Superhitec Turbofin® — Louvred fins
We always pay attention to less energy consumption, reduction of frost generated and a higher heat transfer coefficient.
Superhitec Turbofin® — Louvred fins
Designed by LUVE to maximize the performance
Bullet Proof Design
The optimized fin design prevents the carvings from getting clogged by frost.
“Technical and experimentalstudy of the influence of frost formation on unit cooler’s performance”.
Master thesis at Polythecnic University of Milan, 1995
Less is MORE
Less Dehumidification
The CFD analysis performed by LUVE shows that the average surface temperature is higher in case of louvered fins (right) compared to continuous fins (left). This happens thanks to the increased heat exchange coefficient.
Less Running Costs
The significant increase of the overall air/fin heat exchange coefficient (U) results in a reduced size of the heat exchenger surface necessary to achieve a given capacity.
- Compact cooler
- Low refrigerant charge
Capacity = U*A *ДТ
Less Investment Costs
During the cooling cycle, less frost formation means that less power is required from the fan.
During the defrost cycle, less frost formation means that less energy consumption is required from defrost heaters.
- Up to 40% less frost generated
- Less energy consumption
Sustainable Solution
LUVE commercial evaporators combine louvered fins with a small tube diameter, giving the perfect match for the use with A2L or A3 refrigerants. Thanks to the high heat transfer coefficient, the coil design results very compact, minimizing consequently the refrigerant charge.
- Less energy consumption
- Less refrigernat charge