Presentation is loading. Please wait.

Presentation is loading. Please wait.

of separation processes

Published byNelson Skinner Modified over 5 years ago

Similar presentations

Presentation on theme: "of separation processes"— Presentation transcript:

1 of separation processes
Analysis delineation and evaluation of separation processes

2 Separation

3 Fig. 2.3. The structure of separation

4 Elements of separation process: Delineation, Analysis, Evaluation

5 Quantity and quality of products
Delineation Quantity and quality of products

6 Other factors (fluctuations) Fields, space time provided by separator
Delineation Main feature and its building parameters Material main feature Other factors (fluctuations) Fields, space time provided by separator

7

8 ANALYSIS

9 ANALYSIS Components: type

10 ANALYSIS Components: features -name -quantity -quality -economical value -main feature providing separation -features forming main feature -time of components displacement -separating forces acting on components -ordering and other forces acting on components -other (temperature, pressure, etc.)

11 Components: types and feaures
ANALYSIS Components: types and feaures

12 Features can be grouped into families
ANALYSIS Features can be grouped into families

13 Taking into account four families
ANALYSIS Taking into account four families value Their combination provides different

14 ANALYSIS

15 ANALYSIS

16 UPGRADING AND ITS BALANCE
ANALYSIS UPGRADING AND ITS BALANCE (Analysis of separation taking into account content (mass or similar paremeters of the system)) YIELD ()

17 UPGRADING AND ITS BALANCE
ANALYSIS UPGRADING AND ITS BALANCE CONTENT Amount of a component (fraction, type of grain, etc.) in a product, usually in % Used symbols

18 Infinitive number of upgrading parameters can be derived from
,  and  Most popular are: Recovery: Cumulative recovery Upgrading ratio k=l/a K=b/a ANALYSIS

19 Other parameters, for instance
ANALYSIS Other parameters, for instance e1-e2, l1-l2 e1/e2 , e1 e2

20 Typical upgrading balance
ANALYSIS Typical upgrading balance  (%)  ()/100% way of calculating content of considered component in feed

21 ANALYSIS Upgrading balance

22 Principle upgrading curves
ANALYSIS Principle upgrading curves constant Henry’s: = f() Mayer’s  = f() Halbich’s:  = f () Fuerstenau’s: 1 = f (2)

23 EVALUATION Henry’s

24 EVALUATION Mayer’s

25 EVALUATION Halbich’s

26 EVALUATION Fuerstenau’s

27

Download ppt "of separation processes"

Similar presentations

PHYSIC S. Think back to GCSE 1.Write down the definition of velocity Speed in a given direction 2.Write down the calculation for velocity But that is.

PHYSIC S. Think back to GCSE 1.Write down the definition of velocity Speed in a given direction 2.Write down the calculation for velocity But that is.
FLOWSHEETS Zinc Plant Flowsheet (SOMINCOR)

FLOWSHEETS Zinc Plant Flowsheet (SOMINCOR)
1 The structure and evolution of stars Lecture 2: The equations of stellar structure Dr. Stephen Smartt Department of Physics and Astronomy

1 The structure and evolution of stars Lecture 2: The equations of stellar structure Dr. Stephen Smartt Department of Physics and Astronomy
Identify the limiting reactant and calculate the mass of a product, given the reaction equation and reactant data. Include: theoretical yield, experimental.

Identify the limiting reactant and calculate the mass of a product, given the reaction equation and reactant data. Include: theoretical yield, experimental.
Representation on the x-y plane Prof. Dr. Marco Mazzotti - Institut für Verfahrenstechnik.

Representation on the x-y plane Prof. Dr. Marco Mazzotti - Institut für Verfahrenstechnik.
Chapter 8 Economic Principles  Choosing Input and Output Combinations

Chapter 8 Economic Principles  Choosing Input and Output Combinations
MET 61 1 MET 61 Introduction to Meteorology MET 61 Introduction to Meteorology - Lecture 3 Thermodynamics I Dr. Eugene Cordero San Jose State University.

MET 61 1 MET 61 Introduction to Meteorology MET 61 Introduction to Meteorology - Lecture 3 Thermodynamics I Dr. Eugene Cordero San Jose State University.
DEPARTMENT OF MATHEMATI CS [ YEAR OF ESTABLISHMENT – 1997 ] DEPARTMENT OF MATHEMATICS, CVRCE.

DEPARTMENT OF MATHEMATI CS [ YEAR OF ESTABLISHMENT – 1997 ] DEPARTMENT OF MATHEMATICS, CVRCE.
Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they.

Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they.
Euler’s Equation in Fluid Mechanics. What is Fluid Mechanics? Fluid mechanics is the study of the macroscopic physical behavior of fluids. Fluids are.

Euler’s Equation in Fluid Mechanics. What is Fluid Mechanics? Fluid mechanics is the study of the macroscopic physical behavior of fluids. Fluids are.
Mass and Energy Balances – Stripping Section and Partial Reboiler

Mass and Energy Balances – Stripping Section and Partial Reboiler
Matter Chem Honors Chapter 3 Quarter 1 FALL 2014.

Matter Chem Honors Chapter 3 Quarter 1 FALL 2014.
Flash Distillation Flash distillation is the simplest method of separation. A feed stream is “flashed” into a chamber or “flash drum” and the liquid and.

Flash Distillation Flash distillation is the simplest method of separation. A feed stream is “flashed” into a chamber or “flash drum” and the liquid and.
Motion and Speed. Motion Definition: When an object changes its position relative to a reference point Distance – How far an object has moved. Displacement.

Motion and Speed. Motion Definition: When an object changes its position relative to a reference point Distance – How far an object has moved. Displacement.
1 Chapter 2 Vector Calculus 1.Elementary 2.Vector Product 3.Differentiation of Vectors 4.Integration of Vectors 5.Del Operator or Nabla (Symbol  ) 6.Polar.

1 Chapter 2 Vector Calculus 1.Elementary 2.Vector Product 3.Differentiation of Vectors 4.Integration of Vectors 5.Del Operator or Nabla (Symbol  ) 6.Polar.
Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Prentice Hall Slide 2- 1.

Copyright © 2007 Pearson Education, Inc. Publishing as Pearson Prentice Hall Slide 2- 1.
Free energies and phase transitions. Condition for phase coexistence in a one-component system:

Free energies and phase transitions. Condition for phase coexistence in a one-component system:
Gases The Ideal Gas Law.  Objectives  State the ideal gas law  Using the ideal gas law, calculate pressure, volume, temperature, or amount of gas when.

Gases The Ideal Gas Law.  Objectives  State the ideal gas law  Using the ideal gas law, calculate pressure, volume, temperature, or amount of gas when.
WCB/McGraw-Hill © The McGraw-Hill Companies, Inc.,1998 Thermodynamics Çengel Boles Third Edition 3 CHAPTER The First Law of Thermodynamics: Closed Systems.

WCB/McGraw-Hill © The McGraw-Hill Companies, Inc.,1998 Thermodynamics Çengel Boles Third Edition 3 CHAPTER The First Law of Thermodynamics: Closed Systems.
SCREENING. Main feature of screening is size of particle spherical particleIrregular particle d a b c A measure of size is usually diameter.

SCREENING. Main feature of screening is size of particle spherical particleIrregular particle d a b c A measure of size is usually diameter.

Similar presentations

Ads by Google