Question 15 Determine the mass flow rate of fluid at the inlet, if the flow is...
Question Completion Status: Determine the mass flow rate of fluid at the inlet, if the flow is coming from left to right in a system as shown below. Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 6.1 x 103 m3/s 6.1 x 103 kg's 0.54 kg/s 0.2 kg's A Moving to anothetin wis this
uestion 15 Determine the mass flow rate of fluid at the inlet, if the flow is coming from left to right in a system as shown below. Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kgm3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 6.1 x 10-3 m3s 6.1 x 103 kg/s 0.54 kg/s 0.2 kg/s
Determine the velocity of fluid in m/s at the throat (at the smaller diameter of the pipe), and the mass flow rate of the fluid at the inlet, if the flow is coming from left to right in a system as shown below. Specific gravity of the flowing fluid is 1.2, and density of water is 1,000 kg/m^3. Find: A) velocity of fluid (m/s) at the throat, & B) mass flow rate of the fluid at the inlet. P1 =...
Question 16 Determine the velocity of fluid in m/s at the throat (i.e at smaller diameter of the pipe), if the flow is coming from left to right in a system as shown below. Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 21.5 0.225 0.598 0.006
Determine the velocity of fluid in m/s at the throat (ie at smaller diameter of the pipe), if the flow is coming from left to right in a system as shown below Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 215 0.225 0598 0.000
Question 16 Determine the velocity of fluid in m/s at the throat (.e at smaller diameter of the pipe), if the flow is coming from left to right in a system as shown below. Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 Pi 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 21.5 0.225 0.598 0.006
A Venturi tube may be used as a fluid flow meter. If the fluid flow rate in m3/s is 1.6 * 10-3 and the radius R1 = 2.4 *10-2 m of the inlet tube is 2.9 times the radius R2 of the outlet tube, and the fluid is water (ρ = 1000 kg/m3), find the pressure difference P1 - P2 in units of kPa. Enter a number with one digit behind the decimal point.
Liquid water flows steadily through a work producing device with a mass flow rate of 100 kg/s. At the inlet the conditions are: p1=1000 kPa, T1=25 deg-C, Vel1 = 30 m/s. At the exit, p2=100 kPa, u2= u1 (specific internal energy remains constant), and Vel2 = 20 m/s. Assume no heat transfer, no change in elevation between the inlet and exit, and density of water to be 1000 kg/m3. (a). Determine the power produced (w/o neglecting the effect of change...
12.01 (CD 12.32 Determine the volumetric flow rate through the Venture meter shown in Fig. P12.32 if viscous effects are negligible and the fluid is water. Pi = 735 kPa P2 = 550 kPa en 31 mm 31 mm 19 mm y=9.1 kN/m
CHE 3315 FLUID MECHANICS PROBLEM SHEET 5: MASS CONSERVATION AND FLOW RATE 1. Determine the mass flow rate of air having a temperature of 20C and gauge pressure 80 kPa as it flows through a circular duct 400 mm in diameter with an average velocity of 3 m/s. The gas specific constant R 286.9 JK /kg 2. Determine the average velocity of the steady flow at one outlet of a T- junction if the inlet flow speed is 6 m/s...