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Acetone at 50 °C (SG = 0.756, μ = 0.245 cP) flows through a horizontal pipe (internal diameter = 10 cm). The typical volumetric flow rate of Acetone is 10 m³/hr. You need to replace the existing flow meter and you want to install an orifice meter (internal diameter = 6 cm) in the pipe to measure the flow of Acetone. a) Based on the typical flow rate of 10 m³/hr, calculate the expected the pressure drop across the orifice meter? 2-12-

Acetone at 50 °C (SG = 0.756, μ = 0.245 cP) flows through a horizontal pipe (internal diameter = 10 cm). The typical volumetric flow rate of Acetone is 10 m³/hr. You need to replace the existing flow meter and you want to install an orifice meter (internal diameter = 6 cm) in the pipe to measure the flow of Acetone. a) Based on the typical flow rate of 10 m³/hr, calculate the expected the pressure drop across the orifice meter? 2-12-

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Acetone at 50 °C (SG = 0.756, μ = 0.245 cP) flows through a horizontal pipe (internal diameter = 10 cm). The typical volumetric flow rate of Acetone is 10 m³/hr. You need to replace the existing flow meter and you want to install an orifice meter (internal diameter = 6 cm) in the pipe to measure the flow of Acetone. a) Based on the typical flow rate of 10 m³/hr, calculate the expected the pressure drop across the orifice meter? 2.(P₁-12₂) B4 = Co B = $ / Be= d = ANS = At 2 P₁-P₁₂ = ( 2 ² = = ² ² P (1-1/²1) 2 1 D4 2 вст DVD M = (756) 'P(1- 10cm こ d4 = 0.6cm (756), 1.09×105 0.000245 10m³/hr 0.0002215
Transcribed Image Text:Acetone at 50 °C (SG = 0.756, μ = 0.245 cP) flows through a horizontal pipe (internal diameter = 10 cm). The typical volumetric flow rate of Acetone is 10 m³/hr. You need to replace the existing flow meter and you want to install an orifice meter (internal diameter = 6 cm) in the pipe to measure the flow of Acetone. a) Based on the typical flow rate of 10 m³/hr, calculate the expected the pressure drop across the orifice meter? 2.(P₁-12₂) B4 = Co B = $ / Be= d = ANS = At 2 P₁-P₁₂ = ( 2 ² = = ² ² P (1-1/²1) 2 1 D4 2 вст DVD M = (756) 'P(1- 10cm こ d4 = 0.6cm (756), 1.09×105 0.000245 10m³/hr 0.0002215
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