On-the-job training/work experience with municipalities or industries, working in water or wastewater treatment plants, high purity water plants, industrial waste plants, distribution systems, or wastewater collection systems. May be repeated up to 5 credits. Consent of Instructor required. Restricted to: Water Technology majors. Graded: S/U Grading (S/U, Audit). Restricted to Community Colleges campuses only.

This course will introduce students to electrical safety, theory, and the function, operations, programming and troubleshooting of the PLC controlling common electrical components utilized in control circuits associated with the water and wastewater industry. Restricted to: Community Colleges only.

Whether taking classes or working on a job site, students enrolled in this program will be required to perform the same job duties and be able to meet the same physical requirements that they will as graduates in the field. Depending where they find employment, graduates may be required to

Covers sampling techniques, analysis, and evaluation of wastewater contaminants using gravimetric, volumetric, spectrophotometric, and other instrumentation methods.

Principles of high purity water production including microfiltration, ultra-filtration, reverse osmosis, and deionization.

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Opportunities for students to gain new knowledge and skills in operations, maintenance, and laboratory areas are provided through classroom training, hands-on laboratories, field trips, guest lectures, and training on the program’s own water and wastewater plants.

While jobs are widely available, training programs like this one are rare. As the treatment of water becomes more technical, municipalities and industries rely on training programs to fill their needs. Students in this program learn how to clean water to make it safe for drinking and how to purify water to a high quality for use in computer chip manufacturing, food processing, or steam generation. They will also learn how to treat wastewater so it can be safely returned to the environment or reclaimed for beneficial use. Instruction also includes maintaining equipment such as pumps, motors, valves, and chemical feeders; laboratory testing and analysis; water and wastewater chemistry and microbiology; applied math; and some basics of supervising and managing a water utility, including budgets, preventive maintenance schemes, and billing. Various course assignments requiring laboratory data sheets, simple process control spreadsheets, and term papers enable students to sharpen their computer and writing skills. General studies in basic algebra, speech, and technical writing round out the curriculum.

Theory of water systems operation including surface water treatment, fluoridation, sodium zeolite softening, corrosion control, iron removal, various filtration methods, and overview of SDWA.

Basic tools, equipment, maintenance schedules, chlorinator trouble-shooting, and chlorine safety. Hands-on training with valves, pumps, meters and chlorination equipment.

The Water Technology program is an award-winning, up-to-date technical training opportunity that will open doors to a career anywhere in the United States. Graduates of this program have found work in New Mexico, Colorado, Texas, Arizona, California, Vermont, New Hampshire, Iraq, and Puerto Rico. More than 400 graduates have begun careers in the water field, working in such diverse areas as the semiconductor industry, the food processing industry, aerospace industry, electrical power industry, city water and wastewater departments, municipal or contract analytical laboratories, water reuse or recycling plants, metal plating companies, engineering consulting firms, and state planning offices.

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Introduction to water and wastewater treatment operational tests such as BODs, solids testing, activated sludge control tests, use of microscope, and bacteriological techniques.

Review of water and wastewater plant operations and laws in preparation for state certification exams. Restricted to Community Colleges campuses only.

Before graduating, students will spend a minimum of 180 hours at an internship site with a municipality or industry. Students have found co-ops at water and wastewater plants and laboratories in Albuquerque, El Paso, Las Cruces, Socorro, Hobbs, Silver City, Mesilla, and Glorieta, and with industries such as Intel and Kurita America.

Learning Outcomes Identify appropriate process changes for different wastewater processes. Identify appropriate process changes for different water processes. Identify corrective actions for equipment failure. Identify analytical data required to complete process control calculations. Accurately complete water process control calculations. Accurately complete wastewater process control calculations. Evaluate operational problems. Identify the sampling points for data collection.View Learning Outcomes

Overview of microorganisms associated with water and wastewater. Growth and reproduction, energy production, and methods of counting.

Name: Karina Diven, Advanced Technologies Administrative Assistant Office Location: DATS 155 Phone: (575) 527-7590 Email: KDiven@dacc.nmsu.edu

Learning Outcomes Evaluate invalid labs analysis to determine corrective actions. Identify information/data required to complete calculations. Accurately perform calculations. Demonstrate correct/accurate laboratory technique. Demonstrate correct/accurate laboratory technique. Perform operational/laboratory duties safely.View Learning Outcomes

NOTE: Students must achieve a cumulative grade-point average of 2.0 with a final grade of C- or better in ENGL 1110G Composition I and a final grade of C- or better in all required WATR courses. The remaining courses are applicable toward the bachelor of applied studies degree offered by the NMSU College of Extended Learning. At least 36 hours of the technical requirements are applicable toward the bachelor’s degree in agricultural and extension education offered by the College of Agricultural, Consumer and Environmental Sciences at New Mexico State University.

Introduction to basic water and wastewater mathematics, flows through distribution networks and collection systems, and fundamentals of flow measurement.

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Some positions in the field require certification and the licensing agency may not provide special testing accommodations.

Covers NPDES permits and DMR calculations and reporting; 503 sludge regs, including pathogen and vector attraction reduction and pollutants; wetlands, composting, and wastewater treatment ponds microbiology; activated sludge bulking and foaming microbiology and treatment; and use of selector to remove nutrients and prevent the growth of filamentous bacteria.

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Operations of various water treatment systems including surface water treatment, sodium zeolite softeners, and various filtration methods.

Financial aid beyond loans, grants, work-study monies, and DACC scholarships include nine private scholarships specifically for Water Technology students:

Sampling techniques, analysis, and evaluation of potable water contaminants using gravimetric, volumetric, spectrophotometric, and other instrumentation methods.

Name: Megan Hernandez-Smith, Advanced Technologies Academic Advisor Office Location: DATS 155C Phone: (575) 528-7242 Email: mehernandez@dacc.nmsu.edu