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Radar Level Transmitters and Industrial Applications

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Radar level transmitters are non-contact measurement devices that use electromagnetic waves to measure the level of liquids and solids. Compared to ultrasonic and hydrostatic measurement methods, they provide higher accuracy and ensure reliable performance even under harsh process conditions.

Radar Level Transmitters

WORKING PRINCIPLE

Radar transmitters emit microwave signals toward the material surface and measure the time taken for the reflected signal to return.

Formula: d = (c × t) / 2

Where:
d: distance (m)
c: speed of light (3 × 10⁸ m/s)
t: round-trip time (s)

The difference between the tank height and this measured distance provides the actual material level. Modern 24 GHz and 80 GHz radar technologies offer superior resolution and narrower beam angles.

TYPES OF RADAR

  • Guided Wave Radar (GWR): Uses a probe or cable to guide the signal, ideal for tanks with foam, vapor, or dust.
  • Non-Contact Radar: Uses an antenna to transmit signals, suitable for high-pressure, high-temperature, and aggressive chemical environments.

STRUCTURAL FEATURES

  • Body materials: stainless steel, PTFE coating
  • Output signals: 4-20 mA, HART, Modbus, Profibus
  • Protection class: IP67 – IP68
  • Explosion-proof versions (ATEX & IECEx)
  • Accuracy up to ±2 mm

ADVANTAGES AND LIMITATIONS

Advantages:

  • Minimal influence from foam, vapor, and dust
  • High accuracy and reliability
  • Long measuring range (up to 70 m)
  • Withstands harsh process conditions

Limitations:

  • Proper antenna alignment and mounting are critical
  • Build-up on antenna surfaces may affect accuracy
  • Generally more expensive than ultrasonic methods

SELECTION CRITERIA

  • Tank height and geometry
  • Physical properties of the measured material
  • Process conditions (temperature, pressure, vapor, dust)
  • Communication protocol requirements
  • Desired measurement accuracy

APPLICATION AREAS

  • Chemical and petrochemical industries
  • Oil and gas storage tanks
  • Power plants
  • Food and beverage industry (hygienic design models)
  • Water and wastewater treatment plants

STANDARDS

  • IEC 61326 (electromagnetic compatibility)
  • ATEX & IECEx certifications (for explosive atmospheres)
  • EHEDG (hygienic design – food industry)

CONCLUSION

Radar level transmitters are among the most preferred measurement devices in modern industry due to their non-contact measurement capability, high accuracy, and robustness under challenging process conditions.

Ultrasonic Level Transmitters and Industrial Applications

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Ultrasonic level transmitters are non-contact measurement devices that use sound waves to determine the level of liquids and solids. They provide reliable measurement in tanks, silos, and open areas. Compared to radar, capacitive, or hydrostatic methods, they are often more cost-effective and easier to install, making them highly popular across industries.

Ultrasonic Level Transmitters

WORKING PRINCIPLE

The sensor emits ultrasonic pulses toward the material surface. The time taken for the waves to return is measured, and the distance is calculated to determine the level.

Basic formula: d = (c × t) / 2

Where:
d: distance (m)
c: speed of sound (343 m/s in air)
t: round-trip time (s)

The difference between tank height and this distance gives the material level.

STRUCTURAL FEATURES

  • Measuring range: 0.2 m – 70 m
  • Body materials: PVDF, stainless steel, PP
  • Output signals: 4-20 mA, HART, Modbus, Profibus
  • Protection class: IP67 – IP68
  • ATEX and IECEx certified models

ADVANTAGES AND LIMITATIONS

Advantages:

  • Non-contact measurement, no corrosion risk
  • Easy installation and minimal maintenance
  • Suitable for dusty and aggressive environments
  • Flexible for various tank geometries

Limitations:

  • Foam and vapor can affect measurement accuracy
  • Narrow tanks may cause reflection issues
  • Temperature fluctuations influence sound velocity

SELECTION CRITERIA

  • Tank height and geometry
  • Physical properties of the measured medium
  • Environmental conditions (temperature, pressure, humidity)
  • Communication protocols
  • Explosion-proof certifications (ATEX, IECEx)

APPLICATION AREAS

  • Water and wastewater treatment plants
  • Food and beverage industry
  • Chemical industry (corrosive liquid storage)
  • Cement and mining (solid storage silos)
  • Power plants (ash, coal, and liquid tanks)

STANDARDS

  • IEC 61010 (safety for measurement devices)
  • ATEX & IECEx certifications
  • NAMUR NE 107 (diagnostic status)

CONCLUSION

Ultrasonic level transmitters are widely used in industrial facilities due to their non-contact measurement advantages and durability. Proper selection and installation help reduce operating costs while increasing process reliability.