Bypass Valve controls excess flow in hydronic systems.

Press Release Summary:



Designed for systems where heating loads may be excluded from circuit as zone valves close, Differential Bypass Valve helps minimize velocity noise caused by excess flow through circuits while maintaining pump head at constant valve. Unit features all brass body with non-ferrous internals and ¾ in. connection. Installed horizontally or vertically, valve has max working pressure of 150 psig and max operating temperature of 230°F.



Original Press Release:



Bell & Gossett Unveils New DB-Differential Bypass Valve



Morton Grove, Illinois - December 20, 2006 - An innovative new Differential Bypass (DB) Valve designed to control excess flow in hydronic systems has been introduced by Bell & Gossett.

When there is a reduction in demand, the new valve acts as a bypass while ensuring adequate flow to the remaining open circuits. Designed to be used in systems where heating loads may be excluded from the circuit as zone valves close, the differential bypass valve also helps reduce velocity noise caused by excess flow through the circuits while maintaining the pump head at a constant valve.

Developed for hydronic systems utilizing zone valves, the new valve offers the following features:
o 3/4" connection
o All brass body with non-ferrous internals
o Horizontal or vertical installation
o Maximum working pressure 150 PSIG
o Maximum operating temperature 230 degrees Fahrenheit (110 degrees Celsius)

For more information, visit www.bellgossett.com.

About Bell & Gossett
Bell & Gossett, a unit of ITT Corporation, is a leading manufacturer of centrifugal pumps, hydronic specialties, heat exchangers, condensate handling equipment, and packaged systems for variable and constant speed pumping, heat transfer and pressure boosting. For more information contact Bell & Gossett: 8200 N. Austin Avenue, Morton Grove, IL 60053; phone 847/966-3700; fax 847/966-9052; or visit www.bellgossett.com.

Press Contact
Bob Rathke
Manager, Advertising & Public Relations

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