KLINGER offers a range of thermodynamic steam traps designed for efficient condensate removal in steam systems, particularly in high-pressure applications. These traps operate based on the principle of differential velocities between steam and condensate, ensuring effective discharge and preventing water hammer.
🔧 Key Specifications
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Models Available:
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PT-55 / PT-60: Suitable for pressures up to 42 bar and temperatures up to 450°C. Available in sizes ½", ¾", and 1", with options for BSPT, NPT, socket weld, and flanged connections.
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DTF.2P: A compact design ideal for smaller installations.
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UTD 120: Designed for high-pressure applications up to 51 bar and temperatures up to 425°C. Constructed from forged alloy steel (ASTM A182 Gr. F22), suitable for superheated steam lines.
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UTD 51R: Features an integral flange and replaceable seat, facilitating inline maintenance.
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Materials of Construction:
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Stainless steel AISI 420 for components like the cap, body, and disc.
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Hardened seat for extended service life.
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Optional insulating covers for superheated steam applications.
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Operating Conditions:
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Maximum Pressure: Up to 51 bar (depending on model).
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Maximum Temperature: Up to 450°C.
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Minimum Operating Pressure: Typically 4 psi (0.28 bar).
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Back Pressure: Maximum 80% of the operating pressure.
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🛠️ Applications
KLINGER thermodynamic steam traps are ideal for:
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Drip Lines: Efficient removal of condensate from main steam distribution lines.
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Superheated Steam Systems: Suitable for applications requiring high-temperature operation.
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Power Plants: Designed to handle high-pressure conditions effectively.
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Industrial Processes: Applicable in various industries requiring reliable condensate drainage.
🔄 Maintenance Features
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Universal Connector: Some models come with a built-in universal connector, allowing for trap removal without disrupting the pipeline.
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Replaceable Seat Arrangement: Certain models feature a replaceable seat, facilitating easier maintenance and extending the trap's service life.
