The change in the pressure between the inlet and the outlet of the pumping station is to be calculated. Concept Introduction: The general energy balance equation according to the first law of thermodynamics written for a control volume is: δ Q d t − δ W d t = ∬ C . S ( e + P ρ ) ρ ( v ⋅ n ) d A + ∂ ∂ t ∭ C . V e ρ d V + δ W μ d t ...... (1) Here, C.S is the control surface over which the integral dA is taken, C.V is the control volume over which the integral dV is taken, ρ is the density of the fluid, v is the velocity vector , n is the direction of the vector v , δ Q / d t is the rate of heat added (positive) or removed (negative) from the system, δ W / d t is the rate of work done by (positive) or on (negative) the system, and δ W μ / d t is the rate of work done to overcome the viscous effect at the control surface. The product v ⋅ n is scalar defined as: v ⋅ n = | v | | n | cos θ

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Chapter 6, Problem 6.40P

Interpretation Introduction

Interpretation:

The change in the pressure between the inlet and the outlet of the pumping station is to be calculated.

Concept Introduction:

The general energy balance equation according to the first law of thermodynamics written for a control volume is:

δQdt−δWdt=∬C.S(e+Pρ)ρ(v⋅n)dA+∂∂t∭C.VeρdV+δWμdt ...... (1)

Here, C.S is the control surface over which the integral dA is taken, C.V is the control volume over which the integral dV is taken, ρ is the density of the fluid, v is the velocity vector, n is the direction of the vector v , δQ/dt is the rate of heat added (positive) or removed (negative) from the system, δW/dt is the rate of work done by (positive) or on (negative) the system, and δWμ/dt is the rate of work done to overcome the viscous effect at the control surface. The product v⋅n is scalar defined as:

v⋅n=|v||n|cosθ

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