Zeolite material based on mesoporous zeolite

The invention claimed is: 1. An agglomerated zeolite material comprising at least one mesoporous zeolite, wherein: (1) the mesoporous zeolite has an Si/Al atomic ratio of greater than 1.4 and less than or equal to 6, (2) the agglomerated zeolite material has a total zeolite content of at least 30% by weight relative to the total weight of the agglomerated zeolite material, (3) the agglomerated zeolite material has a content of mesoporous zeolite of greater than or equal to 30% by weight relative to the total weight of the agglomerated zeolite material, (4) the agglomerated zeolite material has a binder content, after calcinations performed at 950° C. for 1 hour, of less than or equal to 70% by weight relative to the total weight of the agglomerated zeolite material, (5) the agglomerated zeolite material has a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical) of less than 7 mm, and either (a) the agglomerated zeolite material has a bulk crushing strength (BCS) measured according to standard ASTM 7084-04 of between 0.5 MPa and 6 MPa for an agglomerated zeolite material with a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical), of less than 1 mm, limits inclusive, or (b) the agglomerated zeolite material has a grain crushing strength, measured according to standards ASTM D 4179 (2011) and ASTM D 6175 (2013), of 0.5 daN to 30 daN for an agglomerated zeolite material with a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical), of greater than or equal to 1 mm, limits inclusive, wherein the mesoporous zeolite has a mesoporous outer surface area of between 40 m 2 ·g −1 and 400 m 2 ·g −1 as defined by the t-plot method. 2. The agglomerated zeolite material of claim 1 , further comprising one or more non-mesoporous zeolites. 3. The agglomerated zeolite material of claim 1 , which has an apparent mass per unit volume of 0.4 g·cm −3 to 1 g·cm −3 . 4. The agglomerated zeolite material of claim 1 , wherein the mesoporous zeolite has an Si/Al atomic ratio of 1.5 to 5. 5. The agglomerated zeolite material of claim 1 , in which the zeolite crystals are agglomerated with a binder comprising a clay or a mixture of clays selected from the group consisting of kaolins, kaolinites, nacrites, dickites, halloysites, attapulgites, sepiolites, montmorillonites, bentonites, illites, metakaolins, mixtures thereof, and the silica or alumina sols thereof. 6. The agglomerated zeolite material of claim 1 , which has both the characteristics of mesoporous zeolites, but also the mechanical properties of conventional zeolite agglomerates in which the zeolite is non-mesoporous. 7. The agglomerated zeolite material of claim 1 , wherein the total zeolite content is at least 70% by weight relative to the total weight of the agglomerated zeolite material. 8. The agglomerated zeolite material of claim 1 , wherein the content of mesoporous zeolite is greater than or equal to 90% relative to the total weight of the agglomerated zeolite material. 9. The agglomerated zeolite material of claim 1 , wherein the binder content, after calcinations performed at 950° C. for 1 hour, is less than or equal to 30% relative to the total weight of the agglomerated zeolite material. 10. The agglomerated zeolite material of claim 1 , wherein the mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical), is 1 mm to 2.5 mm. 11. The agglomerated zeolite material of claim 1 , the mesoporous zeolite has an Si/Al atomic ratio of 1.5 to 3. 12. The agglomerated zeolite material of claim 1 , wherein the mesoporous zeolite is a Y-type FAU zeolite. 13. The agglomerated zeolite material of claim 1 , wherein the mesoporous zeolite is in the form of crystals having a mean numerical diameter of less than 20 μm as measured with a scanning electron microscope. 14. The agglomerated zeolite material of claim 1 , which has a grain crushing strength, measured according to standards ASTM D 4179 (2011) and ASTM D 6175 (2013), of between 1 daN and 20 daN. 15. The agglomerated zeolite material of claim 1 , wherein the binder content, after calcinations performed at 950° C. for 1 hour, is less than or equal to 60% relative to the total weight of the agglomerated zeolite material. 16. The agglomerated zeolite material of claim 1 , wherein the mesoporous zeolite has an Si/Al atomic ratio of greater than 1.4 to 3. 17. The agglomerated zeolite material of claim 1 , wherein (a) the agglomerated zeolite material has a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical) of 1 mm to 7 mm. 18. The agglomerated zeolite material of claim 1 , wherein the mesoporous zeolite has a mesoporous outer surface area of between 60 m 2 ·g −1 and 200 m 2 ·g −1 as defined by the t-plot method. 19. The agglomerated zeolite material of claim 1 , which (a) has a bulk crushing strength (BCS) measured according to standard ASTM 7084-04 of between 0.5 MPa and 6 MPa for an agglomerated zeolite material with a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical), of less than 1 mm, limits inclusive. 20. The agglomerated zeolite material of claim 1 , which (b) has a grain crushing strength, measured according to standards ASTM D 4179 (2011) and ASTM D 6175 (2013), of 0.5 daN to 30 daN for an agglomerated zeolite material with a mean volume diameter (D50), or a length (largest dimension when the agglomerated zeolite material is not spherical), of greater than or equal to 1 mm, limits inclusive. 21. A process for preparing the agglomerated zeolite material of claim 1 , comprising: a) forming an agglomerated material by agglomerating crystals of at least one mesoporous zeolite with an Si/Al atomic ratio which is greater than 1.4 and less than or equal to 6, with a number-average diameter of 0.1 μm to 20 μm and with a mesopore outer surface area of 40 m 2 ·g −1 to 400 m 2 ·g −1 , with a binder comprising at least 80% clay or a mixture of clays and/or of the silica or alumina sols which are then dried or gelled in order to make them set, the clay or clays being optionally zeolitizable, and with up to 5% of additives, and optionally at least one non-mesoporous zeolite, and with an amount of water that allows the shaping of the agglomerated material; b) drying the agglomerated material from a) at a temperature of between 50° C. and 150° C. to obtain dried agglomerates; c) calcining the dried agglomerates from b) with flushing with an oxidizing and/or inert gas, which is optionally dried and/or decarbonated, at a temperature above 150° C.; d) optionally zeolitizing the binder by placing the calcined agglomerates obtained in c) in contact with an alkaline basic solution; e) optionally cation exchanging the agglomerates from c) or d) by placing the agglomerates in contact with a solution of at least one alkali metal or alkaline-earth metal salt; f) washing and drying the agglomerates obtained in d) or e) at a temperature of between 50° C. and 150° C., and g) producing the agglomerated zeolite material by activating the agglomerates obtained in f) under the conditions described in c). 22. The process of claim 21 , wherein, in a), agglomeration of crystals of a zeolite prepared in the presence of a sacrificial tem