Disclosed herein is a header for a heat exchanger that has an inflow side, an outflow side, a bypass port therebetween, and a pressure-sensitive flapper valve proximal the bypass port. As pressure increases at the inflow side of the header, the flapper valve opens proportionally, and, as pressure de
Disclosed herein is a header for a heat exchanger that has an inflow side, an outflow side, a bypass port therebetween, and a pressure-sensitive flapper valve proximal the bypass port. As pressure increases at the inflow side of the header, the flapper valve opens proportionally, and, as pressure decreases at the inflow side, the flapper valve closes proportionally. The flapper valve is preferably included as part of a service cartridge assembly to facilitate easy repair and/or replacement of the flapper valve. In some embodiments of the invention, a differential pressure is measured between the inflow and outflow sides, and activation of the heat exchanger is initiated in response to the differential pressure having exceeded a set point.
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1. A header for a heat exchanger, comprising an inflow side having a circulation line inlet and an exchanger line outlet; an outflow side having an exchanger line inlet and a circulation line outlet; a bypass chamber configured for fluid communication with said inflow side and said outflow side; a f
1. A header for a heat exchanger, comprising an inflow side having a circulation line inlet and an exchanger line outlet; an outflow side having an exchanger line inlet and a circulation line outlet; a bypass chamber configured for fluid communication with said inflow side and said outflow side; a flapper valve positioned proximal said bypass chamber; said flapper valve, when oriented in a closed position, inhibiting fluid flow from said inflow side to said outflow side through said bypass chamber, and, when oriented in an at least partially open position, permitting fluid flow from said inflow side to said outflow side through said bypass chamber; a manifold at least partially defining said inflow side, said outflow side, and said bypass chamber; and a service cartridge assembly configured to be removably positioned within said manifold at said outflow side, said service cartridge assembly having a frame defining a chamber therein, and said frame having formed therein a first hole proximal said exchanger line outlet, a second hole proximal said circulation line outlet, and a third hole proximal said bypass chamber, and said flapper valve releasably secured to said frame at said third hole. 2. The header of claim 1, wherein said flapper valve includes a first flapper, a second flapper, and means for applying a rotational force to said first and second flappers into said closed position of said flapper valve, each of said first and second flappers, when said flapper valve is in said closed position, being angularly displaced from another of said first and second flappers by a first angular amount, and each of said first and second flappers, when said flapper valve is in said at least partially open position, being angularly displaced from another of said first and second flappers by a second angular amount greater than said first angular amount. 3. The header of claim 1, wherein said flapper valve is configured to be in said at least partially open position in response to a pressure drop across said exchanger line outlet and said exchanger line inlet. 4. The header of claim 1, including a plurality of circulation line adapters configured to channel fluid into said circulation line inlet from a fluid circulation line and to channel fluid out of said circulation line outlet to the fluid circulation line. 5. The header of claim 1, including a plurality of exchanger line adapters configured to channel fluid from said exchanger line inlet to a heat exchanger and to channel fluid out of the heat exchanger into said exchanger line outlet. 6. The header of claim 1, wherein said frame includes an annular lip defining therein said third hole, wherein said frame defines therein a plurality of shoulders proximal said annular lip opposite said chamber of said frame and a plurality of channels proximal said annular lip adjacent said chamber, said flapper valve including a plurality of protuberances received by said channels and a plurality of ends received by said shoulders to releasably secure said flapper valve to said frame. 7. The header of claim 1, including a lock ring configured to secure said service cartridge assembly within said manifold. 8. The header of claim 7, wherein said frame is configured to mate with said manifold so as to inhibit rotational motion of said frame. 9. A header for a heat exchanger, comprising an inflow side having a circulation line inlet and an exchanger line outlet; an outflow side having an exchanger line inlet and a circulation line outlet; a bypass chamber configured for fluid communication with said inflow side and said outflow side; a flapper valve positioned proximal said bypass chamber and having a removable flapper angularly displaceable amongst a plurality of positions; a manifold at least partially defining said inflow said, said outflow side, and said bypass chamber; and a service cartridge assembly configured to be removably positioned within said manifold at said outflow side, said service cartridge assembly having a frame defining a chamber therein, and said frame having formed therein a first hole proximal said exchanger line outlet, a second hole proximal said circulation line outlet, and a third hole proximal said bypass chamber, and said flapper valve releasably secured to said frame at said third hole; said flapper valve, when oriented in a closed position, inhibiting fluid flow from said inflow side to said outflow side through said bypass chamber, and, when oriented in an at least partially open position, permitting fluid flow from said inflow side to said outflow side through said bypass chamber; said flapper valve including a first flapper, a second flapper, and means for applying a rotational force to said first and second flappers into said closed position of said flapper valve, each of said first and second flappers, when said flapper valve is in said closed position, being angularly displaced from another of said first and second flappers by a first angular amount, and each of said first and second flappers, when said flapper valve is in said at least partially open position, being angularly displaced from another of said first and second flappers by a second angular amount greater than said first angular amount; said flapper valve configured to be in said at least partially open position in response to a pressure drop across said exchanger line outlet and said exchanger line inlet. 10. The header of claim 9, including a plurality of circulation line adapters configured to channel fluid into said circulation line inlet from a fluid circulation line and to channel fluid out of said circulation line outlet to the fluid circulation line. 11. The header of claim 9, including a plurality of exchanger line adapters configured to channel fluid from said exchanger line inlet to a heat exchanger and to channel fluid out of the heat exchanger into said exchanger line outlet. 12. The header of claim 9, wherein said frame includes an annular lip defining therein said third hole, wherein said frame defines therein a plurality of shoulders proximal said annular lip opposite said chamber of said frame and a plurality of channels proximal said annular lip adjacent said chamber, said flapper valve including a plurality of protuberances received by said channels and a plurality of ends received by said shoulders to releasably secure said flapper valve to said frame. 13. The header of claim 9, including a lock ring configured to secure said service cartridge assembly within said manifold. 14. The header of claim 13, wherein said frame is configured to mate with said manifold so as to inhibit rotational motion of said frame.
Denike, Stuart K.; McGonigle, G. Stephen; Sleeper, Robert D.; Dorste, Craig T.; Atkins, Don J.; Jira, Joseph J., Electromagnetic split flapper pressure relief valve.
Harter ; deceased Robert M. (late of Gowanda NY BY Patricia Harter ; executrix) Russo Gary L. (Gowanda NY), Valve assembly with plural flow path control.
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