In a rectangular horizontal flow tank, the maximum permissible velocit...
Explanation: In the rectangular tank, the ideal conditions are that the flow is horizontal, velocity is uniform in all directions and the maximum permissible limit of velocity is .03m/Sec..
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In a rectangular horizontal flow tank, the maximum permissible velocit...
In a rectangular horizontal flow tank, the maximum permissible velocity is 0.3 m/Sec.
Explanation:
A rectangular horizontal flow tank is a type of tank used in various industrial processes, such as chemical reactions, mixing, and storage of fluids. It has a rectangular shape with a horizontal orientation.
The maximum permissible velocity refers to the highest speed at which the fluid can flow through the tank without causing any undesirable effects or damage to the tank or its contents. It is an important parameter to consider to ensure the safe and efficient operation of the tank.
There are several factors that determine the maximum permissible velocity in a rectangular horizontal flow tank:
1. Tank Design: The design of the tank, including its dimensions and geometry, plays a crucial role in determining the maximum allowable velocity. The dimensions of the tank such as length, width, and height affect the flow dynamics and the distribution of fluid within the tank.
2. Fluid Properties: The properties of the fluid being processed or stored in the tank also influence the maximum permissible velocity. Fluid properties such as viscosity, density, and temperature affect the flow behavior and the forces acting on the tank walls.
3. Operational Requirements: The operational requirements of the process or application also influence the maximum allowable velocity. Certain processes may require a lower velocity to ensure proper mixing or to minimize the potential for turbulence or splashing.
Based on these factors, the maximum permissible velocity for a rectangular horizontal flow tank is typically determined through design calculations and engineering analysis. It is important to consider the specific requirements of the process and the limitations of the tank design to determine the appropriate velocity.
In this case, the maximum permissible velocity is given as 0.3 m/Sec. This value has likely been determined based on the specific tank design and the requirements of the process or application in which the tank is being used. It is crucial to adhere to this maximum velocity to ensure the safe and efficient operation of the tank.