Chemical Reaction Engineering -II (Cre- II) detailed syllabus scheme for Chemical Engineering (CH), 2018 regulation has been taken from the University of Mumbai official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.
For all other Mumbai University Chemical Engineering 6th Sem Syllabus 2018 Pattern, do visit CH 6th Sem 2018 Pattern Scheme. The detailed syllabus scheme for chemical reaction engineering -ii (cre- ii) is as follows.
Chemical Reaction Engineering -II (Cre- II) Syllabus for Chemical Engineering TE 6th Sem 2018 Pattern Mumbai University
Prerequisites:
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Course Objectives:
- To understand the concept of Residence Time Distribution (RTD) in various reactors and obtain the actual design parameters to design Real Reactor.
- To find the model equation and use this model to design the reactors used for heterogeneous non catalytic reactions.
- To apply the knowledge they have gained to develop kinetic model and Design strategy for heterogeneous catalytic reactions.
- To apply the knowledge they have gained to develop kinetic model and use this model to design the reactors used for Fluid-Fluid reactions.
Course Outcomes:
- Students will be able to understand the concept of Residence Time Distribution (RTD) in various reactors and obtain the actual design parameters to design Real Reactor.
- Students will be able to find the model equation and use this model to design the reactors used for heterogeneous non catalytic reactions.
- Students will be able to apply the knowledge they have gained to develop kinetic model and Design strategy for heterogeneous catalytic reactions.
- Students will be able to apply the knowledge they have gained to develop kinetic model and use this model to design the reactors used for Fluid-Fluid reactions.
Module 1
Non Ideal flow reactors: Concept of residence time distribution (RTD), Measurement and characteristics of RTD, RTD in Ideal batch reactors, Plug Flow Reactor and CSTR. Zero Parameter Model -Segregation and Maximum mixedness model. One parameter model-Tanks in series model and Dispersion Model. Effect of dispersion on conversion for general irreversible reaction case, Diagnostic methods of analysis of flow patterns in reactors, Role of micro and macro mixing and segregation in ideal (MFR, PFR) and non ideal reaction cases. 12
Module 2
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Module 3
Kinetics and mechanism of various Heterogeneous reactions and design consideration of reactors used during different operating conditions. Catalytic heterogeneous reactions: Properties of solid catalysts, Physical adsorption and Chemisorption, Surface area and pore size distribution, Langmuir-Hinshelwood model, and General mechanism of solid catalyzed fluid phase reactions. Special cases when
- Film resistance controls.
- Surface phenomenon controls.
- Surface reaction controls
- Pore diffusion controls. Concept of effectiveness factor of catalyst and its dependence on catalyst properties and kinetic parameters. Numericals based on physical properties of catalyst, Derivations for LHHW model mechanism-various cases, Effectiveness factor. Numericals based on kinetics Introduction to Catalytic Reactors: Packed Bed Reactor Fluidized Bed, Trickle Bed and Slurry Reactor. Numericals based on Design of Packed Bed Reactor (Calculation of weight/volume of catalyst). 12
Module 4
Kinetics of fluid-fluid reactions: Reaction with mass transfer, the rate equation pertaining to fast to very slow reactions. Applications to design: Design of gas-liquid, liquid-liquid and gas liquid-solid reactors- Heterogeneous reactors, Bubble heterogeneous reactors, co-current and countercurrent flow packed bed reactors. 10
Assessment
Internal
- Assessment consists of average of two tests which should be conducted at proper interval
End Semester Theory Examination
- Question paper will be comprises of six questions, each carrying 20 Marks.
- Total 4 questions need to be solved.
- Question no. 1 will be compulsory and based on entire syllabus wherein subquestions can be asked.
- Remaining questions will be randomly selected from all the modules.
Weightage of marks should be proportional to number of hours assigned to each module.
Reference Books:
For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
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For detail syllabus of all other subjects of Chemical Engineering (CH) 6th Sem 2018 regulation, visit CH 6th Sem Subjects syllabus for 2018 regulation.