Please note the critical-tracking requirements below on a per-semester basis. If the Physical Chemistry Topics 3 credit requirement is satisfied by a 4 credit course, the additional credit satisfies 1 credit of the Technical elective requirement. Box 114000, 0000001458 00000 n ECH6326 Computer Control of Processes 3 Credits. To proceed to succeeding courses, minimum grades of C are required in the following within two enrollments (including drops and/or withdrawals) for each course: Any course taken to satisfy a degree requirement (general education, required course or technical elective) cannot be taken S-U, with the exception of the following: Within a few years of obtaining a bachelor's degree in chemical engineering from the University of Florida, the recent graduate will achieve one or more of the following: Chemical engineers apply math, chemistry, physics, biology, thermodynamics (classical and molecular), transport phenomena, and reaction kinetics to design products and to design, operate, control, optimize, and scale up manufacturing processes that rely on physical and bio/molecular transformations. Classification of polymerization types and mechanisms from a mechanistic organic point of view. Formulation and solution of material and energy balances utilizing physical/chemical properties of matter as applied to analyzing unit operations systems. Practical engineering work under industrial supervision as set forth in college regulations. 0000009320 00000 n ECH3203 Fluid and Solid Operations 3 Credits. Structure, configuration, conformation, and thermodynamics of polymer solutions, gels, and solids. You may be trying to access this site from a secured browser on the server. Discussion of issues associated with development of a professional career in chemical engineering. To graduate with this major, students must complete all university, college, and major requirements. Pass assessment in two courses of individual assignments targeted to each learning outcome. Phone: 352-392-2244; Fax: 352-846-1126. Working closely with industry liaison engineers and a faculty coach, students gain practical experience in teamwork and communication, problem solving and engineering design, and develop leadership, management and people skills. ECH6270 Continuum Basis of Chemical Engineering 3 Credits. Properties of chemical substances, transport phenomena, non-Newtonian fluid dynamics, turbulence, applied mathematics, computer science, biochemical and electrochemical engineering. Prerequisite: Admission to the ChE graduate program or by consent of instructor, dependent upon prior background in undergraduate fluid mechanics and heat and mass transfer, at a level required to obtain an undergraduate degree in Chemical Engineering. Engineering applications, including corrosion. This semester plan represents an example progression through the major. Prerequisite: PHY2049 and 2056L, CHM2046 and 2046L, MAC2312 or equivalent. ECH4948 Internship Work Experience 0-3 Credits. HWn6+ 0-3 credits, repeatable (S-U). This semester plan represents an example progression through the major. Graduates will demonstrate professional engineering competence via promotions and/or positions of increasing responsibility. Technical electives are defined as department-approved, upper-division courses with significant technical science, engineering, and/or math content. ECH3023 Material and Energy Balances 4 Credits. UF Office Directory |
0000001479 00000 n Phone: 352-392-2244; Fax: 352-846-1126. Preliminary design of convention chemical processes including process specifications, sitting and layout, equipment sizing, utility and manpower needs, safety and hazard analysis, environmental considerations and economic evaluation. Statistical mechanical theories that connect molecular structure to macroscopic properties. The education of the chemical engineer is based on the fundamental sciences of physics, chemistry and biology, on mathematical and computer techniques, and on basic engineering principles. Military courses cannot be used for technical electives. The PDF will include all information unique to this page. Please note the critical-tracking requirements below on a per-semester basis. Separations processes, reactor design, applied molecular and kinetic theory, thermodynamics, particulate systems. Steady state conduction in solids and heterogeneous materials, transient conduction, convection heat transfer, heat transfer during boiling and condensation, radiation heat transfer, design of heat-transfer equipment and heat exchange networks. The PDF will include all information unique to this page. Graduates will be successful in pursuing advanced degrees in chemical engineering or in other disciplines. The chemical engineering program enables students to apply knowledge of mathematics, science and engineering principles to chemical engineering problems; to design and conduct chemical engineering experiments and to analyze and interpret the data; to design a chemical engineering system, component or process to meet desired needs within realistic economic, environmental, social, political, ethical, health and safety, manufacturability and sustainability constraints; and to communicate technical data and design information effectively in speech and in writing to other chemical engineers. ECH6847 Advanced Mathematics for Chemical Engineering 3 Credits. Prerequisite: a course on kinetics and/or transport, or consent of instructor. 0000002996 00000 n 0000009299 00000 n 0000005955 00000 n P.O. Prerequisite: (ECH3203 and ECH3223 and ECH4123 and ECH4824) or instructor permission. UF Home, Office of the University Registrar, 222 Criser Hall, P.O. Within a few years of obtaining a bachelor's degree in chemical engineering from the University of Florida, the recent graduate will achieve one or more of the following: The chemical industry alone provides an opportunity for the chemical engineer to participate in the research, development, design or operation of plants for the production of new synthetic fibers, plastics, chemical fertilizers, vitamins, antibiotics, rocket fuels, nuclear fuels, paper pulp, photographic products, paints, fuel cells, semiconductors and the thousands of chemicals that are used as intermediates in the manufacture of these products. For the purposes of determining admission to or retention in the department, grade point averages will be based on no more than two attempts for each course. d2-&A,L$nm#^d!, 0000051129 00000 n Computer-aided design methods. Design a chemical engineering system, component or process to meet desired needs within realistic economic, environmental, social, political, ethical, health and safety, manufacturability and sustainability constraints. Integrated introduction to transport processes in continuous media with emphasis on fluid mechanics and heat and mass transfer. Prerequisite: ECH3101 and ECH3203 and ECH3223 and STA3032 or STA2023; Attributes: Satisfies 6000 Words of Writing Requirement, ECH4323 Process Control Theory 3 Credits. However, a maximum of 3 credits from ECH4949 and ECH 4948 can count towards the Chemical Engineering degree. Practical co-op work experience under approved industrial supervision, as set forth in college regulations. Applications to modeling and analysis of physical and chemical processes undergoing change.
The Integrated Product and Process Design program (ECH 4912 and ECH 4913) requires six credits of coursework and is offered as a sequence of two three-credit courses during fall and spring of the senior year. Although chemical engineering has existed for only 100 years, its name is no longer completely descriptive of this dynamic profession. 0000007030 00000 n ABET EAC Program Educational Objectives, Student Outcomes, and Enrollment and Graduation Numbers can be found on thecollege website. The structure of synthetic and natural polymers and polyelectrolytes. Technical electives are defined as department-approved, upper-division courses with significant technical science, engineering, and/or math content. Actual courses and course order may be different depending on the student's academic record and scheduling availability of courses. Study of chemical engineering problems identified by the student and instructor. Military courses cannot be used for technical electives. Homogeneous and heterogeneous reaction kinetic modeling and data analysis. BME4220 Biomolecular Cell Mechanics 3 Credits. Introduces the principles of process economics including specifications and costing of equipment, operations costing and economic evaluation of processes. This is often done concurrently with another general education requirement (typically, GE-C, H or S). Not all courses are offered every semester. 0000002782 00000 n The work of the chemical engineer is not restricted to the chemical industry, chemical changes or chemistry. S107L Criser Hall - P.O. Working closely with industry liaison engineers and a faculty coach, students gain practical experience in teamwork and communication, problem solving and engineering design, and develop leadership, management and people skills. Students must maintain satisfactory progress (minimum GPA of 2.0) in chemical engineering courses and in their overall record. These courses must be completed by the terms as listed above in the Critical Tracking criteria. 0000010615 00000 n This PDF includes all graduate catalog information. 0000013328 00000 n 2.5 GPA in MAC 2311, MAC 2312 and MAC 2313 sequence based on the best of two attempts, Complete 1 of 8 critical-tracking courses with a minimum grade of C within two attempts: CHM 2045 or CHM 2095, CHM 2046 or CHM 2096, MAC 2311, MAC 2312, MAC 2313, MAP 2302, PHY 2048, PHY 2049, 2.5 GPA required for all critical-tracking courses based on the best of two attempts, Complete 1 additional critical-tracking course with a minimum grade of C within two attempts, Complete 2 additional critical-tracking courses with minimum grades of C within two attempts. (M). ECH3223 Energy Transfer Operations 3 Credits. Analysis and design of ideal batch, mixed, plug and recycle reactors. Registrar Home | Develops research skills, including generation of questions, hypotheses testing, reporting, interpretation, and discussion of findings. ENC 1101 Expository and Argumentative Writing, PHY 2048L Physics with Calculus 1 Laboratory, PHY 2049L Laboratory for Physics with Calculus 2, ENC 3246 Professional Communication for Engineers, CGN 3710 Experimentation and Instrumentation in Civil Engineering, ECH 4224L Fluid and Energy Transfer Operations Laboratory, ECH 4403 Separation and Mass Transfer Operations, ECH 4714L Safety and Experimental Evaluation, ECH 4404L Separation and Mass Transfer Operations Laboratory, ECH 4504 Chemical Kinetics and Reactor Design, ECH 4604 Process Economics and Optimization, ECH 4824 Materials of Chemical Engineering, CHM 3120 Introduction to Analytical Chemistry, ECH 4323L Chemical Engineering Laboratory. Relations between microscopic structure and macroscopic mechanical, thermal and electrical properties of organic and inorganic solids. Prerequisite: ECH3101, ECH3203 and ECH3223. Characteristics of laminar and turbulent flow, mechanical energy balance, flow through packed beds and fluidization of solids, design of pumping systems and piping networks and metering of fluids. Practical synthetic methods of polymer preparation. Instead, modern chemical engineers are concerned with all the physical, chemical, and biological changes of matter that can produce an economic product or result that is useful to mankind. ECH6851 Impedance Spectroscopy 3 Credits. 0000002082 00000 n To offer high-quality undergraduate and graduate degree programs in chemical engineering and to conduct research that helps educate graduate students and serves the needs of Florida and the nation. Actual courses and course order may be different depending on the student's academic record and scheduling availability of courses. Not appropriate for students who have been admitted to candidacy. Discussion on the forces responsible for unique physical properties at solid-liquid interfaces and their application in various engineering problems. Major Critical Path courses must be taken and completed in sequence. 0000001869 00000 n Fundamentals of heterogeneous reactor design including the characterization of catalytic reactions and support, the development of global rate of the intrinsic reaction affected by chemical and physical deactivation of catalyst, intraphase and interphase mass and heat transfer, and the design and optimization of various types of heterogeneous reactors. 0000013350 00000 n More Info. 0000005934 00000 n These two courses are pre-approved substitutes for three credits of technical electives and for ECH4644. ECH6910 Supervised Research 1-5 Credits, Max 5 Credits, ECH6926 Graduate Seminar 1 Credit, Max 10 Credits, ECH6937 Topics in Chemical Engineering I 1-4 Credits, Max 9 Credits. Website, Email | 352.294.2891 (tel) | 352.392.9513, 1030 Center Drive CHEMICAL ENGINEERING STUDENT CENTER (CESC) GAINESVILLE FL 32611-2030 Map. Any course taken to satisfy a degree requirement (general education, required course or technical elective) with the exception of ECH4912, ECH 4948, and ECH 4949, cannot be taken S-U. ECH4905 Special Problems in Chemical Engineering 1-6 Credits. 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ECH4944 Practical Work in Chemical Engineering 1-5 Credits. 0000011144 00000 n The analysis and automatic control of process systems in chemical engineering. ECH4827 Processing of Complex Fluids 3 Credits. Box 116005 ECH6726 Interfacial Phenomena I 3 Credits.
Prerequisite: ECH4403 and ECH4504 and ECH4604 and ECH4824. Application of thermodynamic principles to systems of variable composition including the study of phase and chemical equilibria. BME6322 Dynamics of Cellular Processes 3 Credits. ECH4123 Phase and Chemical Equilibria 3 Credits. 0000008228 00000 n The second part of a two-course sequence in which multidisciplinary teams of engineering and business students partner with industry sponsors to design and build authentic product and processes, on time and within budget. Designed for students with a master's degree in the field of study or for students who have been accepted for a doctoral program. BME4321 Dynamics of Cellular Processes 3 Credits. Statistical mechanics and microscopic explanation of macroscopic laws of classical thermodynamics, transport phenomena, and chemical kinetics. Examples from literature include mRNA transport, nuclear pore dynamics, cytoskeletal dynamics, imaging motor proteins and transcription factor dynamics. Prerequisite: CHM2200, 2210, or equivalent. ECH6939 Topics in Chemical Engineering III 1-4 Credits, Max 9 Credits, ECH6940 Supervised Teaching 1-5 Credits, Max 5 Credits, ECH6971 Research for Master's Thesis 1-15 Credits, ECH7938 Advanced Special Chemical Engineering Topics for Doctoral Candidates 1-4 Credits, Max 8 Credits, Advanced Special Chemical Engineering Topics for Doctoral Candidates. Successful applicants must have earned a minimum 2.5 grade point average inthe better of two attempts of the eight preprofessional courses and have earned a minimum grade point average in the better of two attempts of 2.5 in the preprofessional calculus course sequence. ONE.UF | This background makes the chemical engineer extremely versatile and capable of working in a variety of industries: chemical, biochemical, petroleum, materials, microelectronics, environmental, food processing, consumer products, consulting and project management. Fundamentals of electrodics and ionics applied to systems of interest in electrochemical engineering. Biomolecular basis of cell mechanics and cell motility, emphasizing quantitative models and systems-biology approaches. Prerequisite: ECH3101 and ECH3203 and ECH3223. Individual engineering projects suitable for a nonthesis Master of Engineering degree. Phone: 352-392-0881, Advanced Materials, Devices, and Nanotechnology, Biomolecular Engineering, Cellular Engineering, and Synthetic Biology, Heterogeneous Catalysis and Surface Science, Transport, Molecular Thermodynamics, and Electrochemical Engineering, Engineering Research: EGN 4912 CURE - Stoppel, Spec Topics in Che 1: Materials Self Assembly, Spec Prob in Chem Eng: Materials Self Assembly, Spec Prob in Chem Eng: ChE Applied Math for Sr, Chemical Engineering Kinetics, Reactor Design, and Optimization, Fundamentals of Artificial Neural Networks, Advanced Chemical and Biological Process Laboratories, Electron Transport Phenomena in Semiconductors, Experimental Basis for Chemical Engineers, Separation and Mass Transfer Operations Laboratory, Fluid and Energy Transfer Operations Laboratory Unit Operations Lab 1, Advanced Mathematics for Chemical Engineering, Semiconductor Device Fabrication and Material Characterization, Fluid and Energy Transfer Operations Laboratory, Introduction to Polymer Science and Engineering, Advanced Chemical and Biological Process Labs, Separation and Mass Transfer Operations Lab, The Continuum Basis of Chemical Engineering, Process Control Laboratory (Online Section), Internship Work Experience in Chemical Engineering, Co-op Work Experience in Chemical Engineereing, Process Control Laboratory (Campus Section). Lectures, case studies, student-led discussions, team business plans, and investor presentations. Basic pharmacokinetic and pharmacodynamic concepts and models. Computer and Information Science and Engineering, Education, School of Human Development and Organizational Studies in Education, Education, School of Special Education, School Psychology and Early Childhood Studies, Education, School of Teaching and Learning, PharmacyPharmaceutical Outcomes and Policy, Public HealthClinical and Health Psychology, Public HealthEnvironmental and Global Health, Tourism, Hospitality and Event Management, Division of Graduate To proceed to succeeding courses, minimum grades of C are required in ECH 3023, ECH 3101, ECH 3203, ECH 3223, ECH 3264 and COT 3502 within two enrollments (including drops and/or withdrawals) for each course. ECH4824 Materials of Chemical Engineering 2 Credits. Students are also expected to complete the general education international (GE-N) and diversity (GE-D) requirements. Pass an assessment by two or more faculty and/or industry practitioners of performance on a major design experience. 0000003523 00000 n Principles involved in quantitative adoption of chemical engineering unit operations and unit processes for the analysis and design of systems involving complex fluids.
These two courses are pre-approved substitutes for three credits of technical electives and for ECH 4644 Process Design. ECH3264 Elementary Transport Phenomena 3 Credits. Laboratory, lectures or conferences cover selected topics in engineering. Planning techniques for detailed engineering, construction and startup. Please enable scripts and reload this page. Instead, modern chemical engineers are concerned with all the physical, chemical, and biological changes of matter that can produce an economic product or result that is useful to mankind. S107L Criser Hall - P.O. 1478 Union Road Use of these concepts in the drug discovery process. 9 0 obj << /Linearized 1 /O 11 /H [ 1235 244 ] /L 116511 /E 107553 /N 2 /T 116214 >> endobj xref 9 40 0000000016 00000 n ECH6285 Transport Phenomena 3 Credits, Max 3 Credits. For the purposes of determining admission to or retention in the department, grade point averages will be based on no more than two attempts for each course. CHM5275 The Organic Chemistry of Polymers 2 Credits. Unless otherwise indicated in the course description, all courses at the University of Florida are taught in English, with the exception of specific foreign language courses. Covers the biomolecular basis of cell mechanics and cell motility, emphasizing quantitative models and systems-biology approaches. Topics include the role and application of colloids, spreading of liquids on surfaces, lubrication, flotation, and nanomaterial synthesis. One term industrial employment, including extra work according a pre-approved outline. trailer << /Size 49 /Info 7 0 R /Root 10 0 R /Prev 116205 /ID[<27f2f5ef308e9a429bcf94f87d2ebd48><2d8116402bd783c5c3647503c1b13daf>] >> startxref 0 %%EOF 10 0 obj << /Type /Catalog /Pages 6 0 R /Metadata 8 0 R /PageLabels 5 0 R >> endobj 47 0 obj << /S 48 /L 145 /Filter /FlateDecode /Length 48 0 R >> stream 0000031469 00000 n Heterogeneous catalysis and reactor design. Reaction of polymers. Graduates will be able to work in diverse professional environments as demonstrated in their pursuit of continuing education, professional certification/registration and/or career path into business, government, education, etc. ECH4912 Integrated Product and Process Design 1 3 Credits. 0000001145 00000 n
To graduate with this major, students must complete all university, college, and major requirements. Gainesville, FL 32611-6005 However, a maximum of 3 credits from ECH4948 and ECH 4949 can count towards the Chemical Engineering degree. Introduction to digital computers, sampled data systems and Z-transforms, control of multiple input-multiple output systems, optimal control, state estimation and filtering, and self-tuning regulators. To remain on track, students must complete the appropriate critical-tracking courses, which appear in bold. 0000104726 00000 n
Statistical design of experiments and treatment of data including regression analysis, interpolation, and integration. Corequisite: PHY2049, MAC2313, MAP2302, and ECH4934. 0000011166 00000 n Gainesville, FL 32611-4000 Communicate technical data and design information effectively in writing and in speech to other chemical engineers. (S-U), Office of the University Registrar Thermal, mechanical, optical, and rheological properties of plastics and rubbers. ECH6272 Molecular Basis of Chemical Engineering 3 Credits. 1478 Union Road ECH4524 Heterogeneous Chemical Kinetics Reactor Design 2 Credits. 0000076108 00000 n Although Chemical Engineering has existed for only 100 years, its name is no longer completely descriptive of this dynamic profession. Prerequisite: ECH4403 and ECH4224L and ECH4714. Colloids and interfacial phenomena, colloid interaction forces, electrokinetic phenomena, transport phenomena influenced by colloidal forces, and electrokinetic phenomena. This background makes the chemical engineer extremely versatile and capable of working in a variety of industries: chemical, biochemical, petroleum, materials, microelectronics, environmental, food processing, consumer products, consulting and project management.