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Glycerin (specific gravity 1.26) in a processing plant flows in a pipe at a rate of R L/s. At a point where the pipe diameter is 832mm, the pressure is 300 kPa. Find the pressure at a second point where the pipe diameter is 300 mm if the second point is 1.0 m lower than the first point, neglect the head loss.
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Glycerin (specific gravity 1.26) in a processing plant flows in a pipe at a rate of R L/s.
Question - 6 y 1.26 Glycerin (specific gravity 1.26) in a 300 kPa 600 mm dia processing plant flows in a pipe at a rate of (1) 700 L/s. At a point where the pipe diameter is 600 mm, the pressure is 300 kPa. Find the 700 L/S pressure at a second point where the pipe diameter is 300 mm if the second point is 1.0 m lower than the first point, neglect the head loss. 1 m P.? 300...
1 A liquid with a specific gravity of 1.26 is being pumped from A to B through the pipeline of Fig. 55.8. At A the pipe diameter is 24 in (600 mm) and the pressure is 45 psi (300 kPa). At B the pipe diameter is 12 in (300 mm) and the pressure is 50 psi (330| kPa). Point B is 3 ft (1.0 m) lower than A. Find the flow rate if the pump puts 22 hp (16 kW)...
Need help on this question ( thermofluid mechanics) 6. A liquid with sg. of 1.26 is being pumped from A to B through the pipeline. At A the pipe diameter is 2D mm and the pressure is 300 kPa. At B the pipe diameter is D mm and the pressure is 330 kPa. Point B is 1m lower than A. Sketch a diagram to show the pipe flow arrangement. Hence, estimate D if the flow rate is not to exceed...
Glycerin at 20 °C flows upward in a vertical 75-mm-diameter pipe with a centerline velocity of 3.8 m/s. Determine the (a) head loss and (b) pressure drop in a 10-m length of the pipe. (a) h kPa (b) Др —
Glycerin at 20°C flows upward in a vertical 75-mm-diameter round pipe with a centerline velocity of 1.0 m s-1 . Determine the pressure drop and head change (hL = ?P / ?g) in a 10 m length of pipe.
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For flow in a pipe of uniform diameter D the loss in hydraulic head, h, is given by: L u2 D 2 where L is the length of the pipe, u is the average flow velocity, g is the acceleration due to gravity and f is a constant. During reconfiguration of a plant it is estimated that the length of the pipe could be reduced by 15% and its diameter increased by 6%. Calculate the maximum percentage by which The...
A hydraulic oil with a kinematic viscosity of 4 x 10-4 m2/s and specific gravity of 0.89 flows in a 22 mm diameter pipe at 3 m/s. Determine the head loss (in bar) due to friction for a 95 m long pipe.?
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C= 20 L/S 3. Neglecting minor losses in the pipe, determine the flows in the pipes and the pressure heads at the nodes (kinematic viscosity= 1.13x10 mº/s). Lengths and diameters of pipes are given in the table below. Roughness size of all pipes is 0.06 mm. Pressure head elevation at A point is 65 m od and the elevations of pipe nodes from A to F are 30, 25,20, 20, 22, and 25, respectively BE Pipe Length m) Diameter (mm)...