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SUPERMAX
- Shell And Plate Heat Exchanger
The SUPERMAX® Shell And Plate Heat Exchanger is designed as a performance upgrade over shell and tube, block-type welded and brazed aluminum heat exchangers. The unit can overcome footprint onstraints, extreme pressures/temperatures, ouling/scaling conditions and corrosive attack with liquids, gases, steam and two-phase mixtures.
REDUCED FOOTPRINT
Promotes maximum heat transfer; induces scouring action that fights fouling or scaling.
WIDE TEMPERATURE / PRESSURE RATINGS
Good performance with natural refrigerants such as ammonia and carbon dioxide.
EXCELLENT THERMAL PERFORMANCE
Close temperature approach of 1ºC (2°F) –similar to that of gasketed plate heat exchangers.
OUTSTANDING UPTIME
Highly turbulent flow produces high heat transfer efficiency and limits fouling, or freezing in refrigeration/cryogenic service
SMALL HOLD-UP VOLUME
Fast start-ups and close following of process changes; low refrigerant charges for refrigeration and cryogenic service
TWO-PHASE FLUID FLEXIBILITY
Extended-thermal-length oblong plates expand capabilities to wide-ranging evaporation and condensing applications
RELATED SHELL AND PLATE APPLICATIONS
- Particulate-laden flows: Turbulent flow, even at low velocities, enables stable capacity regulation and minimizes fouling.
- Refrigeration and cryogenic service: the exchangers require a low refrigerant charge; are also resistant to freezing because of high fluid turbulence.
- Internal phase changes on either the plate or shell side.
- Large flow imbalance: Allow higher flow rates on the shell side.
- Installation factors: Can be installed horizontally or vertically.
RELATED SHELL AND PLATE SERVICES
- Standard and deep-draw plates enable accommodation of flow rate and pressure drop constraints. Oblong plates enable configuration to attain necessary thermal length.
- Removable Core exchanger provides full accessibility to the thermal element for inspection and/or mechanical cleaning of the shell side channel by removing the plate pack bundle.
- The Multi-Duty exchanger has two separate plate packs that share one shell, handling different or identical fluids.
- Multi-Pass configurations for gas or vapor cooling without condensing.
- Co-current or counter-current plate groupings.
HOW THE SUPERMAX SHELL AND PLATE HEAT EXCHANGER WORKS
- The shell and plate welded heat exchanger has a heat transfer element composed of round or oblong chevron-type plates welded into a cassette by a porthole perimeter weld.
- Cassettes are placed together and welded to each other using a perimeter weld The thermal element subassembly then has metal shell-side flow diverters, nozzles and an end plate welded to it.
- An exclusive cage structure, welded only to the end cover, surrounds and supports the plate core pack assembly.
- The finished exchanger is a pressure vessel of high integrity, with an accordion-like core that is highly tolerant of thermal expansion.
HOW THE SUPERMAX SHELL AND PLATE HEAT EXCHANGER WORKS
Model | Required Surface Area, m2 (ft2) | Footprint Area, m2 (ft2) | Dry Weight, kg (lb) |
---|---|---|---|
TEMA Shell And Tube | 203 (2,187) | 9 (100) | 6,350 (14,000) |
SUPERMAX Shell And Plate (SPW-55) | 56 (600) * | 0.7 (8) | 726 (1,600) |
* Common HVAC water–water application—10°F approach.