System Modelling; Control Systems; Chemical Process
Please see the attached jpg for details regarding the following questions. Thank you :) (a) What are the conserved variables? (Volume is not of interest in this problem) (b) Find the state differential equation. Clearly identify state variables, inputs and parameters. (c) Find the algebraic output equation. The output v ...continues
Simulink Model for a Salt Dissolving Tank
The model, diagram, outputs etc. for a salt dissolving tank are given in the attachment. Please solve the associated question.
System Modelling (Output; State Differential Equation)
Consider the ice-cream manufacture process shown in the attachment. The ice-cream is made up of the following ingredients: i) Liquid (cream, milk, water etc.) added at a rate r1 [kg/hr] and with a density p1 [kg/1]. ... {see attachment for more details} (a) Find a model for the process with height in the tank and density ...continues
System Modelling (Output: Density)
Two tanks are arranged as shown in the attachment. Salt and water are added into the first tank at rates {see attachment}. The tanks are well mixed and the salt dissolves completely. The flow between the two tanks depends on the pressure difference {see attachment}. The flow out of te second tank is given by {see attachment}. Bo ...continues
A hydroelectric pumped storage scheme moves water between an upper and a lower water reservoir (subscripts u and 1 respectively). During periods of low electricity demand, power is cheap and water is pumped up to the upper reservoir. (Energy is stored as potential engergy). During peak electricity demand, water flows (backwards) ...continues
Develop a dynamic model for the system described in the attachment, choosing the height of the water in the vessel as the output variable. The vessel has a uniform cross-sectional area, A. Assume that the water density, p, does not change with temperature.
Could you please supply me with DETAILED answers and solutions to the two questions in the attachments below. The diagrams in each question need to be displayed in the Simulink format used within Matlab. Also, could you bare in mind that when using notations in the diagrams and calculations, would you please state the explan ...continues
bi) Use the Laplace transform to find the output of the system... bii) Sketch your solution. Please see attached for full questions.
b) Find the natural Response of the system... with inputu(t)=0 and initial condition... Sketch your solution. Please see attachments for full question.
Question 4. Partial Fractions with Simulink Diagrams
For the following open loop transfer function determine the time domain y(t) solutions using partial fraction methods verify your answers using simulink. Please see attached for functions.
