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A manifold for a fuel cell system, has a manifold body and a plurality of first ports in the manifold body, for connecting to fuel cell peripherals. A plurality of second ports in the manifold body provide connections to a fuel cell. A plurality of first fluid passages within the manifold provide co

A manifold for a fuel cell system, has a manifold body and a plurality of first ports in the manifold body, for connecting to fuel cell peripherals. A plurality of second ports in the manifold body provide connections to a fuel cell. A plurality of first fluid passages within the manifold provide communication between respective ones of the first ports and respective ones of the second ports, whereby, in use, the fluid passages communicate fluids between the fuel cell stack and fuel cell peripherals. The manifold provides a higher degree of system integration, considerably reduced piping, fittings and associated hardware and hence generally reduces the size and weight of the fuel cell system. Thermal-fluid related system losses are also minimized.

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1. A manifold for a fuel cell system, comprising:a manifold body a plurality of first ports in the manifold body, for connecting to fuel cell peripherals; a plurality of second ports in the manifold body, for connecting to a fuel cell; a plurality of first fluid passages within the manifold providin

1. A manifold for a fuel cell system, comprising:a manifold body a plurality of first ports in the manifold body, for connecting to fuel cell peripherals; a plurality of second ports in the manifold body, for connecting to a fuel cell; a plurality of first fluid passages within the manifold providing communication between respective ones of the first ports and respective ones of the second ports, whereby, in use, the fluid passages communicate fluids between the fuel cell stack and fuel cell peripherals; and a plurality of third ports and a plurality of second fluid passages within the manifold body in communication with the third ports and first fluid passages, and wherein said third ports and second fluid passages are adapted to accommodate monitoring devices to monitor fluid condition. 2. A manifold for a fuel cell system as claimed in claim 1, wherein the manifold body comprises a single plate.3. A manifold for a fuel cell system as claimed in claim 2, wherein the first ports and second ports are provided such that when the fuel cell and fuel cell peripherals are mounted onto the manifold, the first and second ports are adjacent inlets and outlets of fuel cell and fuel cell peripherals.4. A manifold for a fuel cell system as claimed in claim 3, wherein the manifold body comprises an anode inlet port, an anode outlet port, a cathode inlet port, a cathode outlet port, a coolant inlet port and a coolant outlet port, and wherein each of said ports is positioned corresponding to an anode inlet, an anode outlet, a cathode inlet, a cathode outlet, a coolant inlet and a coolant outlet of the fuel cell.5. A manifold for a fuel cell system as claimed in claim 4, wherein at least one of the anode inlet port and the cathode inlet port has a water separation chamber formed within the manifold body so that water in at least one of the reactant streams of the fuel cell is collected in the water separation chamber.6. A manifold for a fuel cell system as claimed in claim 5, wherein the manifold body further comprises a water drain passage formed within the manifold body providing communication between said water separation chamber and the exterior of the manifold body for directing water collected in the water separation chamber out of the manifold body.7. A manifold for a fuel cell system as claimed in claim 6, wherein at least one of the anode outlet port and cathode outlet port has a water drain passage formed within the manifold body for collecting water in the reactant stream passing through the corresponding outlet port, and for directing the water out of the manifold body.8. A manifold for a fuel cell system as claimed in claim 7, wherein the manifold further comprises a coolant passage formed within the manifold body and in communication with the coolant outlet port for directing coolant out of the manifold body.9. A manifold as claimed in claim 8, wherein the manifold further comprises a plurality of mounting holes for mounting the fuel cell and fuel cell peripherals.10. A manifold for a fuel cell system as claimed in claim 9, wherein sealing means are provided around the first, second and third ports.11. A manifold for a fuel cell system, comprising:a manifold body a plurality of first ports in the manifold body, for connecting to fuel cell peripherals; a plurality of second ports in the manifold body, for connecting to a fuel cell; a plurality of first fluid passages within the manifold providing communication between respective ones of the first ports and respective ones of the second ports, whereby, in use, the fluid passages communicate fluids between the fuel cell stack and fuel cell peripherals; wherein the manifold is integrally formed by one of casting and molding.12. A manifold for a fuel cell system as claimed in claim 11, wherein the manifold body is formed from a polymer.13. A manifold for a fuel cell system as claimed claim 12, wherein the fluid passages are formed using a method selected from the group comprising melting, etching and milling.14. A fuel cell system comprising a fuel cell, including:at least one fuel cell having a cathode inlet and a cathode outlet for an oxide, an anode inlet and an anode outlet for a fuel, and a coolant inlet and a coolant outlet; a manifold having first ports connected to the cathode inlet, the cathode outlet, the anode inlet, the anode outlet, the coolant inlet, and the coolant outlet of the fuel cell stack, a plurality of additional ports including at least an additional port for an oxidant inlet, an additional port for a fuel inlet, and coolant inlet and coolant outlet additional ports; and a plurality of peripheral devices connected to the additional ports of the manifold, including a first enthalpy shifting device, wherein the oxidant inlet is connected by the manifold through the first enthalpy shifting device to the cathode inlet of the fuel cell. 15. A fuel cell system as claimed in claim 14, wherein the manifold includes a first water separation chamber, and wherein manifold provides for oxidant to flow through the first enthalpy shifting device and the water separation chamber to the cathode inlet.16. A fuel cell system as claimed in claim 15, wherein the peripheral devices further include a second enthalpy shifting device, and wherein the fuel inlet is connected by the manifold through the second enthalpy shifting device to the anode inlet of the fuel cell, and wherein the manifold includes a fuel outlet port and a connection between the anode outlet and the fuel outlet port.17. A fuel cell system as claimed in claim 16, wherein the manifold comprises a second water separation chamber, and wherein manifold provides for fuel to flow through the second enthalpy shifting device and the water separation chamber to the anode inlet.18. A fuel cell system as claimed in claim 17, wherein the manifold provides a recirculation passage between the cathode outlet of the fuel cell and one of the first and second enthalpy shifting devices.19. A fuel cell system as claimed in any one of the claims 14 and 15 to 17, wherein the fuel cell comprises at least one fuel cell stack disposed between an end plate and the manifold.