Solar ponds are small artificial lakes of a few meters deep that are used to store solar energy. The rise of heated (and thus less dense) water to the surface is prevented by adding salt at the pond bottom. In a typical salt gradient solar pond, the density of water increases in the gradient zone, as shown, and the density can be expressed as ρ = ρ0√1 + tan2(?/ 4 s/ H) where ? 0 is the density on the water surface, s is the vertical distance measured downward from the top of the gradient zone (s = −z), and H is the thickness of the gradient zone. For H = 4 m, ?0 = 1040 kg/m3, and a thickness of 0.8 m for the surface zone, calculate the gage pressure at the bottom of the gradient zone. SunIncreasing salinityand densityPo = 1040 kg/m3Surface zoneGradient zoneH=4m2)Storage zone

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Sun Increasing salinity and density Po = 1040 kg/m3 Surface zone Gradient zone H=4m 2) Storage zone

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter8: Natural Convection

Section: Chapter Questions

Problem 8.28P

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Properties of Fluids

The term fluid represents a type of substance that can easily change its shape under any external pressure/force and can flow. Fluids can acquire any shape in which it is stored and can resist normal stresses but cannot resist shear stress in rest condition. Whenever external shear stress is applied to fluids, it starts to flow. The fluids may be liquid or gas. Example- water, air, etc.

Question

Solar ponds are small artificial lakes of a few meters deep that are used to store solar energy. The rise of heated (and thus less dense) water to the surface is prevented by adding salt at the pond bottom. In a typical salt gradient solar pond, the density of water increases in the gradient zone, as shown, and the density can be expressed as ρ = ρ₀√1 + tan²(?/ 4 s/ H) where ? 0 is the density on the water surface, s is the vertical distance measured downward from the top of the gradient zone (s = −z), and H is the thickness of the gradient zone. For H = 4 m, ?₀ = 1040 kg/m³, and a thickness of 0.8 m for the surface zone, calculate the gage pressure at the bottom of the gradient zone.

Sun
Increasing salinity
and density
Po = 1040 kg/m3
Surface zone
Gradient zone
H=4m
2)
Storage zone

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