Reaction Engineering and Reactors
BASIC DATA
course listing
A - main register
course code
EVM0140
course title in Estonian
Reaktsioonitehnika ja reaktorid
course title in English
Reaction Engineering and Reactors
course volume CP
4.00
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
EV - Virumaa College
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Võimaldada üliõpilasel omandada teadmised keemilistes reaktorites kulgevate protsesside seaduspärasustest, keemiliste reaktorite teooria alustest ning integreerida need oskusega analüüsida reaktorite tööefektiivsust ja teha reaktorite arvutusi.
course aims in English
To empower the students to acquire knowledge about legalities of the processes going on in chemical reactors, theoretical fundamentals of chemical reactors and to integrate them with ability to analyse the working efficiency of reactors and to make reactors' computation.
learning outcomes in the course in Est.
Õppeaine läbimisel üliõpilane (1) tunneb kineetilise analüüsi meetodeid; (2) on omandanud keemilise kineetika mõisteid ning teoreetilisi aluseid; (3) oskab analüüsida reaktsioonide mehhanisme; (4) tunneb keemiliste reaktorite erinevaid tüüpe ning valdab nende analüüsi ning arvutamise meetodeid; (5) tunneb adsorptsiooni ja heterogeense katalüüsi teooriat; (6) mõistab massiülekande rolli ning oskab analüüsida massiülekannet katalüütilistes reaktsioonides; (7) oskab lahendada ülesandeid kursuse teemade raames.
learning outcomes in the course in Eng.
A student (1) knows methods of kinetic analysis; (2) acquires the concepts of chemical kinetics and theoretical fundamentals; (3) can analyse mechanisms of reactions; (4) knows different types of chemical reactors and knows methods of their analysis and calculation;(5) knows theory of adsorption and contact catalysis; (6) understands mass transfer role and can analyse mass transfer in catalytic reactions; (7) can solve tasks in the frames of the course topics.
brief description of the course in Estonian
Õppeaine kinnistab reaktsiooni kiiruse, stöhhiomeetria ja tasakaalu mõisted keemiliste reaktsioonide süsteemides, selgitab reaktsiooni kiiruse tuletisi reaktsiooni mehhanismidest ja tasakaalu või staatilisuse lähendustest, annab teadmised keemiliste reaktorite projekteerimisest läbi keemilise kineetika sünteesi, leviprotsessi ning massi- ja energiabilansside. Pikemalt käsitletakse mitmesuguseid keemilisi reaktoreid, sh pidevaid seguriga reaktoreid, ideaalse väljatõrjega reaktoreid, pideva ja perioodilise toimega reaktoreid. Lisateemadena käsitletakse heterogeenseid reaktoreid, katalüütilisi süsteeme, soojuse ja massi ülekannet reaktorites, sh difusiooni katalüsaatori osakestele ja nende sees.
brief description of the course in English
This course applies the concepts of reaction rate, stoichiometry and equilibrium to the analysis of chemical reacting systems, derivation of rate expressions from reaction mechanisms and equilibrium or steady state assumptions, design of chemical reactors via synthesis of chemical kinetics, transport phenomena, and mass and energy balances. The design of various types of chemical reactors is discussed at length, including continuous stirred-tank (CSTR), plug-flow (PFR), continuous-operation and batch-operation reactors. Additional topics include heterogeneous reactors, catalytic systems, heat and mass transport in reactors, including diffusion to and within catalyst particles
type of assessment in Estonian
eristav hindamine
type of assessment in English
grading
independent study in Estonian
-
independent study in English
-
study literature
1. Mark E. Davis and Robert J. Davis, Fundamentals of Chemical Reaction Engineering, McGraw-Hill, 2003.
2. Octave Levenspiel, Chemical Reaction Engineering, 3rd Ed. Wiley India Pvt. Limited, 2006.
3. Charles G. Hill, Thatcher W. Root. Introduction to Chemical Engineering Kinetics and Reactor Design. John Wiley & Sons, 2014.
4. H. Scott Fogler. Elements of Chemical Reaction Engineering. Prentice Hall, 2016.
2. Octave Levenspiel, Chemical Reaction Engineering, 3rd Ed. Wiley India Pvt. Limited, 2006.
3. Charles G. Hill, Thatcher W. Root. Introduction to Chemical Engineering Kinetics and Reactor Design. John Wiley & Sons, 2014.
4. H. Scott Fogler. Elements of Chemical Reaction Engineering. Prentice Hall, 2016.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
-
practices
0.0
practices
-
exercises
2.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
Course-teacher pairs of the corresponding version are missing!