The compact Alfa Laval DuroShell plate-and-shell heat exchanger offers exceptional thermal performance and fatigue resistance. Designed for use with liquids, gases and two-phase mixtures at pressures up to 100 bar (1450 psi), in both PED and ASME, and at temperatures up to 450°C (842°F), DuroShell is suitable for a wide range of aggressive media.
Reliable, proven technology More than 350 units in operation worldwide. Packinox plate-and-frame heat exchangers offer superior heat transfer performance, and a single Packinox heat exchanger outperforms systems consisting of multiple large shell-and-tubes, both in terms of heat recovery and investment costs.
Heat Exchangers - TranterCompact, Efficient and Economical Heat Exchangers. Tranter heat exchangers share one thing in commonheat transfer through plates instead of tubes. Turbulent flow at low velocity produces high heat transfer efficiency and low fouling. The resultcompact units with small heat transfer areas compared to conventional shell and tube exchangers.
Heat Exchangers are available in many types of construction, each with its advantages and limitations. The main heat exchanger types are:Shell & Tube The most common heat exchanger design type consists of a parallel arrangement of tubes in a shell [Figure 1]. One fluid flows through the tubes and the other fluid flows through the shell over the tubes.
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How do you calculate the efficiency of a plate heat exchanger?Nov 02, 2020 · Plate heat exchangers are efficient heat recovery units used in a range of commercial, industrial and residential settings. By extracting sensible energy from exhaust air, and using it to cool or heat incoming air, a plate heat exchanger can make a dramatic difference to a buildings energy costs and environmental impact.
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