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Course Criteria
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3.00 Credits
Ion Exchange (IX) Principles applies concepts of water chemistry and chemical equilibrium to the development of a detailed understanding of the ion exchange process. It covers the nature of ion exchange resins, and how they are used in single-bed, two-bed, and mixed-bed systems in the creation of high purity water. It includes information on how to monitor and optimize the performance of ion exchange systems. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Electrodialysis Reversal (EDR) & Electrodeionization (EDI) Principles relates concepts of ionic conductivity and electricity to electrochemistry, as it applies to electrodialysis reversal (EDR), and then builds on this knowledge to explain electrodeionization (EDI). It discusses how ion exchange membrane sheets and electricity can be used to move ions out of a feed water stream into a concentrate stream in the EDR process. Scale control is performed by switching electrode polarity and reversing the movement of ions. Ion exchange resin beads can be added within certain chambers of the device as a means of continuously achieving even higher purity effluent water in the EDI process. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Ion Exchange (IX) System Design provides methods for designing ion exchange systems and predicting their performance. It covers how to relate incoming water quality to design variables, how to choose resin types, and size tanks. It also covers regeneration system design and flow rate calculations. It finishes with topics related to the application of ion exchange units to high purity water systems. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Ion Exchange (IX) System Analysis provides methods for determining if there is a problem with the performance of an ion exchange bed and for finding out what the problem is. It discusses the symptoms of common ion exchange problems. It details how water and resin analyses can be used to monitor and identify problems. Finally, it discusses how to fix common problems and avoid their occurrence. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Deionized (DI) Water Principles develops an understanding of the nature of deionized (DI) water as a process chemical, how it is created, and how it is used. It includes a discussion of the various DI water requirements from different industries, and the methods used to achieve those qualities. It covers many of the challenges of DI water systems and the methods used to deal with those challenges. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Deionized (DI) Water System Design explains the options available when designing a water treatment system as they are affected by the feed water quality and the desired deionized (DI) water quality. It details with the roles played by different types of water treatment equipment in their contribution to the production of a high purity water. It covers the sizing of flow rates and equipment. It also discusses the design of reclaim DI water systems and distribution piping systems. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Deionized (DI) Water System Analysis stresses the use of scheduled and documented instrument calibration in combination with the establishment of a contaminant history throughout a deionized (DI) water system, which can later be used to isolate DI water-related problems. It relates analytical techniques to common DI water equipment problems, and explains how specialized techniques can be used to identify a contaminant. It includes a method of correlating water quality trends with other process changes and isolating the problem with its DI system origination. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Deionized (DI) Water Maintenance describes how the various on-line, on-site and off-site analysis can be used to monitor the performance of a DI water system as a basis for determining its maintenance requirements. It explains the purpose and limitations of some common analytical techniques, and special concerns related to analyzing DI water. It covers the proper methods for changing our cartridge filters and verifying their integrity. It also covers methods for sanitizing piping systems. (2 C: 2 lect/pres, 0 lab, 0 other)
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3.00 Credits
Meets Mn Transfer Goal Area 6 - Humanities. Introduction to Humanities allows students to explore, celebrate, and experience the human need to create thought, visual and performing art, literature, and architecture. Prerequisite(s): READ0304, ENGL0304 or Appropriate Accuplacer Score. (3 C: 3 lect/pres, 0 lab, 0 other)
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3.00 Credits
Meets MN Transfer Goals 6 & 9 - Humanities & Ethical & Civic Responsibility. This course provides a broad introduction to Holocaust and contemporary genocide studies. Students will read, discuss, and analyze various types of Holocaust and other contemporary genocide literature, as well as, the relevant historical events and perspectives, which surround the Holocaust and other contemporary genocides. The contemporary genocides studied will vary. Prerequisite(s): READ0304, ENGL0304 or Appropriate Accuplacer Score. (3 C: 3 lect/pres, 0 lab, 0 other)
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