In a steady flow, nothing is changing with time at each spatial location.ltkach2015 said:QUESTION:
In general: when a flow is considered steady does that mean all properties of the flow are steady?
Or: can a flow have steady and unsteady properties?
Is that your professional judgement in addressing practical problems in turbulent flow? In my judgement, it depends on the time- and spatial scale of the averaging. After all, we don't treat individual molecular collisions and vibrations as part of the unsteadiness, even though that can certainly be regarded as unsteadiness on a very short time and spatial scale. In my experience, the time- and spatial scales in typical practical problems involving turbulent flow does not necessitate specifically treating the system as an unsteady flow. Even when studying how turbulence plays out in determining the stresses in a fluid in turbulent flow, the objective is to average out the statistical variations so that the results can be applied at larger time- and spatial scales. This is called the hierarchy approach.insightful said:I would say turbulence in a vessel or pipe could be considered unsteady-state in a steady-state process.
Of course not. The straw man lives!Chestermiller said:Is that your professional judgement in addressing practical problems in turbulent flow?
Sometimes a simple answer, on the level of the question asked by the member, is a better choice than a more complicated intricate response (even if the more complicated response fleshes out the answer in greater detail), in terms of giving the member what he needs. It is often less confusing that way. The member will have plenty of opportunity to study the situation in greater detail as his studies progress in the future. In other words, sometimes less is better.insightful said:Of course not. The straw man lives!
Steady flow refers to a type of fluid flow where the properties of the fluid (such as velocity, pressure, and temperature) do not change over time or at a specific point in a system. This means that the flow is constant and does not fluctuate.
No, steady flow only refers to the properties of the fluid itself. Other factors such as the shape of the object or the size of the system can still change over time in steady flow.
Yes, steady flow can exist in various real-life systems such as pipes, channels, and rivers. However, it is important to note that steady flow is an idealized concept and most systems experience some level of turbulence or fluctuation.
The main difference between steady flow and unsteady flow is that in steady flow, the properties of the fluid do not change over time or at a specific point, while in unsteady flow, the properties can change over time or at a specific point.
Steady flow is an important concept in fluid mechanics because it allows for the simplification of complex systems and makes it easier to analyze and understand fluid behavior. It is also used as a benchmark to compare with more realistic and dynamic flow conditions.