Porous bodies with enhanced pore architecture

What is claimed is: 1 . A porous body comprising: at least 80 percent alpha alumina and having a pore volume from 0.3 mL/g to 1.2 mL/g, a surface area from 0.3 m 2 /g to 3.0 m 2 /g, and a pore architecture that provides at least one of a tortuosity of 7 or less, a constriction of 4 or less and a permeability of 30 mdarcys or greater. 2 . The porous body of claim 1 , wherein at least 90 percent of said pore volume is attributed to pores having a pore size of 20 microns or less. 3 . The porous body of claim 1 , wherein at least 85 percent of said pore volume is attributed to pores having a size from 1 micron to 6 microns. 4 . The porous body of claim 1 , wherein less than 15 percent of said pore volume is attributed to pores having a size of less than 1 micron. 5 . The porous body of claim 1 , wherein at least 80 percent of said pore volume is attributed to pores having a size from 1 micron to 10 microns. 6 . The porous body of claim 1 , further comprising a silica content, as measured as SiO 2 , of less than 0.2 weight percent, and a sodium content, as measured as Na 2 O, of less than 0.2 weight percent. 7 . The porous body of claim 1 , further comprising an acid leachable sodium content of 40 ppm or less. 8 . The porous body of claim 1 , wherein said pore architecture provides said tortuosity and said constriction. 9 . A silver-based epoxidation catalyst comprising: a carrier comprising at least 80 percent alpha alumina and having a pore volume from 0.3 mL/g to 1.2 mL/g, a surface area from 0.3 m 2 /g to 3.0 m 2 /g, and a pore architecture that provides at least one of a tortuosity of 7 or less, a constriction of 4 or less and a permeability of 30 mdarcys or greater; a catalytic amount of silver disposed on and/or in said carrier; and a promoting amount of one or more promoters disposed on said carrier. 10 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said one or more promoters comprise Group 1 alkali metal promoters, one or more transition metals, one or more Group 2 alkaline earth metals or any combination thereof. 11 . The silver-based ethylene epoxidation catalyst of claim 10 , wherein said one or more transition metals are selected from the group consisting of Groups 4-10 of the Periodic Table of the Elements. 12 . The silver-based ethylene epoxidation catalyst of claim 11 , wherein said one or more transition metals are selected from the group consisting of molybdenum, rhenium, tungsten, chromium, titanium, hafnium, zirconium, vanadium, thorium, tantalum, and niobium. 13 . The silver-based ethylene epoxidation catalyst of claim 10 , wherein said one or more transition metals comprise rhenium, molybdenum, tungsten, or any combination thereof. 14 . The silver-based ethylene epoxidation catalyst of claim 10 , wherein said Group 1 alkali metal promoters are selected from the group consisting of cesium, lithium, sodium, potassium, and rubidium. 15 . The silver-based ethylene epoxidation catalyst of claim 14 , wherein said Group 1 alkali metal promoters comprise lithium and cesium. 16 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said one or more promoters comprises a promoting combination of rhenium, cesium and lithium. 17 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said catalytic amount of silver is from 10 to 50% by weight. 18 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein at least 90 percent of said pore volume is attributed to a pore size of 20 microns or less. 19 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein at least 85 percent of said pore volume is attributed to pores having a size from 1 micron to 6 microns. 20 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein less than 15 percent of said pore volume is attributed to pores having a size of less than 1 micron. 21 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein at least 80 percent of said pore volume is attributed to pores having a size from 1 micron to 10 microns. 22 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said carrier has a silica content, as measured as SiO 2 , of less than 0.2 weight percent, and a sodium content, as measured as Na 2 O, of less than 0.2 weight percent. 23 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said carrier has a water washing acid leachable sodium content of 40 ppm or less. 24 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said carrier has alumina crystallites having a platelet morphology in a content of less than 20 percent by volume. 25 . The silver-based ethylene epoxidation catalyst of claim 9 , wherein said pore architecture provides said tortuosity and said constriction. 26 . A catalyst composition comprising: a carrier comprising at least 80 percent alpha alumina and having a pore volume from 0.3 mL/g to 1.2 mL/g, a surface area from 0.3 m 2 /g to 3.0 m 2 /g, and a pore architecture that provides at least one of a tortuosity of 7 or less, a constriction of 4 or less and a permeability of 30 mdarcys or greater; and a catalytic amount of at least one catalytically active material disposed on and/or in said carrier. 27 . The catalyst composition of claim 26 , wherein said carrier has a silica content, as measured as SiO 2 , of less than 0.2 weight percent, and a sodium content, as measured as Na 2 O, of less than 0.2 weight percent.