U-tube Manometer with equal unequal limb types

 

Description of manometer:

 

This is the most simple and precise device used for the measurement od pressure. It consists of a transparent tube constructed in the form of an elongated 'U', and partially filled with the manometric fluid such as mercury. The purpose of using mercury as the manometric fluid is that their specific gravity at various temperatures are known exactly and they don't stick to the tube. The two common types of manometers are the equal limb type and unequal limb type.

 

Operation of Manometer :

 

to measure the pressure of a fluid which is less dense and immiscible with the manometric fluid, it is applied to the top of one of the limbs of the manometer while a reference fluid pressure (generally atmospheric ) is applied to the other limb.

 

Let : P1 = unknown pressure with specific weight w1.

And : P2 = reference pressure with specific weight w2.

And : wm = specific weight of the manometric fluid.

 

The difference between the pressure on the two limbs of the manometer is a function of 'h', the difference between the levels of the manometric fluid in the two limbs. 'h', can be read directly by placing a scale near the manometer.

 

For Equal Limb type:

Description: equal limb type manometer

 

the pressure balance equation is

 

P1 + gh * w1 = P2 + gh * wm

 

therefore, differential pressure

 

P = P1 – p2 = gh(wm – w1)

 

 

For unequal Limb type

 

Description: unequal limb type manometer

the pressure balance equation is : (section-XX)

 

P1+w1(h1+h2+h) = P2 + w2h2 + wmh

 

Therefore, differential pressure:

 

P = P1 – P2 = w2h2 + wm * h – w1(h1 + h2 + h)

 

= wm*h [ 1 + (w2/wm * h2/h) – w1/wm ( h1+h2/h + 1) ]

 

= wmh * Cn

 

where; Cn = [ 1 + ( w2/wm – h2/h) – w1/wm ( h1+h2/h + 1)]

 

Cn is known as hydraulic correction factor.

 

Applications of Manometer :

 

      they are used to sense differential pressure in venturi meter and other flow meters.

      They are used as level devices to sense liquid heads.

      There are used as primary standard for pressure measurements.

 

Advantages of Manometer :

 

      they are simple in construction.

      They give accurate results.

      Wide range of manometric fluids are available such as mercury, water, aniline, tetrabromoethane, bromoform and carbon tetrachloride.

 

Disadvantages of Manometer :

 

      They might break during transport.

      Certain manometric fluids cause hazards when exposed to atmosphere.

      Error is introduced if the diameter of the tube is less.

      Leveling is required.