I-TFM-I Shell and Tube Heat Exchanger | Industrial Heat Exchanger
I-TFM-I Tubular Heat Exchanger Operation
The I-TFM-I heat exchanger is a tubular heat exchanger with a tube bundle within a shell. The product flows by the inner tubes while the service do it by the external channel.
I-TFM-I Industrial Heat Exchanger Applications
The industrial heat exchanger I-TFM-I is intended for processes of heating, evaporation, condensation or cooling of products such as oils, effluents, sewage, asphalts, hydrocarbons, biogas, exhaust gases, biodiesel, methanol and others.
I-TFM-I Tubular Heat Exchanger Technical Data Sheet
Standard Design Conditions
Design Temperature: 180°C
Design Pressure: 10 barg
For higher design pressures or temperatures as well as hazardous fluids, the heat exchangers can be checked according to AD 2000 Merkblätt, ASME VIII Div.1, PD 5500, EN 13445 or by Finite Elements Analysis and CE certificated by individual inspection modules.
Included: CE Marking according to 2014/68/UE.
Shell: 60,3 mm – 1.500 mm
Inner tubes: ≥ 10 mm
Lenght: 1-1,5-2-3-6 m
Other available sizes under request.
Shell and tubes:
Stainless Steel 304 or 316L
Other materials available on request (2205, 2507, 254 SMO among others)
Other connections available on request.
Mineral wool coated in 304 stainless steel metal sheet.
Stainless Steel 304
The type and shape of the frame will be selected to fit the needs of each project. If required, equipment may be sloping for better drainage.
In case the equipment contains several units in series, SACOME can provide the interconnections for the product channel and the service channel. This model is specially designed to get compact frames.
SACOME TYPE DEFINITION
Number of inner tubes
Non removable tube bundle
Without / With expansion joint
Ø Shell (mm)
Ø Inner tube (mm)
Nominal lenght (mm)
Shell side material
Tube side material
Corrugation indicator (Hard/Soft/Plain)
The importance of rheology in the design of any processing plant is crucial since the sizing of many of the elements composing it is very dependent on this “resistance”, also taking special relevance with food products: heat exchangers, pipes, valves, pumps, mixers, etc.
To design a heat exchanger it is necessary to have certain data, such as the process flow rate, the temperature and the physical properties of products.
Hairpin heat exchangers have a more efficient and economical design compared to a multiple pass heat exchanger when the process requires a temperature crossing between the cold and hot fluid.
Engineering, Design and Manufacturing of Tubular Heat Exchangers
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