Plate Heat Exchangers Design
Required Parameters
The main parameters for a plate heat exchanger design include total thermal load, inlet and outlet temperatures of hot side, inlet and outlet temperatures of cold side, flow rates of hot and cold sides. The 5 out of 7 parameters are necessary to make the calculation design, and at least 2 parameters at least of each side ( hot or cold ) are necessary to make the design.
Pressure Loss
The other influential parameter of a plate heat exchanger design is pressure loss. The number of pressure loss results in the selection of plate pattern/ model and plate quantity/ how many pieces. In addition, the thickness of frame plates are impacted by the actual operation pressure of the equipment.
Plate Heat Exchanger Design Procedures:
1.Calculate duty, the rate of heat transfer required.
2.If the specification is incomplete, determine the unknown fluid temperature or fluid flow rate from a heat balance.
3.Calculate the log mean temperature difference, ΔTlm.
4.Determine the log mean temperature correction factor, Ft.
5.Calculate the corrected mean temperature difference ΔTm = Ft x ΔTlm.
6.Estimate the overall heat transfer coefficient.
7.Calculate the surface area required.
8.Determined the number of plates required = total surface area/area of one plate.
9.Decide the flow arrangement and number of passes.
10.Calculate the film heat transfer coefficients for each stream.
11.Calculate the overall coefficient, allowing for fouling factors.
12.Compared the calculated with the assumed overall coefficient. If satisfactory, say -10% to +10% error, proceed. If unsatisfactory, return to step 8 and increase or decrease the number of plates.
13.Check the pressure drop for each stream.
Gasket Material Selection:
The media property and temperature directly lead to different selections of rubber seals. For example, if the medium is vapor, normally the gasket material is EPDM while for oil the material is NBR instead. Gasket material differs in those two media is because of the gasket swelling problem, happened when EPDM is contacted with oil. And gasket swelling is the most common cause of plate heat exchanger leakage.
Plate Material Selection:
The media corrosion leads to different metal choice of a PHE’s plates. The most common plate material is stainless steel, AISI304 or AISI316. The wrong choice will lead to premature plate crack or corrosive holes.
Standards:
ASME/CE/GB are the most common standards for plate heat exchangers.