Explanation Given information: The temperature of oil is 40 ° C , diameter of pipe is 20 cm , length of pipe is 20 m , velocity of oil is 0.9 m / s , density of oil is 876 kg / m 3 and dynamic viscosity of oil is 0.2177 kg / m ⋅ s . Write the expression for the Reynolds number. Re = ρ v D μ ........... (I) Here, Reynolds number is Re , density of oil is ρ , velocity of oil is v , dynamic viscosity of oil is μ and diameter of pipe is D . Write the expression for the friction factor. f = 64 Re ........... (II) Here, friction factor is f . Write the expression for head loss in pipe. h f = f L v 2 2 g D ........... (III) Here, head loss in pipe is h f , gravitational acceleration is g and length of pipe is L . Write the expression for the pressure drop of oil. Δ P = ρ g h f ........... (IV) Here, pressure drop of oil is Δ P . Calculation: Substitute 876 kg / m 3 for ρ , 0.2177 kg / m ⋅ s for μ , 0.9 m / s for v and 20 cm for D in Equation (I). Re = ( 876 kg / m 3 ) ( 0.9 m / s ) ( 20 cm ) ( 0.2177 kg / m ⋅ s ) = ( 876 kg / m 3 ) ( 0.9 m / s ) ( 20 cm ) [ 1 m 100 cm ] ( 0.2177 kg / m ⋅ s ) = 724.299 Since Reynolds number is less than 4000 therefore, flow will be laminar. Substitute 724.299 for Re in Equation (II). f = 64 ( 724

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Chapter 8, Problem 169P

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The pressure drop of oil.

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Chapter 8, Problem 168P

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Consider an oil flow of 12 m³/h in a long, straight and smooth pipe with diameter of 7 cm. What is the pressure loss per meter? Oil absol viscosity is 0,1 kg/ms and density is 900 kg/m³. Friction factor for laminar flow can be calculated from 64 f=t Round off the answer to an integer in Pa/m, but enter the answer without the unit. 0.1 0.09 0.08 0.07 0.06- 0.05 0.04- 0.03 0.025- 0.00 Lamitin THW 1 Transition ang Wholly turbulent flow Suth 0.05 0.04 0.03 0.02 0.015 0.01 0.008 0.006 0.004 0.002 0.001 0.0008 0,0004 0.0002 00001 300006 000001 D

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The narrow section of a nozzle is 8 cm in diameter. While the fluid passes through the nozzle at a volume flow of 12 m3 / hour, the pressure difference was measured as 0.05 mSS. In this case, what is the flow rate coefficient (K) of the nozzle? (ρ = 1000 kg / m3, g = 9.81 m / s2) a. 0.623 b. 0.672 c. 0.752 d. 0.642 e. 0.585

Chapter 8 Solutions

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