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Assistant Professor Ilo Dreijers
Course description: 2Credit units; 32 hours (16 lectures, 16 laboratories)
Control forms: test
Course content:
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Error analysis and uncertainty – precision, accuracy, repeatability, reproducibility.
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Histograms, distribution of data and associated parameters.
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Sample statistics.
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Correlation, regression analysis, curve fitting.
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Analysis of variance, factorial design basics.
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Design of experiments, first and second order plans.
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Experimental optimization.
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Hypothesis testing.
Literature:
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I. Dreijers. Eksperimentālās optimizācijas metodes. Mācību palīglīdzeklis.- RPI, 1978. 66 lpp.
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I. Dreijers, P. Vītols. Ķīmijas tehnoloģijas procesu teorijas pamati. - Rīga.: Zvaigzne, 1986.- 228 lpp.
Additional textbooks:
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G.E.P.Box, W.G. Hunter, JS. Hunter, Statistics for Experimenters, John Wiley & Sons, 1978. -653 pg.
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R.L.Mason, R.F. Gunst, J.L. Hess, Statistical Design and Analysis of Experiments. - John Wiley & Sons, 1989. -689 pg.
Computer Aided Design
ĶVT 414
Assistant Professor Ilo Dreijers
Course description: 2Credit units; 32 hours (32 practice)
Control forms: test
Course content:
Simulation of the mass transfer processes (distillation and absorption) using commercial software (PRO II from SIMSCI or MAX from AspenPlus):
material and heat balances for flowsheets without and with recirculation loops.
Column sizing.
Case study example.
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Graphical User Interface
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Entering data on Forms
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Run types, units of measure, and simulation options
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Component databank
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Using Graphics to make Flowsheet
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Property methods
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Entering and estimating property data
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Unit Operation Models
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Mixers and Splitters
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Flashes, Heaters, Heat Exchengers
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Shortcut Distillation
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Rigorous Separation
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Pumps and Compressors
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Running simulation
Literature:
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Software, User Guide, and Reference Manual.
Additional textbooks:
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L.T. Biegler, I.E. Grossmann, A.W. Westerberg. Systematic Methods of Chemical Process Design, Prentice Hall, 1997. - 796 pg.
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R. Turton, R.C. Bailie, W.B. Whiting, J.A. Shaelwitz. Analysis, Synthesis, and Design of Chemical Processes, Prentice Hall, 1998. - 814 pg.
Computer Modeling
ĶVT 416
Assistant Professor Ilo Dreijers
Course description: 2Credit units; 32 hours (32 laboratories)
Control forms: test
Course content:
Chemical process and reactor modeling using commercial software (PRO II from SIMSCI or MAX from AspenPlus): material and heat balances for flowsheets without and with recirculation loops. Case study of complex flowsheet. Cost estimation.
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Reactor models
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RSTOIC
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Ryield
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Rgibbs
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RCSTR
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RPLUG
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RBATCH
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Convergence methods
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Wegstein
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Direct
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Secant
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Broyden
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Newton
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Thermodynamic property methods and models
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Equation-of-State method
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Activity coeficient method
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Transport property methods and models
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Regressing experimental property data
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Property parameter estimation and group contribution method
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CAPCOST program and cost estimation
Literature:
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Software, User Guide, and Reference Manual.
Additional textbooks:
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L.T. Biegler, I.E. Grossmann, A.W. Westerberg. Systematic Methods of Chemical Process Design, Prentice Hall, 1997. - 796 pg.
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R. Turton, R.C. Bailie, W.B. Whiting, J.A. Shaelwitz. Analysis, Synthesis, and Design of Chemical Processes, Prentice Hall, 1998. - 814 pg.
Plant Design
ĶVT 419
Assistant Professor Valdemārs Ščerbaks
Course description: 4Credit units; 64 hours (32 lectures, 32 laboratories)
Control forms: test, Course work
Course content:
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Technical and economical estimation of projects. Feasibility studies.
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Capital investment calculations, CAPCOST program.
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Methods of equipment calculation.
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Problems of standardisation and unification.
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Equpment placing, piping design.
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Software application for design.
Literature:
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M. S. Peters M. S., Timmerhaus K. D., “Plant Design and Economics for Chemical Engineers”, McGraw-Hill Book Company, 1968.
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Turton R., Bailie R. C., Whiting W. B., Shaeiwitz J. A. “Analysis, Synthesis, and Design of Chemical Processes”, Prentice Hall International, 1998.
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Зайцев Г.Д. Теория и методы автоматизированного проектирования химических проектированияю. – Киев, Наукова думка, 1981.
Heat Transfer Processes and Equipment
ĶVT 454
Assistant Professor Jurijs Ozoliņš
Course description: 3 Credit units; 48 hours (16 lectures, 16 practice, 16 laboratories)
Control forms: exam
Course content:
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Heat transfer by conductivity. Conductivity coefficient, differential equation. Unsteady state problems.
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Heat transfer by convection. Process differential equation. Similarity of heat transfer, boundary layer theory. Main cases -- heat transfer in pipes and outside of pipes, free convection, boiling, and condensation.
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Radiation heat transfer.
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Heat transfer through wall for constant and variable driving force. NTU.
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Heat transfer equipment -- types and design methods.
Literature:
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Михеев М. А., Михеева И. М. Основы теплопередачи._ Москва: Энергия, 1973. _ 320 с.
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Сиэрроу Э. М. Теплообмен излучением. Пер. с англ._ Ленинград: Энергия, 1971._ 294 с.
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Берд Р. Стьюарт В. Лантфут Е. Явление переноса. Пер. с англ._ Москва: Химия, 1974._ 688 с.
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Лесохин Е. И., Рашковский П. В. Теплообменники, конденсаторы в процессах химической технологии._ Ленинград: Химия, 1990._ 288 с.
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Фраяс А. Оцисип М. Рачет и конструирование теплообменников. Пер. с англ._ Москва: Атомиздат, 1971._ 358 с.
Special course in automatization
ĶVT 482
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