Let us study the heat transfer between hot water that circulates through an internal tube and cold water that flows through the annular zone between the internal and the external tube.
TIFTB Turbulent Flow Heat Exchanger for TICB
INNOVATIVE SYSTEMS
Let us study the heat transfer between hot water that circulates through an internal tube and cold water that flows through the annular zone between the internal and the external tube.
General Description
Exercises and guided practices
GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL
- Global energy balance in the heat exchanger and losses study.
- Determination of the exchanger effectiveness. NTU Method.
- Study of the heat transfer in counter-current and co-current flow conditions.
- Flow influence on heat transfer. Reynolds number calculation.
- Obtaining of the correlation that relates Nusselt number with Reynolds number and Prandtl number.
- Obtaining of the heat transfer coefficients by convection.
SIMILAR UNITS AVAILABLE
Plate Heat Exchanger for TICB
Shell & Tube Heat Exchanger for TICB
Jacketed Vessel Heat Exchanger for TICB
Coil Vessel Heat Exchanger for TICB
Extended Concentric Tube Heat Exchanger for TICB
Extended Plate Heat Exchanger for TICB
Cross Flow Heat Exchanger for TICB
SUPPLEMENTARY EQUIPMENT
Computer Controlled Heat Exchangers Training System
Base Service Unit (Common for all available Heat Exchangers type "TI")
Concentric Tube Heat Exchanger for TICC
Extended Concentric Tube Heat Exchanger for TICC
Plate Heat Exchanger for TICC
Extended Plate Heat Exchanger for TICC
Shell & Tube Heat Exchanger for TICC
Jacketed Vessel Heat Exchanger for TICC
Coil Vessel Heat Exchanger for TICC
Turbulent Flow Heat Exchanger for TICC
Cross Flow Heat Exchanger for TICC
Heat exchanger Training System
Quality

AFTER-SALES SERVICE
