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Course Criteria
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3.00 Credits
Hours: 3 Course ID: 005043 This is an online or computer-assisted introductory survey course in the literature of Western Kentucky which concentrating on the major contemporary and traditional writers who are distinctly identified with that region. Approaches may include a group of authors, an historical period, or aesthetic movement, a genre, a theme or an aspect of literary theory. Lecture: 3 credits (45 contact hours). Component: Lecture Attributes: Humanities
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3.00 Credits
Hours: 3 Course ID: 005357 This is an online or computer-assisted seminar course in Kentucky literature recognizing, examining, and studying distinct regional differences and similarities with concentration on major contemporary and traditional Kentucky writers and their texts. Topics will vary, from a group of authors, and historical period or aesthetic movement, to a genre, a theme, or an aspect of literary theory. Lecture: 3 credits (45 contact hours). Component: Lecture Attributes: Humanities
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1.00 Credits
Hours: 1 Course ID: 000600 Using a seminar approach, students are exposed to an overview of chemical processes and local industries. Students will be apprised of the roles and responsibilities of chemical plant operators and laboratory technicians. Local chemical companies will provide operational tours with chemical instructional introductions. Classroom instruction focuses on local plant's chemistry and operations, quality in the chemical process industries, as well as an overview of chemical engineering terms, definitions and unit operations. Basic employability skills such as interviewing, application completion, and resume writing are also reviewed. Lecture: 2 hours. Component: Lecture
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2.00 Credits
Hours: 2 Course ID: 000027 An introductory stoichiometric course covering basic principles and calculations of chemical engineering technology. The course objective is for students to successfully formulate and solve material and energy balances on chemical process systems. Topics supporting this objective are unit conversions, chemical stoichiometry, process variables, elementary process analysis, physical chemistry properties, and computational techniques designed to teach an engineering approach to problem solving. Lecture: 2 hours. Prerequisite: MA 108, and corequisite CHE 104 or CHE 105, or consent of instructor. Component: Lecture
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3.00 Credits
Hours: 3 Course ID: 000852 Basic principles of chemical process unit operations are studied. Fundamentals of fluid flow and measurement of process variables will be stressed. Elementary laws of fluid transport are presented as well as practical aspects of piping components and designs. Additionally, fluid flow equipment and principles involving pipes pumps, valves and measurement will be explored. Lecture material corresponds to laboratory applications. Lecture: 2 hours; Laboratory: 2 hours. Prerequisite: ICT 185, MA 108, and corequisite CHE 104 or CHE105 or consent of instructor. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000377 Basic principles of industrial health and safety are discussed including accident and loss prevention, safety legislation, safety documents, safety management practices, health and safety hazards and control, safe work practices, and fire / explosion hazards. Corresponding field exercises will be performed as appropriate with participating industry representatives. Environmental regulations and their ultimate impact on a chemical facility as regulations will be discussed. An environmental audit will be performed in the field at participating local industries. Lecture: 3 hours. Corequisite: ICT 185, CHE 104 or 105, or consent of instructor. Component: Lecture
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3.00 Credits
Hours: 3 Course ID: 000441 Basic principles of chemical process unit operations are studied. Fundamentals of heat and mass transfer operations will be stressed as well as chemical reaction vessels. Elementary laws and operations of heat and mass transport phenomenon and equipment are presented. Principles are presented in relation to various unit operations. Lecture material corresponds to laboratory applications. Lecture: 2 hours; Laboratory: 2 hours. Prerequisite: ICT 220. Component: Laboratory, Lecture
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3.00 Credits
Hours: 3 Course ID: 000813 Focuses on operation and control of a chemical plant as required by the chemical plant operator. Basic principles of chemical process systems and their associated control strategies are stressed. Fundamentals of automated process control systems will be discussed and those principles are related to various unit operation computer generated simulations. Practical study of process control systems as applied to chemical process systems and coordinated with the associated lab course. Lecture: 2 hours; Laboratory: 2 hours. Prerequisite: ICT 220, ICT 230 or consent of instructor. Component: Laboratory, Lecture
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2.00 Credits
Hours: 2 Course ID: 003981 Capstone class for ICT program. Working in teams, students will participate in an interactive project which provides the opportunity to demonstrate the practical application of the ICT curriculum. Each team will have responsibility for a simulated chemical plant operation. Focus is on planning, implementation, safe operation and control as required of a chemical plant operator. There is no classroom instruction for this course, but projects will be evaluated upon completion by an industrial advisory board. Students are expected to provide feedback to their instructor regarding the participation level of each individual. Laboratory: 4 hours. Component: Laboratory
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3.00 Credits
Hours: 1 - 3 Course ID: 005084 An independent problem(s) and/or special project(s) in Industrial Chemical Technology. The student will have to do research, and/or troubleshoot problems. A written paper will be required. May be repeated once for up to three credits. Prerequisite: (ICT 185 and ICT 220 and ICT 230) or Consent of Instructor. Lecture: 1-3 credits (15-45 contact hours). Component: Lecture
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