Fuel filter assembly

The invention claimed is: 1. A fuel filter comprising a manifold, a connector element, a filter bowl, a filter element, an inlet shutoff valve, an outlet shutoff valve, an inlet port, an inlet passage, an outlet port, an outlet passage and a relief valve in which the connector element is fixed to the manifold, and the filter bowl is reversibly fixed to the connector element, wherein: the filter bowl is adapted to reversibly receive the filter element and is so configured that when the filter element is located within the filter bowl and the filter bowl attached to the connector element, the filter element divides a space defined by the connector element and filter bowl into an inlet filter chamber and an outlet filter chamber; the inlet port is incorporated in the manifold, and the inlet port and inlet filter chamber are in fluid communication via the inlet passage, the outlet port is incorporated in the manifold and the outlet port and outlet filter chamber are in fluid communication via the outlet passage; the inlet shutoff valve is located in the inlet passage and is biased by an inlet shutoff valve biasing means into a closed configuration which prevents fuel flowing along the inlet passage when the filter bowl is not connected to the connector element; connection of the filter bowl to the connector element causes the inlet shutoff valve to be impelled into an open configuration which allows fuel to flow along the inlet passage; the outlet shutoff valve is located in the outlet passage and is biased by an outlet shutoff valve biasing means into a closed configuration which prevents fuel flowing along the outlet passage; the outlet shutoff valve is configured to move into an open configuration which allows fuel to flow along the outlet passage when fuel immediately upstream of the outlet shutoff valve reaches a predetermined pressure; the relief valve is located between the inlet and outlet passages and is biased by a relief valve biasing means into a closed configuration so that fuel flowing between the inlet passage and outlet passage has to pass through the filter element; and movement of the relief valve into an open configuration allows fuel to flow between the inlet passage and the outlet passage via the relief valve without the fuel passing through the filter element; a second inlet chamber is defined by one or both of the manifold and the connector element and has a first and a second end wall and one or more side walls extending between the end walls; the second inlet chamber has a cross section in a plane parallel to the second end wall that is the same at all positions between the first and second end walls; one or both of the manifold and/or the connector element also define first and second inlet chamber apertures the first inlet chamber aperture is a mouth of a portion of the inlet passage extending from the inlet port, the second inlet chamber aperture passes through the second end wall, and at least one sliding seal means extends around an edge or an inner face of the second inlet chamber aperture, the inlet shutoff valve comprises a longitudinally extending conduit element, the conduit element is configured to extend through the second inlet chamber aperture in a sliding engagement with the sliding seal means, the conduit element comprises a first flanged end, a second end, and one or more side walls, the conduit element has a longitudinal axis, the first flanged end of the conduit element is closed, the first flanged end comprises a flange element which extends laterally relative to the longitudinal axis of the conduit element from the first flanged end of the conduit element and has an outer edge spaced from the conduit element which is in sliding contact with the or each side wall of the second inlet chamber, the flange element defines at least one aperture passing through the flange, at least one side wall of the conduit element defines at least one first fuel aperture passing through the side wall at a position adjacent to or close to the first end, the conduit element is biased by the inlet shutoff valve biasing means to move to a position where the flange element of the conduit element is impelled against the second end wall of the second inlet chamber, and a seal means adapted to seal each of the flange apertures when the flange element of the conduit element is impelled against the second end wall of the second inlet chamber is attached to one or both of a face of the flange element facing the second end wall of the second inlet chamber and the face of the second end wall of the second inlet chamber facing the flange element. 2. The fuel filter according to claim 1 , wherein: the conduit element further comprises one or more second fuel apertures which are defined by one or more of the side walls of the conduit element, the one or more second fuel apertures are longitudinally located between the one or more first fuel apertures and the second end of the conduit element, and the conduit element is dimensioned and configured so that when the filter bowl is fully attached to the connector element the second end of the conduit element abuts a part of the filter bowl, the apertures in the flange are not sealed, the first fuel apertures of the conduit element open into the second inlet chamber, and the second fuel apertures of the conduit element open into the inlet filter chamber. 3. The fuel filter according to claim 2 , further comprises an intermediate structure, and wherein: the second end of the conduit element abuts a part of the filter bowl via the intermediate structure when the filter bowl is fully attached to the connector element, and the intermediate structure is configured and dimension so that the inlet shutoff valve biasing means may displace the intermediate structure and move the conduit element into the closed configuration when the filter bowl is detached from the connector element. 4. A fuel filter according to claim 2 , wherein: the relief valve comprises a valve seat and a valve plug, the relief valve biasing means biases the valve plug against the valve seat, and the valve plug moves between the open and closed configurations of the relief valve, and the valve plug defines a plug aperture extending through the plug, the plug aperture has an orientation substantially parallel to the direction of movement of the valve plug between the open and closed configurations of the relief valve, the conduit element of the inlet shutoff valve passes through the plug aperture with a portion of the conduit element longitudinally between the first and second fuel apertures of the conduit element in a sliding sealing engagement with the valve plug. 5. The fuel filter according to claim 4 , wherein the conduit element of the inlet shutoff valve comprises a biasing means mounting element, and the inlet shutoff valve biasing means extends between the valve plug of the relief valve and the biasing means mounting of the conduit element. 6. The fuel filter according to claim 5 , wherein the biasing means associated with the relief valve exerts less spring force than the biasing means associated with one or both of the inlet shutoff valve and outlet shutoff valve. 7. The fuel filter according to claim 1 , wherein: the outlet passage comprises a second outlet chamber with at least one second outlet chamber aperture, one or both of the manifold and the connector element define the first outlet chamber and one or more second outlet chambers, the first outlet chamber aperture is a mouth of the portion of the outlet passage extending from the outlet port, each second outlet chamber aperture is in fluid communication with the outlet filter chamber, the outlet shutoff valve comprises an aperture closure element, the apert