Reference no: EM13493664
Model Predictive Control with Shell Standard Control Problem
A DISSERTATION OF CHEMICAL ENGINEERING
Design Model Predictive Control on Shell Control Problem
There are so many researches about Shell Control Problem. This said, the process is strongly interactive and there are a great number of input as well as outputs. PID controller could do the good job for controlling the process but Model Predictive Controller could definitely do better.
Solution to the Shell standard control problem using genetically tuned PID controllers\" (as attached) contained the previous research about how to using genetic PID control algorithms to control the \"difficult process\" (Shell control problem). Hence, it include the process model (in appendices).
You need to implement this in SIMULINK (MATLAB) with PID controller as well as process model. Do as the same in the paper. Provide pictures of simulink diagram, the graph of how process output successfully approach setpoint as the paper has shown, and the matlab code (if applicable) etc. This is design/simulation work
- After that, replace PID controller by Model Predictive Control (MPC) by using MODEL PREDICTIVE CONTROL TOOLBOX (MATLAB). Change prediction horizon, control horizon, weight, etc. to witness the effectiveness of MPC. Also provide simulink diagram, the graph and matlab code (if applicable) This is also the design/simulation work.
- The dissertation focus on MPC so it should be explained why MPC is superior to other control algorithm (PID control algorithm). A comparison should be include to demonstrate the point of view. You need to compare outcome graph that the process output for MPC also approach setpoint but it is not oscillatory and is more stable comparing to PID controller, ect
|
What is the monetary certainty equivalent
: What is the monetary certainty equivalent for the gamble: gain $130 with probability 0.4, lose $320 with probability 0.6 and what is the risk premium in explain the concept of a risk premium
|
|
State balanced net equations for the redox reactions
: Write balanced net equations for the redox reactions that could occur when the following are mixed a) Ag1+ and Cu b) Cr2O7 2- and Pb c)Which of the two reactions in are extensive? Is it A, B, A and B, or Neither
|
|
Describe e2 conditions draw arrows
: provide mechanism for trans-1-bromo-2-methylcyclohexane rxn under e2 conditions draw arrows. why is the product different from e1?
|
|
Explain what is the partial pressure of he
: A 2.48 L sample of He at 739 torr is mixed with 6.08 L of Ar at 325 torr both at 25°C is placed in a 4.80 L container at 25°C. What is the partial pressure (atm) of He? a) 0.48 b) 0.54 c) 0.42 d) 0.50 e) 0.38
|
|
Model predictive control with shell standard control problem
: Design Model Predictive Control on Shell Control Problem - strongly interactive and there are a great number of input as well as outputs. PID controller could do the good job for controlling the process but Model Predictive Controller could definit..
|
|
Explain a hydrogen atom absorb a photon with the longest
: For which of the following transitions would a hydrogen atom absorb a photon with the longest wavelength? a) n=1 to n=2 b)n=2 to n=4 c) n=5 to n=1 d) n=7 to n=6 e) n=5 to n=6
|
|
Evaluate the change in entropy of water
: Calculate the change in entropy (in J/K) when 81.8 g of water is heated from 27.9 ºC to 87.8 ºC at 1 atm. (The specific heat is 4.184 J/(g-K).)
|
|
Evaluate the increase of entropy
: Calculate the increase of entropy (in J/K) when 72 g of ice melts at 0 ºC and 1 atm. (The heat of fusion for ice is 6,000 J/mol.)
|
|
How transitions in a hydrogen atom would emit
: Which of the following transitions in a hydrogen atom would emit the highest energy photon? a) n=1 to n=2 b) n=3 to n=2 c) n=5 to n=1 d) n=2 to n=8 e) n=6 to n=5
|