A capillary-tube viscometer is being selected to measure viscosity of a liquid food. The maximum viscosity...

A Newtonian liquid food with a viscosity of 4 cP and a density of 1026 kg/m3...

A Newtonian liquid food with a viscosity of 4 cP and a density of 1026 kg/m3 is to be pasteurized in a HTST system that heats the liquid food to 90°C followed by holding it in a 0.0275 m diameter pipe for a minimum time of 0.06 min. Calculate the maximum velocity and the length of the holding tube required, given that the flow rate is 30 L/min.

A Newtonian liquid food with a viscosity of 2.5 cP and a density of 1020 kg/m3...

A Newtonian liquid food with a viscosity of 2.5 cP and a density of 1020 kg/m3 is to be pasteurized in a HTST system that heats the liquid food to 80°C followed by holding it in a 0.02 m diameter pipe for a minimum time of 0.07 min. a. Calculate maximum velocity and the length of the holding tube required, given that the flow rate is 35 L/min. b. The temperature at the cold spot for a liquid food in...

Using a spherical separation funnel to measure the viscosity of red wine.The radius of the bulb...

Using a spherical separation funnel to measure the viscosity of red wine.The radius of the bulb is 5 cm. The vertical tube length is 10 cm and its radius is 1mm. The measured efflux time is about 100 s. Consider the density of the wine similar about 1000 Kg/m3. Initially the whole bulb was filled up. Calculate the viscosity of the red wine.

A liquid of density 1270 kg/m3 flows steadily through a pipe of varying diameter and height....

A liquid of density 1270 kg/m3 flows steadily through a pipe of varying diameter and height. At Location 1 along the pipe, the flow speed is 9.81 m/s and the pipe diameter d1 is 11.3 cm. At Location 2, the pipe diameter d2 is 17.1 cm. At Location 1, the pipe is Δy=9.59 m higher than it is at Location 2. Ignoring viscosity, calculate the difference ΔP in units of Pa between the fluid pressure at Location 2 and the...

In ideal flow, a liquid of density 940 kg/m3 moves from a horizontal tube of radius...

In ideal flow, a liquid of density 940 kg/m3 moves from a horizontal tube of radius 1.60 cm into a second horizontal tube of radius 0.800 cm at the same elevation as the first tube. The pressure differs by ΔP between the liquid in one tube and the liquid in the second tube. (a) Find the volume flow rate as a function of ΔP. (b) Evaluate the volume flow rate for ΔP = 7.00 kPa. L/s (c) Evaluate the volume...

A smooth tube 5 cm in diameter and 450 cm in length is placed inside another...

A smooth tube 5 cm in diameter and 450 cm in length is placed inside another tube larger in diameter. Air enters the smaller diameter tube at a pressure of 5 bars, a mean temperature of 16 oC , and at a flow rate of 29 gm/s. saturated steam at 1.523 bar in the annulus between the two tubes condenses on the surface 0f the inside tube find: The outlet temperature of air The outlet pressure of air The mass...

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a...

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a diameter of 15 mm and a length of 25 m. The inner surface of the tube is heated with a uniform heat flux of 1000 W/m2. Measurements shown that the inlet temperature of the fluid is 30 ˚C. Assume the outer surface of the tube is perfectly insulated. Consider the thermophysical properties of the fluid are as follows: density ρ = 1000 kg/m3, specific...

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed...

A fluid of viscosity 0,002 N-s /m2 and density 1000 kg/m3 flows with an average speed of 1 m/s in a 2 cm-diameter horizontal smooth pipe . Calculate a)magnitude of shearing stress at the pipe wall. b) shear stress velocity of flow c) magnitude of pressure gradient to induce flow

A packed bed of particles of density 2500 kg/m3 occupies a depth of 0.5 m in...

A packed bed of particles of density 2500 kg/m3 occupies a depth of 0.5 m in a cylindrical vessel of inside diameter 0.1 m. The mass of solids in the bed is 3 kg. The mean diameter of the particles is 300 μm and the sphericity is 0.67. Water (density 1000 kg and viscosity 0.001 Pa s) flows upwards through the bed. Determine the pressure drop across the bed when being fluidized with water superficial velocity being higher than the...

A liquid of density 1.33 × 103 kg/m3 flows steadily through a pipe of varying diameter...

A liquid of density 1.33 × 103 kg/m3 flows steadily through a pipe of varying diameter and height. At location 1 along the pipe the flow speed is 9.15 m/s and the pipe diameter is 11.5 cm. At location 2 the pipe diameter is 17.3 cm. At location 1 the pipe is 9.89 m higher than it is at location 2. Ignoring viscosity, calculate the difference between the fluid pressure at location 2 and the fluid pressure at location 1.