State Technical College of Missouri
MNT 118 Electrical Theory and Safety. This course teaches key concepts in electrical theory. These concepts are developed and applied to AC/DC motors, switchgears, transformers, chargers, and inverters. Electrical drawings and schematics fundamentals are covered. This course teaches the hazards associated with industrial electricity, electric power generation, safety rules, and safe work practices. Human performance tools and their uses to promote event-free operation are also discussed and utilized in detail. Prerequisite: MAR 101 with a grade of “C” or better. 4 credit hours.
MNT 189 Reactor Plant Components. Introduction to basic mechanical and electrical components used by nuclear power plants such as different types of piping, valves, pumps, ejectors, filters, turbines, heat exchangers, compressors, lubrication systems, valve actuators, breakers, transformers, relays, and other equipment. Basic heat transfer, fluid flow, and plant materials theories are included in the course. 4 credit hours.
MNT 197 Basic Reactor Safety, Theory, and Operations. Introduction to the fission process, reactivity/criticality, basic reactor kinetics, heat removal, reactor types, nuclear power plant chemistry, and elementary thermodynamics. Prerequisites: MNT 107 and MNT 189 with a grade of “C” or better. 4 credit hours.
MNT 211 Piping and Instrumentation Drawings. Types of piping and instrumentation components, their construction and their schematics; reading of piping and electrical drawings; and lockout/tagout procedures applicable to the nuclear utility industry. Prerequisites: MAR 101 and MNT 189 with a grade of “C” or better. 2 credit hours.
MNT 223 Radiation Detection. Types of detector systems (ionization, Geiger-Muller, proportional counters, liquid and solid scintillation, semiconductor) and their uses, statistics of radioactive decay, systems for radiation detection (NIMBIN systems, preamplifiers, amplifiers, single channel analyzers, multi-channel analyzers), experimental design and measurement, data reduction. Laboratories will include measurement of radioactive decay, measurement of radiation attenuation, utilization of systems for alpha, beta and gamma radiation counting and spectroscopy. Prerequisite: MNT 114 with a grade of “C” or better. 4 credit hours.
MNT 233 Radiation Dosimetry. Radiation biology, radiation effects on simple chemical systems, biological molecules, cell, organisms and humans. Stochastic vs. deterministic effects, units of exposure, dose and dose equivalent, external dosimetry, internal dosimetry, control of external and internal exposure, detector and instrumentation systems for measuring dose. Corequisite: MNT 114. 3 credit hours.
MNT 247 Radiation Protection. Practical applications and demonstrations of radiation protection and health physics. Radiological survey & analysis instruments, radiation monitoring systems, sample collection equipment, calibration sources and equipment, radiological protection standards, contamination control, monitoring of radiological work, radiological incident evaluation and control, decontamination, radioactive materials control, environmental monitoring. Prerequisites: MNT 223 and MNT 233 with a grade of “C” or better. 4 credit hours.
MNT 270 Thermodynamics, Fluid Flow, and Advanced Reactor Theory. Topics include properties of steam/water, advanced heat transfer, thermodynamic cycles and efficiency, heat exchanges, fuel cell heat transfer, pump theory and laws, cavitation, and erosion of piping components. Advanced reactor kinetics, heat removal, nuclear power plant chemistry, reactivity calculations, reactor plant materials, reactor sensors, and radiation detectors are also covered. Prerequisites: MNT 197 and MNT 274 with a grade of “B” or better. 5 credit hours.
MNT 274 Reactor Plant Systems. This course covers the purpose, operation, and flow paths of basic reactor systems including many of the systems in ACAD 90-016 Section 7.2. Prerequisite: MNT 189 with a grade of “B” or better. Corequisite: MNT 197. 3 credit hours.
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