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Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?

2026-07-16

Two Frosting Phases

Under low-temperature and high-humidity conditions, frosting on L-type finned tubes affects heat transfer efficiency in two phases:

Initial Phase: The frost layer is thin and uniform. Despite low thermal conductivity, the added thermal resistance is negligible. The slightly rough surface increases air-side turbulence and contact area, occasionally sustaining or slightly increasing efficiency temporarily.

Severe Phase: As operation continues, frost thickens and accumulates unevenly. Particularly with a narrow fin pitch, frost blocks the gaps, leading to a sharp increase in air-side pressure drop, reduced airflow, and a rapid decline in the heat transfer coefficient.

L-Type Advantages

Compared to straight fins, the structural design of L-type finned tubes offers distinct advantages under frosting conditions:

Shorter Thermal Path: The L-Type design maximizes the contact area between the fin root and the base tube, minimizing contact thermal resistance. This facilitates faster heat conduction to the outside and delays initial frost formation.

Easier Frost Shedding: The defined geometry of L-Type fins causes thicker frost layers to peel off easily under gravity or the shear force of the airflow, preventing continuous build-up.

Defrosting Guide

To maintain optimal heat transfer of L-Type finned tubes in cold storage, air coolers, and low-temperature HVAC systems, we recommend:

Regular Defrosting: Use hot gas defrosting or electric defrosting to remove accumulated frost timely.

Wider Fin Pitch: For frost-prone applications, select a larger fin spacing during the design stage to secure airflow and ensure long-term stability.

latest company news about Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?  0

latest company news about Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?  1

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Home > News >

Company news about-Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?

Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?

2026-07-16

Two Frosting Phases

Under low-temperature and high-humidity conditions, frosting on L-type finned tubes affects heat transfer efficiency in two phases:

Initial Phase: The frost layer is thin and uniform. Despite low thermal conductivity, the added thermal resistance is negligible. The slightly rough surface increases air-side turbulence and contact area, occasionally sustaining or slightly increasing efficiency temporarily.

Severe Phase: As operation continues, frost thickens and accumulates unevenly. Particularly with a narrow fin pitch, frost blocks the gaps, leading to a sharp increase in air-side pressure drop, reduced airflow, and a rapid decline in the heat transfer coefficient.

L-Type Advantages

Compared to straight fins, the structural design of L-type finned tubes offers distinct advantages under frosting conditions:

Shorter Thermal Path: The L-Type design maximizes the contact area between the fin root and the base tube, minimizing contact thermal resistance. This facilitates faster heat conduction to the outside and delays initial frost formation.

Easier Frost Shedding: The defined geometry of L-Type fins causes thicker frost layers to peel off easily under gravity or the shear force of the airflow, preventing continuous build-up.

Defrosting Guide

To maintain optimal heat transfer of L-Type finned tubes in cold storage, air coolers, and low-temperature HVAC systems, we recommend:

Regular Defrosting: Use hot gas defrosting or electric defrosting to remove accumulated frost timely.

Wider Fin Pitch: For frost-prone applications, select a larger fin spacing during the design stage to secure airflow and ensure long-term stability.

latest company news about Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?  0

latest company news about Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?  1

latest company news about Will Frosting on L-Type Finned Tubes in Low-Temp & High-Humidity Areas Affect Heat Transfer?  2