Presentation is loading. Please wait.

Presentation is loading. Please wait.

EXERCISE 3 ANIS ATIKAH AHMAD. 1. Consider the distillation column shown in Figure Q1.1: Figure Q1.1: Distillation column It would be reasonable to control.

Published byHollie Long Modified over 8 years ago

Similar presentations

Presentation on theme: "EXERCISE 3 ANIS ATIKAH AHMAD. 1. Consider the distillation column shown in Figure Q1.1: Figure Q1.1: Distillation column It would be reasonable to control."— Presentation transcript:

1 EXERCISE 3 ANIS ATIKAH AHMAD

2 1. Consider the distillation column shown in Figure Q1.1: Figure Q1.1: Distillation column It would be reasonable to control the liquid level in the reflux drum, h D by manipulating either reflux flow rate, R, or distillate flow rate, D. Explain how would the nominal value of reflux ratio (R/D) influence your choice. As a specific example, assume that R/D = 4

3 It is required to select manipulated variable that have large effects on controlled variables, which is stated in Guideline 6. In this case, manipulating the large exit stream, R (reflux flowrate) will give large effects on liquid level rather than manipulating the small stream, D (distillate flow rate), since R/D> 1 (where R is greater than D).

4 2. Consider the liquid storage system shown in Figure Q2.1. Only volumetric flowrate q 1 and q 2, can be manipulated. Determine the model degrees of freedom, N F, and the control degrees of freedom N FC. Figure Q2.1: Liquid storage system

5 Variables: q 1, q 2, q 3, q 4, q 5, q 6, h 1, h 2 Equations: Total no of equation: 5 Total no of variables: 8

6 Thus, degrees of freedom, N F = N v - N F = 8 – 5 = 3 Degrees of freedom are also equal to the summation of control degrees of freedom, N FC and number of disturbance variables, N D : N F = N FC + N D Disturbance variable: q 6 [N D = 1] (Usually the input) Thus, control degrees of freedom, N FC = N F - N D =3-1 = 2

7 3. The loss of the coolant to a process vessel can produce an unacceptably high pressure in the vessel. As a result, a pressure relief valve is used to reduce the pressure by releasing the vapor mixture to the atmosphere. But if the mixture is toxic or flammable, the release can be hazardous. For the distillation column in Figure Q3.1, propose an alarm/SIS system that will reduce the number of releases to the environment, even though the occasional loss of coolant flow to the condenser is unavoidable. (The pressure relief valve at the top of the column is not shown in Figure Q3.1) Figure Q3.1: Distillation column

8 The proposed SIS system is as follows:

Download ppt "EXERCISE 3 ANIS ATIKAH AHMAD. 1. Consider the distillation column shown in Figure Q1.1: Figure Q1.1: Distillation column It would be reasonable to control."

Similar presentations

Exercise 3. Solutions From Fujio Kida, JGC Co. All cases

Exercise 3. Solutions From Fujio Kida, JGC Co. All cases
1 INTERACTION OF PROCESS DESIGN AND CONTROL Ref: Seider, Seader and Lewin (2004), Chapter 20.

1 INTERACTION OF PROCESS DESIGN AND CONTROL Ref: Seider, Seader and Lewin (2004), Chapter 20.
Overview of Control System Design

Overview of Control System Design
Overview of Control System Design

Overview of Control System Design
San Francisco Refinery, Rodeo

San Francisco Refinery, Rodeo
Distillation of Binary Mixture

Distillation of Binary Mixture
page 0 Prepared by Associate Prof. Dr. Mohamad Wijayanuddin Ali Chemical Engineering Department Universiti Teknologi Malaysia.

page 0 Prepared by Associate Prof. Dr. Mohamad Wijayanuddin Ali Chemical Engineering Department Universiti Teknologi Malaysia.
Process dynamic and control Tutorial 1 Mo Shengyong 17/09/2007.

Process dynamic and control Tutorial 1 Mo Shengyong 17/09/2007.
Development of Dynamic Models Illustrative Example: A Blending Process

Development of Dynamic Models Illustrative Example: A Blending Process
Air Stripping of Volatiles Sometimes volatile compounds (generally VOC’s ) can be removed from the aqueous phase by stripping the VOC’s with an air flow.

Air Stripping of Volatiles Sometimes volatile compounds (generally VOC’s ) can be removed from the aqueous phase by stripping the VOC’s with an air flow.
Enhanced Single-Loop Control Strategies

Enhanced Single-Loop Control Strategies
Batch Distillation Model By: Jason Hixson Jennifer Potter Wayne Johnson.

Batch Distillation Model By: Jason Hixson Jennifer Potter Wayne Johnson.
Transfer Functions Convenient representation of a linear, dynamic model. A transfer function (TF) relates one input and one output: The following terminology.

Transfer Functions Convenient representation of a linear, dynamic model. A transfer function (TF) relates one input and one output: The following terminology.
Modeling Basics: 1. Verbal modeling By Peter Woolf University of Michigan Michigan Chemical Process Dynamics and Controls Open Textbook version 1.0 Creative.

Modeling Basics: 1. Verbal modeling By Peter Woolf University of Michigan Michigan Chemical Process Dynamics and Controls Open Textbook version 1.0 Creative.
Verbal Modeling Anchors: Manganese  Matt Morabito Jamie Polan.

Verbal Modeling Anchors: Manganese  Matt Morabito Jamie Polan.
Multi-component Distillation Prepared by Dr

Multi-component Distillation Prepared by Dr
Material balance on single unit process

Material balance on single unit process
EGR 334 Thermodynamics Chapter 10:

EGR 334 Thermodynamics Chapter 10:
THEORETICAL MODELS OF CHEMICAL PROCESSES

THEORETICAL MODELS OF CHEMICAL PROCESSES
Final Stages NGL Separation

Final Stages NGL Separation

Similar presentations

Ads by Google