Explanation Given information: The diameter of pipe is 6 cm and the diameter of throat is 4 cm . The pressure at upstream is 120 kPa and pressure at throat is 50 kPa . The flow is frictionless. The following Figure-(1) shows the venturi meter. Figure-(1) In Figure-(1), the section 1 is denoted at pipe and section 2 denoted at throat. Write the expression for Bernoulli’s theorem between two sections for equal potential head. P 1 ρ g + V 1 2 2 g = P 2 ρ g + V 2 2 2 g V 2 2 2 g = ( P 1 − P 2 ρ g ) + V 1 2 2 g .... (I) Here, the pressure at section 1 is P 1 , the density of water is ρ , the acceleration due to gravity is g , the velocity at section 1 is V 1 , the pressure at section 2 is P 2 and the velocity at section 2 is V 2 Write the expression for area at section 2 . A 2 = π 4 d 2 2 .... (II) Here, the area at section 2 is A 2 and diameter is d 2 . Write the expression for area at section 1 . A 1 = π 4 d 1 2 .... (III) Here, the area at section 1 is A 1 and diameter at section 1 is d 1 . Write the expression for continuity. A 1 V 1 = A 2 V 2 .... (IV) Calculate flow rate. Q = A 2 V 2 .... (V) Here, the flow rate is Q . Calculation: Substitute π 4 d 1 2 for A 1 for π 4 d 2 2 for A 2 in Equation (IV). ( π 4 d 1 2 ) V 1 = ( π 4 d 2 2 ) V 2 V 1 = ( d 2 2 d 1 2 ) V 2 .... (VI) Convert the pressure P 1 from kPa to N / m 2 . P 1 = 120 kPa = ( 120 kPa ) ( 10 3 N / m 2 1 kPa ) = ( 120 × 10 3 N / m 2 ) ( 1 kg ⋅ m / s 2 1 N ) = 120 × 10 3 kg / m ⋅ s 2 Convert the pressure P 2 from kPa to N / m 2 . P 2 = 50 kPa = ( 50 kPa ) ( 10 3 N / m 2 1 kPa ) = ( 50 × 10 3 N / m 2 ) ( 1 kg ⋅ m / s 2 1 N ) = 50 × 10 3 kg / m ⋅ s 2 Convert the diameter of pipe from cm to m . d 1 = 6 cm = ( 6 cm ) ( 1 m 100 cm ) = 0

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Author: Frank White

Publisher: MCGRAW-HILL HIGHER EDUCATION

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