Search This Blog

CRE Fluid-Particle systems (Weightage 14%)

LiteBuk

  



Chemical Reaction Engineering - II (2170501)


Fluid-Particle systems:

  1. Fluid partial reaction kinetics, 
  2. selection of a model, 
  3. Shrinking Core Model for unchanging and changing size spherical partials, 
  4. Diffusion through gas film and through ash layer controlling, Chemical reaction controlling, 
  5. Shrinking core model, 
  6. its limitations, Determination of rate controlling step.

CRE Fluid-Fluid systems (Weightage 14%)

LiteBuk

 




Chemical Reaction Engineering - II (2170501)


Fluid-Fluid systems:

  1. Rate equation, 
  2. rate equation for straight mass transfer, 
  3. kinetic regimes of mass transfer and chemical reaction, 
  4. rate equation for mass transfer and chemical reactions, 
  5. film conversion parameter, 
  6. fluid-fluid reactor design.

Heterogeneous Reactions: Introduction (Weightage 9%)

LiteBuk

 

 



Chemical Reaction Engineering - II (2170501)



Heterogeneous Reactions: Introduction:

  1. Rate steps involved in heterogeneous systems, 
  2. Overall rate expression for linear and non linear process, 
  3. contacting patterns for two-phase systems

CRE NON IDEAL FLOW (Weightage 18%)

LiteBuk

 



Chemical Reaction Engineering - II (2170501)



  1. Basics of non-ideal flow, 
  2. Residence time distribution, 
  3. stimulus response techniques, 
  4. The E,F and C Curves, 
  5. their interrelationship,
  6. conversion in non-ideal flow reactors, 
  7. Dispersion model, 
  8. Chemical Reaction and dispersion, 
  9. Intensity of fluid mixing. 
  10. Tanks in series model, 
  11. Deviation from plug flow, 
  12. Models for real stirred tanks

Ch-6: Design and Scheduling of Batch Processes (Weightage 14% )

LiteBuk

 



Computer Aided Process Synthesis (2170507)

Ch-6: Design and Scheduling of Batch Processes:

  1. Objectives, 
  2. Introduction, 
  3. Design of Batch Process Units, 
  4. Design of Reactor-Separator Processes, 
  5. Design of Single Product Processing Sequences, 
  6. Design of Multi-Product Processing Sequencing







Click Here To Download

"thanks for downloading share to your friends"

Ch 4 Synthesis of Heat Exchanger Networks (Weightage 34% )

LiteBuk



Computer Aided Process Synthesis (2170507)

 

Ch-4 : Synthesis of Heat Exchanger Networks:

  1. Objectives, 
  2. Basic Heat Exchanger Network Synthesis (HENS), 
  3. Minimum Utility Targets, 
  4. Temperature Interval Method,
  5.  Hohmann / Lochart Composite Curves (HCC), 
  6. Grand Composite Curves (GCC), 
  7. Pinch Design Approach to Inventing a Network,
  8.  Networks for Maximum Energy Recovery, 
  9. Minimum Number of Exchangers, Stream Splitting, 
  10. Threshold and Optimum Approach Temperature, 
  11. Derivation of Network Superstructures for Minimization of Annual Costs, 
  12. Multiple Utility Design Problems




Click Here to Download

"thanks for downloading share to your friends"

Ch 3:Synthesis of Separation Trains (Weightage 19% )

LiteBuk

 


Computer Aided Process Synthesis (2170507)


Ch 3:Synthesis of Separation Trains

  1. Objectives, 
  2. Introduction ,
  3. Phase Separation of Reactor Effluent, 
  4. Criteria for Selection of Separation Methods, 
  5. Selection of Equipment, 
  6. Sequencing of Ordinary Distillation for the Separation of Nearly Ideal Fluid Mixtures, 
  7. Heuristics for Determining Favourable Sequences, 
  8. Marginal Vapour Rate Method,
  9. Complex and thermally coupled distillation,Sequencing of Ordinary Distillation for the Separation of Nearly Non-Ideal Fluid Mixtures


"thanks for downloading share to your friends"

CH 1:-The Design Process (Weightage 11% )

LiteBuk



Computer Aided Process Synthesis (2170507)



Objectives, Design Opportunities, Steps in Product Process Design, Environmental, Protection, Safety Considerations, Engineering Ethics, Role of Computers.






"thanks for downloading share to your friends"