密苏里大学化学工程专业的主要课程描述
密苏里大学化学工程专业的主要课程描述由刀豆文库小编整理,希望给你工作、学习、生活带来方便”。
密苏里大学化学工程专业的主要课程描述
Introduction to Chemical Engineeringo CH_ENG 1000 | 2 Credit Hourso Orientation course for freshmen-level students.Introduction to careers and opportunities in chemical engineering, basic engineering principles, simple calculations.Prerequisites: Mathematics [MATH] 1500, Chemistry [CHEM] 1320, or concurrently.Introduction to Chemical Engineering9 Credit Hourso Content and number of credit hours to be listed in Schedule of Courses.Prerequisite: sophomore standing.Ma and Energy Balanceo CH_ENG 2225 | 3 Credit Hourso Industrial stoichiometry, material and energy balances, thermophysics, thermochemistry;related topics.Prerequisites: Physics [PHYSCS] 2750 , Chemistry [CHEM] 2100, or concurrently.Engineering Proce Computations and Laboratoryo CH_ENG 2226 | 3 Credit Hourso Engineering applications of ordinary and partial differential equations, spreadsheets, Matlab, discipline-specific software(Aspen), proce simulation, data collection, data regreion, and modeling of multiple experimental systems.Pre or Co4 Credit Hourso Directed study of chemical engineering problems.Prerequisite: instructor's consent.Hazardous Waste Managemento CH_ENG 4220 | 3 Credit Hourso(same as Civil Engineering 4220).Engineering principles involved in handling, collection transportation, proceing and disposal of hazardous waste minimization, legislation on hazardous wastes and groundwater contamination.Prerequisite: junior standing.Design of Experiments and Statistical Quality Control for Proce Engineerso CH_ENG 4270 | 3 Credit Hourso(same as Biological Engineering [BIOL_EN] 4270).A practical statistical tool box for experimenters: proce means, effects of variables, factorial experiments, and statistical quality control.Prerequisite: experience with Excel or instructor's consent.Advanced Engineering Math
o CH_ENG 4306 | 3 Credit Hours
(same as Nuclear Engineering [NU_ENG] 4306).Applies ordinary and partial differential equations to engineering problems;Fourier's series;determinants and matrices;Laplace transforms;analog computer techniques.Prerequisite: Mathematics [MATH] 4100.Chemodynamicso CH_ENG 4311 | 3 Credit Hourso Environmental movement of chemicals in air, water, and soil;designed to introduce students to the basic principles and techniques useful for the prediction of the movement and fate chemicals in ecosystems.Prerequisites: Chemical Engineering [CH_ENG] 3234 or instructor's consent.Air Pollution Controlo CH_ENG 4312 | 3 Credit Hourso Modeling of urban air pollution and control techniques.Topics treated are plume dispersion theories, photochemistry, methods of monitoring, methods of industrial abatement and legal aspects.Prerequisites: Chemical Engineering [CH_ENG] 3234 or instructor's consent.Biochemical Engineering Operationo CH_ENG 4314 | 3 Credit Hourso(same as Biological Engineering [BIOL_EN] 4314).Transport procees in bioreactors, agitation and aeration, scale-up, sterilization, liquid-solid separation, cell distegration, and other units operations related to product recovery.Prerequisite: instructor's consent.Introduction to Bioproce Engineeringo CH_ENG 4315 | 3 Credit Hourso(same as Biological Engineering [BIOL EN] 4315).This general introduction to bioproce engineering covers the fundamentals of microbiology and biochemistry in the context of a bioma refinery.Analyses proceed through the use of ma balances, energy balances, and empirical or theoretical models.Prerequisites: Biological Engineering [BIOL EN] 2180(for Biological Engineering students)or Chemical Engineering [CH ENG] 2225(for Chemical Engineering students)or instructor's consent.Bioma Refinery Operations
o CH_ENG 4316 | 3 Credit Hours
o(same as Biological Engineering [BIOL_EN] 4316).Design and
operation of procees for conversion and/or fractionation of bioma and aociated upstream and downstream unit operations.Emphasis on separations and product recovery.Prerequisite: Biological Engineering [BIOL EN] 2180 or o
Chemical Engineering [CH ENG] 2225(for Chemical Engineering students)or instructor's consent.Chemical Proceing in Semiconductor Deviceo CH_ENG 4317 | 3 Credit Hourso This course covers the current plasma proceing methods used to produce semiconductor devices with emphasis on memory devices.The physics and chemistry of how plasmas are formed, sustained and interact with the semiconductor wafers being proceed.Plasma chemistry and the chemical reactions used in plasma etching are discued.MATH 4100/7100.Energy Technology and Sustainabilityo CH_ENG 4318 | 3 Credit Hourso An introductory course on energy technology, resources, practices, and common calculations used for energy analysis.Prerequisite: at least one engineering thermodynamics course or a Physical Chemistry course or instructor's consent.May be repeated for credit.Introduction to Polymer Materialso CH_ENG 4319 | 3 Credit Hourso An introduction to the structure and properties of polymers.Solution properties, molecular weight determination and rheological behavior are studied.Manufacturing and proceing techniques are considered.Prerequisites: Chemical Engineering [CH_ENG] 3262 and Chemistry [CHEM] 2110.Introduction to Ceramicso CH_ENG 4321 | 3 Credit Hourso Introductory course in ceramics materials, crystal structure, procees and properties.The course content and level of presentation would allow an entry level engineering to be conversant with the terminology and concepts of ceramic science and engineering.Prerequisite: Chemistry and Physics.Transport Phenomenao CH_ENG 4335 | 3 Credit Hourso Integrated study of momentum, heat and ma transport.Prerequisites: CH ENG 3235, and MATH 4100/7100.Special Reading in Chemical Engineeringo CH_ENG 4345 | 24 Credit Hourso Directed study of chemical engineering problems.Prerequisite: instructor's consent.Undergraduate Research in Chemical Engineering6 Credit Hours
o Individual research for a senior thesis;research is
supervised by the chemical engineering faculty.The thesis is to be defended before the departmental Honors committee.Prerequisite: senior standing.o
