KSIS Course Search
BAE 545 - Biological Process Engineering Credits: (3) Analysis and design of biological and agricultural processes.
Note Three hours recitation a week.
Requisites Prerequisite or concurrent enrollment: CHE 320 or ME 571.
When Offered Fall
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Natural and Physical Sciences
KSIS Course Search
BAE 560 - Natural Resource Engineering I Credits: (3) Principles and measures for controlling storm water runoff and soil erosion including hydrology and surface water flow; design of water handling structures for land drainage, flood protection, and irrigation.
Note Three hours recitation a week.
Requisites Prerequisite: STAT 490. Prerequisite or concurrent enrollment: ME 571.
Not available for students with credit for CE 550.
When Offered Spring
UGE course No
K-State 8 None
KSIS Course Search
BAE 620 - Problems in Agricultural Engineering Credits: (Variable) Problems in the design, construction, or application of machinery or power in agriculture, structures, modern conveniences, and rural electrification.
Requisites Prerequisite: Approval of instructor.
When Offered Fall, Spring, Summer
UGE course No
K-State 8 None
KSIS Course Search
BAE 636 - Biological Systems Engineering Design Project Credits: (1-3 Variable) A continuation of BAE 536. Completion of a team-oriented design project, with emphasis on construction, evaluation, documentation, and presentation of the design.
Requisites Prerequisite: BAE 536 or other approved capstone design course.
When Offered Fall, Spring
UGE course No
K-State 8 None
KSIS Course Search
BAE 640 - Instrumentation and Control for Biological Systems Credits: (3) Fundamentals of instrumentation and control engineering applied in biological and agricultural systems and processes. Time-domain analysis and frequency response methods. Sensors and actuators in feedback control systems. Control system design. Case studies.
Note Two hours recitation and three hours lab a week.
Requisites Prerequisite: ECE 510 or ECE 519, and MATH 240.
When Offered Spring
UGE course No
K-State 8 Empirical and Quantitative Reasoning
Natural and Physical Sciences
KSIS Course Search
BAE 642 - Fundamentals of Conversion of Biorenewable Resources Credits: (3) An introduction to the conversion of biorenewable resources into biobased products and biofuels.
Note Three hours of recitation a week.
Requisites Prerequisite: MATH 220 and CHM 230.
When Offered Upon sufficient demand
Cross-listed CHE 642
UGE course No
K-State 8 None
KSIS Course Search
BAE 643 - Life Cycle Assessment Credits: (3) Examination of the process and methodologies associated with life cycle analysis. Application of the methods developed in the course to a project to gain experience in defining and quantifying uncertainty associated with human perturbation, management and utilization of biofuels and other complex processes.
Note Three hours recitation per week.
Requisites Prerequisite: MATH 220 and CHM 230.
When Offered Upon sufficient demand
Cross-listed CHE 643
UGE course No
K-State 8 None
KSIS Course Search
BAE 650 - Energy and Biofuel Engineering Credits: (3) Energy use and production in agriculture and related industries. Energetics of primary production, including crop energy conversion. Energy and material balances of biomass energy production and processing systems, including energy embodied in fertilizers and pesticides. Review of the role of fossil fuels in agricultural and forestry operations, including opportunities for energy conservation. Impact of alternative fuels on internal combustion engine emissions.
Note Three hours lecture a week.
Requisites Prerequisite or concurrent enrollment: ME 513.
When Offered Spring
UGE course No
K-State 8 None
KSIS Course Search
BAE 651 - Air Pollution Engineering Credits: (3) Air pollution legislation, standards, measurement, and terminology. Design and economics of particulate pollution control systems including cyclones, fabric filters, wet scrubbers, and electrostatic precipitators. Abatement of gas and vapor pollution using VOC incineration, gas adsorption and gas absorption. Meteorology and atmospheric dispersion modeling.
Note Three hours recitation.
Requisites Prerequisite: ME 513, 571.
When Offered Spring
UGE course No
K-State 8 None
KSIS Course Search
BAE 660 - Natural Resource Engineering II Credits: (3) Design and operative problems on the fundamentals of irrigation/water application system design and management. Field water balances; sources of water and water quality; pipeline, pump, and system hydraulic design; design of irrigation/water application systems; filtration systems and water treatment.
Note Three hours recitation a week.
Requisites Prerequisite: BAE 560 or CE 550. Prerequisite or concurrent enrollment: ME 571.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 663 - Environmental and Ecological Risk Assessment Credits: (3) Examination of processes and methodologies associated with human environmental and ecological risk assessments. Application of the methods learned to a project to gain experience in defining and quantifying uncertainty associated with human perturbation, management and restoration of environmental and ecological processes.
Note Three hours recitation per week.
Requisites Prerequisite: MATH 221 and BIOL 455.
When Offered Upon sufficient demand
Cross-listed CHE 663
UGE course No
K-State 8 None
KSIS Course Search
BAE 665 - Ecological Engineering Design Credits: (3) Definition, classification, and practice of ecological engineering. Course describes ecological systems, ecosystem restoration, and the utilization of natural processes to provide societal services and benefits to nature.
Note Three hours recitation a week.
Requisites Prerequisite: MATH 221 and one of the following courses: BAE 560, CE 563, BIOL 529, BIOL 612, ATM 661.
When Offered Fall
UGE course No
K-State 8 None
KSIS Course Search
BAE 669 - Watershed Modeling Credits: (3) Study and evaluation of process equations used in watershed-scale, water-quality models. Use and application of watershed models.
Note Three hours recitation a week.
Requisites Prerequisite: GEOG 508 and one of the following courses: BAE 560, CE 550, ATM 661.
When Offered Spring, even years
UGE course No
K-State 8 None
KSIS Course Search
BAE 740 - Biomaterials Processing Credits: (3) Technologies of bio-based material processing including starch extraction (wet milling), plant oil extraction and refining, plant protein extraction and processing, cellulose processing, biofuel production, chemicals bioconversion, and drying technologies or biomaterials.
Note Three hours recitation a week.
Requisites Prerequisite: BAE 500 or BAE 575 or GRSC 602.
When Offered Fall, even years
Cross-listed GRSC 740
UGE course No
K-State 8 None
KSIS Course Search
BAE 750 - Analysis and Design of Off-Highway Vehicles Credits: (3) Analytical study of design, testing, construction, and operating characteristics of off-highway vehicles and machinery. Includes human factors, mobility, and precision agriculture.
Note Two hours recitation and three hours lab a week.
Requisites Prerequisite: BAE 536 or ME 574.
When Offered Spring, on sufficient demand
UGE course No
K-State 8 None
KSIS Course Search
BAE 760 - Environmental Engineering Seminar Credits: (0) Discussion of current advances in research and practice of environmental engineering.
Note One hour seminar biweekly.
When Offered Fall, Spring
Cross-listed CE 760
UGE course No
K-State 8 None
KSIS Course Search
BAE 768 - Geoenvironmental Engineering Design Credits: (3) A capstone design project in geoenvironmental engineering focused on resolving issues related to containment of pollutants and remediation of soil and groundwater.
Requisites Prerequisite one of the following: AGRON 605, AGRON 746, BAE 690, CE 625, CE 654, CHE 531, or GEOL 611.
When Offered Spring
Cross-listed CE 768 and CHE 768
UGE course No
K-State 8 None
KSIS Course Search
|