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This calculation determines the work done in a system where radial discharge occurs at a vane angle of 90 degrees and initial velocity is zero. It's commonly used in fluid mechanics and turbomachinery applications.
The calculator uses the formula:
Where:
Explanation: The formula calculates the work done by considering the weight of fluid, its specific gravity, and the velocity components in the system.
Details: Accurate work done calculation is crucial for analyzing energy transfer in fluid systems, designing turbomachinery, and optimizing system efficiency in various engineering applications.
Tips: Enter weight of fluid in Newtons, specific gravity (dimensionless), final velocity in m/s, and initial velocity in m/s. All values must be valid positive numbers.
Q1: What is radial discharge in fluid mechanics?
A: Radial discharge refers to fluid flow that occurs radially outward from a central axis, commonly found in centrifugal pumps and turbines.
Q2: Why is vane angle important in this calculation?
A: A vane angle of 90 degrees simplifies the calculation as it creates specific flow conditions that affect the work done calculation.
Q3: What are typical applications of this calculation?
A: This calculation is used in designing centrifugal pumps, turbines, and other rotary machinery where radial flow occurs.
Q4: How does initial velocity being zero affect the calculation?
A: When initial velocity is zero, it represents a starting condition where the fluid begins from rest, simplifying certain aspects of the energy transfer calculation.
Q5: What units should be used for accurate results?
A: Use Newtons for weight, dimensionless for specific gravity, and meters per second for velocities to maintain SI unit consistency.