Replaceable fuel separation unit

What is claimed is: 1. A replaceable fuel separation unit comprising: a permeable substrate having a first end face, a second end face, a plurality of parallel channels extending from the first end face to the second end face, and an outer surface; a first housing structured and arranged to contain the permeable substrate, having an intermediate internal surface, the first housing comprising a first end plate and a second end plate defining respective first and second outer ends of the housing, wherein the intermediate internal surface of the first housing is disposed between the first end plate and the second end plate, the first end plate comprising a first fluid passage and a first end plate seal structured and arranged to form a seal between the first end plate and the permeable substrate at or near a periphery of the first end face of the permeable substrate, wherein the first end plate seal is disposed spaced from and outside of a periphery defining the first fluid passage, the second end plate comprising a second fluid passage, a permeate chamber outlet, and a second end plate seal structured and arranged to form a seal between the second end plate and the permeable substrate at or near a periphery of the second end face of the permeable substrate, wherein the second end plate seal is disposed spaced from and outside of a periphery defining the second fluid passage; and a permeate chamber comprising a space formed between the outer surface of the permeable substrate and the intermediate internal surface of the first housing; wherein the permeate chamber is separated from the end faces of the permeable substrate by the first end plate seal and the second end plate seal, and outer side portions of the first and second end plate seals do not abut against respective first and second end plates, and are spaced by a gap within the permeate chamber from the intermediate internal surface of the first housing. 2. The separation unit of claim 1 wherein the first fluid passage is an inlet and the second fluid passage is a retentate outlet, wherein the inlet receives a mixed gasoline feed stream comprising a high Research Octane Number fuel portion as a permeate and a low Research Octane Number fuel portion as a retentate, and wherein the retentate outlet outputs retentate that is separated from the permeate within the permeable substrate. 3. The separation unit of claim 1 wherein the first fluid passage is a retentate outlet and the second fluid passage is an inlet, wherein the inlet receives a mixed gasoline feed stream comprising a high Research Octane Number fuel portion as a permeate and a low Research Octane Number fuel portion as a retentate, and wherein the retentate outlet outputs retentate that is separated from the permeate within the permeable substrate. 4. The fuel separation unit of claim 1 , further comprising a connector plate and a connector plate seal structured and arranged to form a releasable seal between the connector plate and the second end plate wherein: the second end plate seal has a first diameter, and the connector seal has a second diameter that is greater than the first diameter; the permeate chamber outlet of the second end plate is disposed between the second end plate seal and the intermediate inner surface of the housing; the connector seal is disposed in a groove of the second end plate configured to receive the connector seal, wherein the groove is disposed between the permeate chamber outlet of the second end plate and the intermediate inner surface of the housing; the connector plate comprises an inlet and a permeate outlet; and the connector plate comprises fittings to releasably attach the housing containing the permeable membrane to the inlet and the permeate outlet of the connector plate. 5. The fuel separation unit of claim 2 , further comprising a connector plate and a connector plate seal structured and arranged to form a releasable seal between the connector plate and the second end plate wherein: the second end plate seal has a first diameter, and the connector seal has a second diameter that is greater than the first diameter; the connector plate comprises a retentate outlet and a permeate outlet; and the connector plate comprises fittings to releasably attach the housing containing the permeable membrane to the retentate outlet and the permeate outlet of the connector plate. 6. The fuel separation unit of claim 3 , further comprising a connector plate and a connector plate seal structured and arranged to form a releasable seal between the connector plate and the second end plate wherein: the second end plate seal has a first diameter, and the connector seal has a second diameter that is greater than the first diameter; the connector plate comprises an inlet and a permeate outlet; and the connector plate comprises fittings to releasably attach the housing containing the permeable membrane to the inlet and the permeate outlet of the connector plate. 7. The fuel separation unit of claim 4 wherein the housing is secured to the connector plate by a compression fitting. 8. The fuel separation unit of claim 4 wherein the housing is secured to the connector plate by a screw-fitting. 9. The fuel separation unit of claim 1 further comprising a connector plate and a connector plate seal structured and arranged to form a releasable seal between the connector plate and the second end plate, wherein: the second end plate seal has a first diameter, the connector seal has a second diameter that is greater than the first diameter, the permeate chamber outlet of the second end plate is disposed between the second end plate seal and the intermediate inner surface of the housing, the second end plate comprises a groove that is configured to receive the connector seal and that is disposed between the permeate chamber outlet of the second end plate and the intermediate inner surface of the housing, and the connector seal is disposed in the groove of the second end plate. 10. The fuel separation unit of claim 9 wherein the connector plate comprises an inlet, a permeate outlet and a retentate outlet. 11. The fuel separation unit of claim 9 wherein the connector plate comprises at least one groove for containing the connector seal. 12. The fuel separation unit of claim 1 , wherein at least one of the first end plate and the second end plate of the first housing comprises a manifold and wherein the seal, formed between at least one of the first end plate and the second end plate and the permeable substrate, is formed between the manifold and the permeable substrate. 13. The fuel separation unit of claim 2 , wherein at least one of the first end plate and the second end plate of the first housing comprises a manifold and wherein the seal, formed between at least one of the first end plate and the second end plate and the permeable substrate, is formed between the manifold and the permeable substrate. 14. The fuel separation unit of claim 3 , wherein at least one of the first end plate and the second end plate of the first housing comprises a manifold and wherein the seal, formed between at least one of the first end plate and the second end plate and the permeable substrate, is formed between the manifold and the permeable substrate. 15. The fuel separation unit of claim 1 , further comprising a second housing structured and arranged to provide a retentate chamber between an outer surface of the first housing and an inner surface of second housing. 16. The fuel separation unit of claim 2 , further comprising a second housing structured and arranged to