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Course Criteria
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3.00 Credits
Description: Design and operation of surface, sprinkler, and trickle irrigation systems based on economic and environmental criteria. Graduate-level requirements include a special project. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M. Eng Website (http://www.oneflexibledegree.com) for details. Credit for: 2 units engineering design, 1 unit engineering science. Identical to: C E 556. May be convened with: ABE 456. Usually offered: Spring.
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3.00 Credits
Description: Water quality and system design for agricultural drainage and waste-water systems. Graduate-level requirements include a special project. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M. Eng Website (http://www.oneflexibledegree.com) for details. Credit for: 1.5 units engineering design, 1.5 units engineering science. Identical to: C E 558. May be convened with: ABE 458. Usually offered: Spring.
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3.00 Credits
Description: This course will cover issues and concepts relating to the design of domestic and small commercial onsite wastewater treatment and recycling systems. Graduate-level requirements include an additional design project in order to receive graduate credit. Grading: Regular grades are awarded for this course: A B C D E. Special course fee required: Special fee may apply for web delivered sections. See the M.Eng Website (http://www.oneflexibledegree.com) for details. May be convened with: ABE 459. Usually offered: Spring.
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3.00 Credits
Description: Advanced topics in watershed hydrology; rainfall-runoff, infiltration, overland flow routing, sediment modeling, statistical analysis and research methods in hydrology. Graduate students will be required to do additional exercises. Grading: Regular grades are awarded for this course: A B C D E. Identical to: WS M 567; WS M is home department. May be convened with: ABE 467. Usually offered: Fall.
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3.00 Credits
Description: Controlled environment agriculture is the most effective technique to maximize crop yield and to produce high quality products with limited amounts of resources and minimal impact to the environment. Students will learn the major environmental factors affecting plant growth and development under controlled environment and will understand interactions between plants and their microenvironments. Lectures cover critical controlled environment issues and practices of plant production in greenhouse, plant production factory, tissue culture vessels and post-harvest storage, with an introduction to the current research status in these areas. Graduate-level requirements include a research paper on a specific topic within plant physiology under controlled environment. The paper should be a critical review of the current literature on the topic chosen. Grading: Regular grades are awarded for this course: A B C D E. May be repeated: for credit 1 time (maximum 2 enrollments). Identical to: PL S 575A; PL S is home department. May be convened with: ABE 475A. Usually offered: Spring.
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3.00 Credits
Description: Students will learn principles, methods, and techniques related to the measurement and control of environmental factors affecting plant growth under controlled environment. Students will learn application of instrumentation and design a simple controlled environment/measurement system for plant production. Grading: Regular grades are awarded for this course: A B C D E. Course includes 1 or more field trips. Prerequisite(s): MATH 110, MATH 113, PHYS 102. Typical structure: 3 hours laboratory, 2 hours lecture. Identical to: PL S 579. Usually offered: Spring.
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3.00 Credits
Description: To learn to apply to the design of biological systems principles of engineering, science and mathematics, including, but not limited to statistics, kinetics, sensors and bioreactor design and scale up. To explore and be familiar with the principal areas of biological engineering such as food process engineering, tissue engineering, and other large-scale fermentation processes. Graduate-level requirement includes an oral presentation and belonging to the Journal Club. Grading: Regular grades are awarded for this course: A B C D E. Identical to: CHEE 581A; CHEE is home department. Usually offered: Fall.
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3.00 Credits
Description: Application of engineering fundamentals, such as heat and mass transport, thermodynamics, kinetics, and the process of design to the fields of biotechnology, fermentation, food processing and bioseparation. Graduate-level requirements include two additional design projects, homework problems requiring a greater degree of mathematics, and exams containing questions which evaluate a higher level of thought processes. Grading: Regular grades are awarded for this course: A B C D E. Identical to: BME 581B, CHEE 581B. May be convened with: ABE 481B. Usually offered: Spring.
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3.00 Credits
Description: Fundamental differential equations of plant systems are solved using analog computer methodology. Analysis of soil temperature and moisture, mulched systems, plant growth, and greenhouse environments are simulated using dynamic digital programs, CSMP and ACSL. Parameters of radiation, heat, and moisture transfer , CO2 and unique soil properties are utilized to provide realistic simulation of cyclic conditions. Graduate-level requirements include a special project. Grading: Regular grades are awarded for this course: A B C D E. Credit for: 2 units engineering science, 1 unit engineering design. Identical to: CHEE 582, BME 582. May be convened with: ABE 482. Usually offered: Summer.
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3.00 Credits
Description: An introduction to the technical aspects of greenhouse design, environmental control, hydroponic crop production, plant nutrient delivery systems, intensive field production systems, and post-harvest handling and storage of crops. Graduate-level requirements include submission of a comprehensive report related to a specific greenhouse design project. Grading: Regular grades are awarded for this course: A B C D E. Typical structure: 3 hours laboratory, 2 hours lecture. Identical to: PL S 583. May be convened with: ABE 483. Usually offered: Fall.
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