Calculating hole size on the side of a pipeAsk Question Asked 2 years, 5 months ago Modified 3 months ago Viewed 1k times 0 I have a fluid channel through which a fluid with known properties (viscosity, density etc.) flows at a known velocity with a known pressure and temperature and ...
In a simple y-junction, the head loss equation for one of the outlets would be: Total head = entry loss + tap loss + pipe loss 1 + loss in connector + pipe loss 2 + energy at exit You are correct in considering separate values of velocity (U) for before and after the junction. ...
A system and method for calculation of flow rate comprising at least two ultrasonic sensors, ultrasonic transmit receive device, and signal processing device. At least two ultrasonic sensors are installed on the pipe where the fluid is flowing through, and at least two ultrasonic sensors contain ...
This work presents a novel method to calculate the distributed water depth and flow velocity of heavy rainfall-induced stormwater runoff. Although the shallow water equations or other numerical models are often employed to deal with the calculation of distributed water depth and flow velocity of runof...
The velocity for a flow is defined by, where x and y are in meters. Is the flow 1-D, 2-D, or 3-D? Determine the equation for the streamline passing through the point (2 m, 3 m). For the configuration in the figure below what must be ...
The nitrogen was then transferred into the liquid storage tank through filter and buffer tank. (3) The liquid water in the liquid storage tank was transported to the microtube smoothly by nitrogen pressure. (4) The flow rate in the microtube was measured by the flow-velocity measuring tube...
Today there's no limit on velocity but back when we had 32 fps and I still keep the 32 fps in mind. What I came up with was a fill rate of 650 gpm through the 4" line, that is where the two lines intersect, and that number would increase as the tank level lowered. I should...
If the dynamic (absolute) viscosity is provided, the Reynolds number may be determined using either: Where: Q = flow (gpm) d = internal pipe diameter (in.) r = weight density of fluid μ = dynamic (absolute) viscosity Or by using: Where: r = density v = velocity d = internal pipe...
When cold steam pipes are heated up they generate huge amounts of condensate that must be drained away from the pipe through steam traps - in Imperial Units. Condensation of Steam - Heat Transfer Heat transfer when steam condensates. Cooling and Heating Equations Latent and sensible cooling an...
You can use, velocity inlet and pressure outlet boundary conditions. Hope this helps, Cheers Thread ToolsSearch this Thread Show Printable Version Email this Page Search this Thread: Advanced Search Display Modes Linear Mode Switch to Hybrid Mode ...