Orifice plate for controlling solids flow, methods of use thereof and articles comprising the same

What is claimed is: 1. A moving bed heat exchanger comprising: an enclosure having side walls, a roof and a floor; a tube bundle disposed within the enclosure; the tube bundle being operative to transport a cooling fluid; wherein the spaces between tubes of the tube bundle are operative to permit transport of hot solids and/or ash therebetween; an orifice plate disposed downstream of the tube bundle in the direction of the flow of hot solids and/or ash, the orifice plate including a plurality of vertically spaced plates, each of the plates defining a fewer number of orifices of larger diameter than that of the plate above, a total cross-sectional area of the orifices in each of the plates being substantially equal; and a plurality of valves disposed downstream of the orifice plate in the direction of the flow of hot solids and/or ash and vertically aligned with the orifices of the lower plate to receive the hot solids and/or ash passing through the orifice plate. 2. The moving bed heat exchanger of claim 1 , wherein the orifice plate comprises 1 to about 10 plates vertically spaced and each having a plurality of orifices, wherein the orifices of adjacent plates are not aligned. 3. The moving bed heat exchanger of claim 1 , each of the adjacent plates defining a number of orifices determined by successive terms of a geometric sequence. 4. The moving bed heat exchanger of claim 1 , wherein each of the plates is disposed closer to the plurality of valves than the plate above. 5. The moving bed heat exchanger of claim 3 , wherein a lower one of the plates comprises four orifices and the plate above the lower plate comprises 16 orifices. 6. The moving bed heat exchanger of claim 1 , wherein the plurality of valves have a height that is about 60 to about 80% less than a comparative valve that does not have the orifice plate. 7. The moving bed heat exchanger of claim 4 , wherein a distance between a lower one of the plates and the plate above the lower plate is determined by an angle of repose of the hot solids and/or ash. 8. The moving bed heat exchanger of claim 4 , wherein a spacing between the orifices in a lower one of the plates and the plate above the lower plate is determined by an angle of repose of the hot solids and/or ash. 9. The moving bed heat exchanger of claim 4 , wherein a vertical offset between the orifices in a lower one of the plates and the plate above the lower plate is determined by an angle of repose of the hot solids and/or ash. 10. The moving bed heat exchanger of claim 1 , where the orifice plate comprises a high alloy steel, refractory tiles, or a combination thereof. 11. The moving bed heat exchanger of claim 4 , where a center of the orifice in a lower one of the plates is coaxial with the center of rotation of a plurality of orifices in a plate above the lower plate. 12. The moving bed heat exchanger of claim 1 , wherein each valve includes: a standpipe that receives the hot solids and/or ash from the lower plate; and a housing including a shoe that receives the hot solids and/or ash from the standpipe. 13. The moving bed heat exchanger of claim 1 , wherein the orifices of the adjacent plates are not vertically aligned.