1 CTC 450 Hydrostatics (water at rest). 2 Review Biology Review  Types of Organisms  BOD.

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Presentation transcript:

1 CTC 450 Hydrostatics (water at rest)

2 Review Biology Review  Types of Organisms  BOD

3 Objectives Know common fluid properties Understand difference between absolute and gage pressure Know how to convert pressure to pressure head Know how to calculate hydrostatic pressure and resultant force on a horizontal plane surface Know how to calculate hydrostatic pressure and resultant force on a rectangular, vertical plane surface

4 Fluid Properties PropertySIUSC/FPS TemperatureK (273+C)F (9/5C+32) MassKgSlug LengthMeterFoot TimeSec ForceNewtonLb PressurePascal (N/m 2 )Psi Gravity Constant9.81 m/sec ft/sec 2

5 Other fluid properties Specific Weight-Gravitational force per unit volume  Water at 20C: 9.79 kN/m 3 (62.3 #/ft 3 ) Mass Density-mass per unit volume  Water at 4C: 1000 kg/m 3 (1.94 slugs/ft 3 ) Specific Gravity-Specific weight of a liquid/specific weight of water at some std. reference temperature

6 Water Properties Dependent on water temperature and pressure See Angel: Water Properties

7 Absolute vs Gage Pressure Gage pressure is the difference between absolute pressure and the surrounding ambient pressure (atmospheric pressure) Absolute pressure is the gage pressure plus atmospheric pressure In civil engineering applications, gage pressure is the commonly used pressure

8 Atmospheric Pressure Approximately 14.7 psia What is the equivalent gage pressure?

9 Pressure and Pressure Head In civil engineering water pressure (psi) is often expressed in terms of water head (ft)

10 Converting Pressure to Pressure Head Pressure Head = Pressure/Specific Weight Example: Atmospheric pressure = 14.7 psia (14.7 psia)(144 in 2 /ft 2 )/(62.4#/ft 3 )=33.9 ft H 2 O The specific weight of Hg is 13.6 therefore the pressure head in terms of Hg would be 2.49 ft

11 Hydrostatic Pressure and Resultant Force on a Horizontal Plane Surface Pressure is uniform because the depth of liquid is the same across the plane surface Pressure=Specific weight * height

12 Hydrostatic Pressure on a Horizontal Plane Surface Cylinder of water 1 foot high; area = 1 ft 2 What is the pressure at the bottom of the cylinder? P=Specific Wt * Height of Water P=62.4 #/ ft 2 F=Pressure * Area F=62.4 #

13 Force on Horizontal Plane Surface The magnitude of the force is 62.4# Where does it act?

14 Center of Pressure-Horizontal Plane Surface Corresponds to the centroid of the horizontal plane surface Circle Triangle Rectangle Composite of simple shapes

15 Centroids and Moment of Inertia (See Angel)

16 Hydrostatic Pressure Varies linearly w/ depth Is a function of specific wt and depth Acts through the center of pressure Acts normal to the exposed surface

17 Manometer Principles nstruments/manometers/principal%20of%20manomet er.htm Point 1: Pressure=0 Point 2: Pressure=h*specific weight of liquid Point 3: 2 Point 4: 3 –d*specific weight of liquid in vessel 4 d As you go down pressure increases. As you go up pressure decreases. As long as you know pressure at some point (& fluid properties & d/h values) you can determine pressures at all other points.

Manometer Example A manometer is mounted on a city water supply main pipe to monitor the water pressure. Determine the water pressure in the pipe (psi). Answer: 16.8 psi 18

Break 19

20 Vertical, rectangular plane surface Consider a dam section 1’ wide and 10’ deep What is the pressure distribution and resultant force of the water pressure? top = 0 bottom = 624 #/ft 2

21 Vertical Rectangular Plane Surface Magnitude of force = Avg Pressure * Area F=3,120 # Where is the resultant force located?  Centroid of the dam (rectangular)  Centroid of the pressure distribution (triangular)?

22 Example (1/2) Assume that freshly poured concrete exerts a hydrostatic force similar to that exerted by a liquid of equal specific weight What is the force acting on one side of a form that is 8’V by 4’H used for pouring a basement wall

23 Example (2/2) Concrete specific wt = 150#/ft 3 Area = 32 ft 2 F=Avg Pressure * Area F=19,200# = 9.6 tons

Example ( Horizontal and Vertical Water Pressure ) Class Exercise: who can get correct answer? 24 An L-shaped rectangular gate can rotate about the hinge. As the water level rises, the gate will open when the level reaches a critical height. If the length of the lower horizontal arm is 1 meter, find the critical height. (Neglect the weight of the gate). Answer: h=square root of 3 (m)

What if Vertical Rectangular Plane Surface is Submerged? 25

26 Next Hydrostatic pressure on an inclined plane surface Hydrostatic pressure on a curved surface Buoyancy