Serpentine flow field with varying numbers of channel portions

We claim: 1. A flow field, comprising a plurality of flow channel portions including n inlet portions configured for introducing a fluid into the flow field, a plurality of first pass portions that direct fluid flow in a first direction, a plurality of second pass portions that direct fluid flow in a second direction that is parallel to and opposite to the first direction, a plurality of third pass portions that direct fluid flow in the first direction, and n outlet portions configured to allow the fluid to exit the flow field; and wherein: n is an integer and a number of the pass portions in at least one of the plurality of pass portions is a non-integer multiple of n; a number of the pass portions in each plurality of pass portions is a non-integer multiple of n; there are 2n-a of the first pass portions; there are 2n-b of the second pass portions; there are 2n-c of the third pass portions; and a is equal to c but not b. 2. The flow field of claim 1 , wherein fluid flow along the flow field moves through the inlet portions toward the first pass portions, through the first pass portions toward the second pass portions, through the second pass portions toward the third pass portions, and through the third pass portions toward the outlet portions. 3. The flow field of claim 1 , wherein a, b, or c is equal to a non-zero integer. 4. The flow field of claim 3 , wherein a, b or c equals 1 or 2. 5. The flow field of claim 1 , wherein a is 2; c is 2; and b is 1. 6. The flow field of claim 1 , wherein at least some of the inlet portions each are connected for fluid communication with more than one of the first pass portions; at least some of the outlet portions each are connected for fluid communication with more than one of the third pass portions; at least one of the inlet portions is connected for fluid communication with only one of the first pass portions; and at least one of the outlet portions is connected for fluid communication with only one of the third pass portions. 7. The flow field of claim 6 , wherein at least one of the flow field channels consists of one of the inlet portions connected for fluid communication with only one of the first pass portions which is connected for fluid communication with only the one of the inlet portions and one of the second pass portions which is connected for fluid communication with only the one of the first pass portions and one of the third pass portions which is connected for fluid communication with only the one of the second pass portions and one of the outlet portions. 8. The flow field of claim 1 , comprising a reactant or coolant distribution plate and wherein the flow field channels are established on at least one side of the distribution plate. 9. The flow field of claim 8 , wherein the flow field is rotationally symmetric on the plate such that the flow field has the same configuration with respect to a reference at a center of the plate. 10. The flow field of claim 1 , wherein the flow field comprises a plurality of flow paths that each include at least one inlet portion, at least one first pass portion, at least one second pass portion, at least one third pass portion and at least one outlet portion; at least some of the flow paths include a split of one of the portions into more than one adjacent upstream portion connected for fluid communication with the one of the portions; and at least some of the flow paths include a merge of two of the portions into an adjacent upstream portion connected for fluid communication with the two of the portions. 11. The flow field of claim 10 , wherein at least one of the flow paths does not include a split. 12. The flow field of claim 10 , wherein at least one of the flow paths does not include a merge. 13. The flow field of claim 10 , wherein at least one of the flow paths does not include a split and does not include a merge. 14. A flow field, comprising a plurality of flow channel portions including n inlet portions configured for introducing a fluid into the flow field, a plurality of first pass portions that direct fluid flow in a first direction, a plurality of second pass portions that direct fluid flow in a second direction that is parallel to and opposite to the first direction, a plurality of third pass portions that direct fluid flow in the first direction, and n outlet portions configured to allow the fluid to exit the flow field; and wherein: n is an integer and a number of the pass portions in at least one of the plurality of pass portions is a non-integer multiple of n; at least some of the inlet portions each are connected for fluid communication with more than one of the first pass portions; at least some of the outlet portions each are connected for fluid communication with more than one of the third pass portions; at least one of the inlet portions is connected for fluid communication with only one of the first pass portions; and at least one of the outlet portions is connected for fluid communication with only one of the third pass portions. 15. The flow field of claim 14 wherein: there are 2n-a of the first pass portions; there are 2n-b of the second pass portions; there are 2n-c of the third pass portions; and a is equal to c but not b. 16. The flow field of claim 14 wherein the flow field is rotationally symmetric on the plate such that the flow field has the same configuration with respect to a reference at a center of the plate. 17. The flow field of claim 14 wherein at least one of the flow field channels consists of one of the inlet portions connected for fluid communication with only one of the first pass portions which is connected for fluid communication with only the one of the inlet portions and one of the second pass portions which is connected for fluid communication with only the one of the first pass portions and one of the third pass portions which is connected for fluid communication with only the one of the second pass portions and one of the outlet portions.