Double wall tube bolted flange fitting

The invention claimed is: 1. A flange fitting for attaching to double wall tubes, the fitting comprising: a fitting center port extending through the fitting for passing a primary fluid flow; a plurality of flange fitting mounts spaced radially away from the center port for receiving fasteners; an inner seal surface and an outer seal surface that are predominantly flat; a connection surface on a side of the fitting opposing the inner and outer seal surfaces, the connection surface comprising: an inner sleeve connection protruding from the connection surface surrounding the center port for receiving an inner tube; and an outer connection protruding from the connection surface surrounding the inner sleeve connection for receiving an outer tube; a plurality of fluid communication ports for passing a secondary fluid flow, wherein the fluid communication ports extend through the flange fitting from between the inner and outer seal surfaces to the connection surface between the inner sleeve connection and the outer connection; and a circumferential groove between the inner and outer seal surfaces and radially outboard of the outer connection, wherein the fluid communication ports extend at an angle through the fitting from the groove to a portion of the connection surface located between the inner sleeve connection and the outer connection. 2. The flange fitting of claim 1 , wherein there are eight fluid communication ports. 3. The flange fitting of claim 1 , wherein the fitting is formed of a single piece. 4. The flange fitting of claim 1 , wherein the fitting mounts are slots. 5. The flange fitting of claim 1 , wherein the fitting material is one of a titanium alloy, stainless steel alloy, or nickel alloy. 6. A flange fitting assembly for attaching to and connecting double wall tubes, the fitting assembly comprising: a first flange fitting and a second flange fitting for connecting to first and second double wall tubes, respectively, and to each other, each flange fitting comprising: a fitting center port extending through the fitting for passing a primary fluid flow; a plurality of fitting mounts spaced radially away from the center port for receiving fasteners; an inner seal surface and an outer seal surface that are predominantly flat; a connection surface on a side of the flange fitting opposing the inner and outer seal surfaces, the connection surface comprising: an inner sleeve connection protruding from the connection surface surrounding the center port for receiving an inner tube; and an outer connection protruding from the connection surface surrounding the inner sleeve connection for receiving an outer tube; and a plurality of fluid communication ports for passing a secondary fluid flow, wherein the fluid communication ports extend through the flange fitting from between the inner and outer seal surfaces to the connection surface between the inner sleeve connection and the outer connection; and a seal plate for mounting between the first flange fitting and second flange fitting, the seal plate comprising: a plate center port having an axis that is in alignment with a center axis of the fitting center port; a plurality of plate mounts for receiving fasteners, wherein the plate mounts are spaced radially away from the plate center port; a first side and a second side, wherein the first and second sides are identical, each side of the seal plate comprising: an inner seal circumscribing the plate center port; and an outer seal located radially between the plate mounts and the inner seal; and a plurality of slots extending through the seal plate, located between the inner and outer seal of each side for passing a secondary fluid flow between the fluid communication ports of the first and second fittings. 7. The flange fitting assembly of claim 6 , wherein the first flange fitting and the second flange fitting each comprise a circumferential groove between the inner and outer seal surfaces, and wherein the fluid communication ports extend through the flange fitting the groove to a portion of the connection surface located between the inner sleeve connection and the outer connection. 8. The assembly of claim 6 , wherein the first and second flange fittings are each formed of a single piece. 9. The assembly of claim 6 , wherein the plurality of slots of the seal plate are configured to allow fluid to pass between the fluid communication ports of the first and second flange fittings without aligning the fluid communication ports of the first and second flange fitting. 10. The assembly of claim 6 , wherein a diameter of the plate center port is larger than a diameter of the fitting center ports of the first and second flange fittings. 11. The assembly of claim 6 , wherein each side of the seal plate has an annular groove for securing the inner seal, and wherein each side of the seal plate has an annular groove for securing the outer seal. 12. The assembly of claim 11 , wherein the inner and outer seal expand to fill their grooves when the fittings are mated to the seal plate and apply pressure compressing the inner and outer seals. 13. The assembly of claim 11 , wherein the inner and outer seals are vulcanized. 14. The assembly of claim 6 , wherein the seal plate has four slots. 15. The assembly of claim 6 , wherein the secondary fluid flow is a fluid at an ambient pressure and the primary fluid flow is another fluid at an operational pressure.