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A seal assembly for a regenerative heat exchanger can include a primary sealing member with a mounting base and a flexible contact portion that defines a first distance between a proximal edge of the mounting base and a contact edge of the flexible contact portion, the first distance being generally

A seal assembly for a regenerative heat exchanger can include a primary sealing member with a mounting base and a flexible contact portion that defines a first distance between a proximal edge of the mounting base and a contact edge of the flexible contact portion, the first distance being generally constant along the length of the primary sealing member. The seal assembly can also include a second member with a mounting portion and a cantilevered portion that defines a second distance between a proximal edge of the mounting portion and a distal edge of the cantilevered portion, the second distance being generally constant along the length of the second member. The first distance is greater than the second distance by a predetermined amount so as to limit the preload flexure of the flexible contact portion against a sector plate of the heat exchanger when the seal assembly is installed in the regenerative heat exchanger.

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1. A seal assembly for use in a regenerative heat exchanger having a housing and a heat exchanging body disposed within the housing, one or both of the heat exchanging body and housing configured to rotate about an axis, the seal assembly configured to contact the housing during operation of the reg

1. A seal assembly for use in a regenerative heat exchanger having a housing and a heat exchanging body disposed within the housing, one or both of the heat exchanging body and housing configured to rotate about an axis, the seal assembly configured to contact the housing during operation of the regenerative heat exchanger to substantially seal a hot gas conduit from a cold air conduit, the seal assembly comprising: a primary sealing member comprising a mounting base and a flexible portion with a contact edge at a distal end of the sealing member, the contact edge configured to resiliently contact a sector plate of the housing when the primary sealing member is mounted to the heat exchanging body via the mounting base, the primary sealing member defining a first distance between a proximalmost edge of the mounting base and the contact edge, the first distance being generally constant along the length of the primary sealing member;a second member comprising a mounting portion and a cantilevered portion with a front face configured to face airflow and gas flow during operation of the regenerative heat exchanger and a generally concave rear face that faces the flexible portion of the primary sealing member, the cantilevered portion extending from a proximal end to a distal end on one side of a vertical plane defined by the mounting portion and having a first portion that extends outward away from the plane of the mounting portion, a second portion that extends along a plane offset from and parallel to the plane of the mounting portion, and a third portion that extends toward the plane of the mounting portion, the second member defining a gap of between 0.1 inches and 1 inch between at least the second portion and the primary sealing member when the primary sealing member is unflexed such that said second portion and primary sealing member do not contact or engage each other, the second member defining a second distance between a proximalmost edge of the mounting portion and a distalmost edge of the cantilevered portion, the second distance being generally constant along the length of the second member, the mounting portion overlapping with the mounting base such that the mounting portion and mounting base are generally coextensive;wherein the first distance is greater than the second distance by a predetermined amount so as to limit the flexure of the flexible portion against the sector plate below a predetermined flexure amount when the seal assembly is installed in the regenerative heat exchanger. 2. The seal assembly of claim 1, wherein the second member is an auxiliary sealing member, the cantilevered portion configured to substantially seal the hot gas conduit from the cold air conduit during operation of the regenerative heat exchanger. 3. The seal assembly of claim 2, wherein the distalmost edge of the cantilevered portion is disposed a predetermined distance from the sector plate of the housing to substantially seal the hot gas conduit from the cold air conduit. 4. The seal assembly of claim 1, wherein at least a distal section of the flexible portion extends at an angle relative to the mounting base. 5. The seal assembly of claim 4, wherein at least a distal portion of the cantilevered portion extends at said angle relative to the mounting portion. 6. The seal assembly of claim 1, wherein the predetermined amount is about ¼ inch. 7. The seal assembly of claim 1, further comprising: a curvilinear support comprising a mounting section and a curved extended portion, the mounting section overlapping with the mounting base and mounting portion such that the mounting section is generally coextensive with the mounting base and mounting portion, the mounting base disposed between the mounting section and the mounting portion,wherein the curved extended portion has a predetermined curvature that defines a gap between the curvilinear support and the primary sealing member, the curved extended portion configured to contact the flexible portion of the primary sealing member as the primary sealing member flexes during operation of the regenerative heat exchanger thereby decreasing a size of said gap between the primary sealing member and the curvilinear support, the curved portion configured to move a flex point of the flexible portion toward the contact edge of the flexible portion as the flexure of the flexible portion increases, thereby increasing a spring constant of the flexible portion with the increased flexure thereof. 8. The seal assembly of claim 7, wherein the curved extended portion is configured to reduce a force generated by a static pressure of gas acting on the flexible portion, as the flexure of the flexible portion increases during operation of the regenerative heat exchanger. 9. The seal assembly of claim 1, wherein the primary sealing member is monolithic. 10. A seal assembly for use in a regenerative heat exchanger having a housing and a heat exchanging body disposed within the housing, one or both of the heat exchanging body and housing configured to rotate about an axis, the seal assembly configured to contact the housing during operation of the regenerative heat exchanger to substantially seal a hot gas conduit from a cold air conduit, the seal assembly comprising: a primary sealing member comprising a mounting base and a flexible portion with a contact edge at a distal end of the primary sealing member, the contact edge configured to resiliently contact a sector plate of the housing when the primary sealing member is mounted to the heat exchanging body via the mounting base, the primary sealing member defining a first distance between a proximalmost edge of the mounting base and the contact edge, the first distance being generally constant along the length of the primary sealing member;an auxiliary sealing member comprising a mounting portion and a cantilevered portion with a front face configured to face airflow and gas flow during operation of the regenerative heat exchanger and a rear face that faces the flexible portion of the primary sealing member, the cantilevered portion extending from a proximal end to a distal end on one side of a vertical plane defined by the mounting portion and having a first portion that extends outward away from the plane of the mounting portion, a second portion that extends along a plane offset from and parallel to the plane of the mounting portion such that a gap of between 0.1 inches and 1 inch is defined between at least the second portion and the primary sealing member when the primary sealing member is unflexed such that said second portion and primary sealing member do not contact or engage each other, and a third portion that extends toward the plane of the mounting portion, the second member defining a second distance between a proximalmost edge of the mounting portion and a distalmost edge of the cantilevered portion, the second distance being generally constant along the length of the second member, the mounting portion overlapping with the mounting base such that the mounting portion and mounting base are generally coextensive;wherein the first distance is greater than the second distance by a predetermined amount of between about 0.1 inches and about 3 inches so as to limit the flexure of the flexible portion against the sector plate below a predetermined flexure amount when the seal assembly is installed in the regenerative heat exchanger. 11. The seal assembly of claim 10, wherein at least a distal section of the flexible portion extends at an angle relative to the mounting base. 12. The seal assembly of claim 11, wherein at least a distal portion of the cantilevered portion extends at said angle relative to the mounting portion. 13. The seal assembly of claim 10, wherein the predetermined amount is about ¼ inch. 14. The seal assembly of claim 10, further comprising: a curvilinear support comprising a mounting section and a curved extended portion, the mounting section overlapping with the mounting base and mounting portion such that the mounting section is generally coextensive with the mounting base and mounting portion, the mounting base disposed between the mounting section and the mounting portion,wherein the curved extended portion has a predetermined curvature that defines a gap between the curvilinear support and the primary sealing member, the curved extended portion configured to contact the flexible portion of the primary sealing member as the primary sealing member flexes during operation of the regenerative heat exchanger thereby decreasing a size of said gap between the primary sealing member and the curvilinear support, the curved portion configured to move a flex point of the flexible portion toward the contact edge of the flexible portion as the flexure of the flexible portion increases, thereby increasing a spring constant of the flexible portion with the increased flexure thereof. 15. The seal assembly of claim 14, wherein the curved extended portion is configured to reduce a force generated by a static pressure of gas acting on the flexible portion, as the flexure of the flexible portion increases during operation of the regenerative heat exchanger. 16. The seal assembly of claim 10, wherein the primary sealing member is monolithic. 17. The seal assembly of claim 10, wherein the rear face has a generally concave shape.