P-TF20-I Tube in Tube Heat Exchanger | Double Tube Heat Exchanger
P-TF20-I Tubular Heat Exchanger Operation
The P-TF20-I Tubular Heat Exchanger is a Tube in Tube heat exchanger consisting of two concentric tubes. The product flows through the inner tube while the service flows through the space between the two tubes.
P-TF20-I Tubular Heat Exchanger Applications
Heating or cooling water for injection (WFI), purified water (PW), distilled water, products of biotechnology or pharmaceutical industry, such as glucose, emulsions, lotions and cosmetics, among others.
P-TF20-I Pharmaceutical Heat Exchanger Technical Data Sheet
Standard Design Conditions
Design Temperature: 180°C
Design Pressure: 10 barg
For higher design pressure or temperatures as well as hazardous fluids, the heat exchangers can be checked according to AD 2000 Merkblätt, ASME VIII Div.1, PD 5500, EN13445 or by Finite Elements Analysis and CE certificated by individual inspection modules.
Included: 3.1 Quality certificate and CE Marking according 2014/68/UE.
Shell: 52 mm – 204 mm
Inner tubes: ≥ 12 mm
Lenght: 1-1,5-2-3-6 m
Other dimmensions available on request.
Shell and tubes:
Stainless Steel 304 or 316L
Other materials available on request (2205, 2507, 254 SMO among others)
Other connections available under request..
Roughness product channel according to the specifications of each project (Ra ≤ 0.4, 0.5, 0.6 or 0.8 µm).
Electropolished on request.
Mineral wool coated in 304 stainless steel metal sheet.
In 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.
SACOME TYPE DEFINITION
Tube in tube
Non removable inner tube
Without / with expansion joint
Ø TUBE 2 (mm)
Ø TUBE 1 (mm)
Nominal lenght (mm)
Shell side material
Tube side material
Corrugation indicator (Hard/Soft/Plain)
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.
All productive processes can be classified according to how the raw material input stage is carried out, and how the product is subsequently obtained. These processes are basically divided into continuous processes and batch processes, although we can find variations combining features from both processes.
The starting point in the design of any heat exchange system is the definition of how the thermal properties evolve throughout the process, whether heating or cooling.