Dynamic modeling of a system and transients of the system

Click For Summary
SUMMARY

The discussion centers on modeling dynamic systems, specifically an air compressor and pneumatic tank, using differential equations in MATLAB. It is established that while modeling with differential equations can include transients, it is crucial that these equations are time-dependent to accurately reflect transient behavior. The conversation emphasizes the importance of incorporating boundary conditions and the conservation principles of mass, energy, and volume when developing a mathematical model for such systems.

PREREQUISITES
  • Understanding of differential equations, particularly time-dependent equations
  • Familiarity with MATLAB for system modeling
  • Knowledge of conservation principles: mass, energy, and volume
  • Basic concepts of pneumatic systems and their dynamics
NEXT STEPS
  • Research how to implement differential equations in MATLAB for dynamic system modeling
  • Explore transient simulation techniques in MATLAB
  • Study the conservation of mass and energy in pneumatic systems
  • Learn about boundary conditions and their impact on system behavior
USEFUL FOR

Engineers, system modelers, and researchers involved in pneumatic system design and analysis, particularly those working with air compressors and dynamic modeling in MATLAB.

Nikhil N
Messages
80
Reaction score
2
Consider, I have a dynamic system model for air compressor. Which means I have modeled the system by including its physics. Does this means I also included the transients of the system?
What I think is, when i modeled any system with equations, I think that includes the transients. Is it correct?

I want to know how can I model a pneumatic tank with equations in matlab?
 
Engineering news on Phys.org
Nikhil N said:
What I think is, when i modeled any system with equations, I think that includes the transients. Is it correct?

Not necessarily. You could model it by saying mass in equals mass out. That is simply conservation of mass, a very important equation. But that model is too simple to include transients.

The key question you need is "are the equations differential equations?"
 
anorlunda said:
Not necessarily. You could model it by saying mass in equals mass out. That is simply conservation of mass, a very important equation. But that model is too simple to include transients.

The key question you need is "are the equations differential equations?"
That means, if the system modeled with differential equations will includes the transients. Isn't it?
 
Nikhil N said:
That means, if the system modeled with differential equations will includes the transients. Isn't it?

Yes, but to be careful with words, only if the differentials are with respect to time. It is possible to have partial differential equations that do not include time. We don't use the word transients to describe their solutions.

Then you need one more thing for a transient simulation. You need the time behavior of the boundary conditions.

It makes me nervous to provide these answers because it sounds like you don't really understand what transient simulation means.
 
Simply having time differential equations does not necessarily mean that you have correctly included the transient. As a simple example, if you describe the dynamics of a simple spring-mass system but do not include the damping, you will get an undamped solution; this does not decay and thus has no transition into steady state. It is only when you get the complete system model that you have all of the intransigent behavior.
 
anorlunda said:
Yes, but to be careful with words, only if the differentials are with respect to time. It is possible to have partial differential equations that do not include time. We don't use the word transients to describe their solutions.

Then you need one more thing for a transient simulation. You need the time behavior of the boundary conditions.

It makes me nervous to provide these answers because it sounds like you don't really understand what transient simulation means.
I mean differential equation w.r.t time only. I have an idea, what is transient behaviour is.
 
Can anybody help to derive a mathematical model of an air storage tank for an air compressor system?

I have a scew type compressor(fixed speed type), which will deliver 1000cfm to a storage tank. The output for end use require 80-90psi. But the load(air flow output from tank) is varying w.r.t time, I need to include these all cases in consideration in the model. I think I may have to add a valve too after the storage tank. Anybody has any idea how to do this?
 
Last edited:
Nikhil N said:
Anybody has any idea how to do this?

Of course, you start with the first principles: conservation of mass, energy, volume, and the perfect gas law. But we can't do your work for you. Post your equations and a diagram and we can offer comments on it.
 

Similar threads

Modelling Inverted Pendulum With 2 Propellers (Control Engineering)
  • · Replies 4 ·
Replies
4
Views
2K
Mathematical modeling of a screw compressor
  • · Replies 3 ·
Replies
3
Views
2K
What Software To Use For Using Pole Placement To Determine PID Gains?
  • · Replies 1 ·
Replies
1
Views
2K
Mathematical Modeling of an evaporator for evaporating water
  • · Replies 22 ·
Replies
22
Views
3K
Modeling Air Compression Cylinder
  • · Replies 45 ·
2
Replies
45
Views
6K
Modeling an earthing switch for a High Voltage Impulse Generator
  • · Replies 2 ·
Replies
2
Views
2K
4DOF Spur Gear System - Eigenvalues not corresponding with the Eqns?
  • · Replies 4 ·
Replies
4
Views
3K
Rotational Dynamics - Modeling brake caliper deceleration of a chassis
  • · Replies 10 ·
Replies
10
Views
3K
Calibrating Pump/Venturi (Air) in a Closed Recirculating Water System
  • · Replies 1 ·
Replies
1
Views
933
Limiting factor in design of small gas turbine w/ LOW self sustain speed
  • · Replies 5 ·
Replies
5
Views
2K