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VEGABAR, VEGAWELL, VEGADIF: Hydrostatic level measurement

In hydrostatic level measurement, the measuring cell of the pressure transmitter detects even the slightest changes in hydrostatic pressure, which increases or decreases depending on the filling level. The acting pressure is converted into an electrical signal by the integrated electronics and then outputted as an output signal. Different types of measuring cells are used in level measurement based on the hydrostatic principle.
The advantages
  • Level measurement with hydrostatics is totally unaffected by foaming or vessel installations
  • Ceramic measuring cells offer excellent long-term stability and high overload resistance
  • Metallic measuring cells also cover larger measuring ranges

Step by step to the right sensor

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Products
Function
Applications
BASIC
VEGABAR 28

VEGABAR 28

With ceramic measuring cell

£ 273.00
Base price
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BASIC
VEGABAR 29

VEGABAR 29

With metallic measuring cell

£ 264.00
Base price
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BASIC
VEGABAR 38

VEGABAR 38

With ceramic measuring cell

£ 362.00
Base price
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BASIC
VEGABAR 39

VEGABAR 39

With metallic measuring cell

£ 331.00
Base price
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PRO
VEGABAR 81

VEGABAR 81

With chemical seal, for high temperatures

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PRO
VEGABAR 82

VEGABAR 82

The all-rounder with ceramic measuring cell

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PRO
VEGABAR 83

VEGABAR 83

With metallic measuring cell, for high pressures

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PRO
VEGABAR 86

VEGABAR 86

With ceramic measuring cell

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PRO
VEGABAR 87

VEGABAR 87

With metallic measuring cell

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PRO
VEGADIF 85

VEGADIF 85

With metallic measuring diaphragm

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PRO
VEGAWELL 52

VEGAWELL 52

With ceramic measuring cell

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BASIC
VEGAWELL S51

VEGAWELL S51

With ceramic measuring cell, standard level probe

£ 402.00
Base price
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How does hydrostatic level measurement work?

The submerged measurement cell measures hydrostatic pressure, which provides an indirect liquid level measurement

Hydrostatic pressure refers to the mass of a stationary liquid at a given point of measurement.  As level increases inside a tank, the hydrostatic pressure increases proportionally. Thus, the higher the hydrostatic pressure measurement, the higher the liquid level measurement. 
Making this measurement requires installing a pressure transmitter on a tank so the instrument’s measuring cell is submersed in liquid. The transmitter measures hydrostatic pressure and converts it to a level measurement reading based on the equation below.
Height (Level) = Hydrostatic pressure/(Liquid density * Specific gravity)

 

What are the advantages of hydrostatic level transmitters? 

Hydrostatics have been in use in the process control industry for a long, long time. They are field-proven and familiar to users in many industries. Hydrostatic level instruments provide a reliable, accurate liquid level measurement even through adverse conditions in a tank such as foam, agitation, and obstructions. Users do not have to consider dielectric constant, and the instruments are easy to calibrate. 

While hydrostatic level measurement is a process automation mainstay, the sophistication of the sensors is constantly increasing. Users are now empowered to choose the best measurement cell material for their process. For example, VEGA offers dry ceramic measuring cells for abrasion resistance and durability as well as metallic measuring cells allow for reliable measurement of many different liquids.

What are common applications for level measurement using hydrostatic pressure sensors?

Calculating hydrostatic level accurately means having known specific gravity and density measurements for the product inside the tank or vessel. Because of the importance of these two values, hydrostatic transmitters are used in applications where specific gravity and temperature (because it changes liquid density) are consistent and predictable. Hydrostatic transmitters are often found in open or vented tanks in industrial plants or in reservoirs and open channels in water and wastewater treatment applications. A closed tank would require a second pressure measurement of the gas pressure above the liquid. 
 



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