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Sample Cooler

Product Category:
Main Uses of The Product:

  • Safe cooling of hot steam and liquid samples

  • Use in analytical units and process laboratories

  • Controlling sample temperature before entering measuring instruments

  • Applied in oil, gas, petrochemical, and power generation industries

  • Monitoring the quality of process fluids in production lines

  • Protecting sampling equipment and instrumentation from high temperatures

  • Used in shell-and-tube heat exchanger systems

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Sample Cooler

Sample Cooler is one of the essential devices used in industrial sampling processes, designed for the
reduction of temperature of steam or liquid samples before analytical testing.
This equipment is typically used in the oil, gas, petrochemical industries, and power plants, and functions as a
shell-and-tube heat exchanger.

How the Sample Cooler Works

Sample coolers receive hot samples from the process and reduce their temperature to a safe level by using a
cooling water flow. This ensures that the sample is ready for testing without altering its chemical composition.
As the sample passes through the internal tubes, it transfers its heat to the cooling water and then exits through the outlet of the device.

Features of the Sample Cooler

  • Reduces sample temperature to a safe level for analytical testing.
  • High resistance to pressure and temperature, commonly made from stainless steel or carbon steel.
  • Prevents alteration of sample composition through controlled and gradual cooling.
  • Can be installed in vertical or horizontal pipelines depending on process requirements.
  • Enhances sampling safety by reducing risks associated with high temperatures.
  • Compact and space-efficient design for easy installation in industrial environments.
  • Counter-current flow design for improved cooling efficiency.

Applications of the Sample Cooler

  • Oil, gas, and petrochemical industries – Sampling of process steam and liquids.
  • Power plants – Monitoring boiler water and steam quality.
  • Industrial laboratories – Preparing samples for accurate analysis.
  • Chemical and pharmaceutical industries – Quality control of production processes.

Sample Cooler Design Standards

Sample coolers are typically designed and manufactured based on international standards such as
ASME Section VIII, BS 5500, and TEMA.
These standards ensure that the device has sufficient resistance to pressure and temperature and offers safe, reliable performance.

Engineering Capability and Domestic Manufacturing

In addition to importing reputable global brands,
Awring Maad Sanat has also developed the technical expertise to design and manufacture Sample Coolers locally.
The company is capable of designing, manufacturing, and supplying
sampling equipment tailored to customer requirements and process specifications.
This engineering approach has led to reduced procurement costs, increased flexibility in selecting technical specifications, and improved support for domestic industries.

  • Safe Cooling of Process Samples:
    Designed to reduce the temperature of hot vapor or liquid samples to levels suitable for analytical instruments, without altering the chemical composition of the sample.

  • Shell-and-Tube Heat Exchanger Operation:
    Efficient heat transfer from the sample fluid to the cooling water through an internal coil, providing high thermal efficiency with controlled pressure drop.

  • Pressure- and Temperature-Resistant Construction:
    Housing made of stainless steel or carbon steel, suitable for harsh operating conditions in oil, gas, petrochemical, and power generation industries.

  • Accurate and Stable Sampling:
    Preserves the physical and chemical properties of the sample during cooling, making it suitable for sensitive laboratory analyses.

  • Optimized Design for Complete Drainage:
    Top inlet and bottom outlet configuration prevents fluid accumulation and facilitates complete draining after sampling.

  • Easy and Cost-Effective Maintenance:
    Allows cleaning or replacement of internal components without prolonged process shutdowns or special tools.

  • Compliance with International Standards:
    Designed in accordance with ASME, API, and DIN standards to ensure safe and reliable performance.

  • Customizable Configuration:
    Cooling capacity, body material, connection type, and dimensions can be selected based on project requirements and process conditions.

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