Enclosures for vertical pulverizer systems

We claim: 1. An enclosure comprising: a cylindrical body forming an internal cavity, the cylindrical body being vertically oriented; a cover positioned above the cylindrical body, the cover having a curved surface that is concave in shape with respect to the internal cavity of the cylindrical body; an inlet channel formed through the cover, the inlet channel in fluid communication with the internal cavity of the cylindrical body; an outlet channel formed through the cover, and adjacent to the inlet channel; a base component positioned within the internal cavity of the cylindrical body opposite the cover, the base component including: an aperture formed through the base component, the aperture configured to receive a rotatable table of a vertical pulverizer system, and a curved surface that is concave in shape with respect to the internal cavity of the cylindrical body, the curved surface extending over the entirety of the base component from a first end of the base component coupled directly to an inner surface of the cylindrical body to a second end of the base component defining the aperture formed through the base component; a journal opening formed through the cylindrical body between the cover and the base component; and a journal opening cover coupled to the cylindrical body, the journal opening cover covering the journal opening. 2. The enclosure of claim 1 , further comprising a bottom seal coupled to and lining the aperture of the base component. 3. The enclosure of claim 1 , wherein the curved surface of the cover extends over the entirety of the cover. 4. The enclosure of claim 1 , wherein the journal opening cover further comprises: a door configured to provide access to the internal cavity of the cylindrical body; a trunnion support positioned adjacent and below the door, the trunnion support angularly extending away from the cylindrical body; and a curved side wall positioned perpendicular to the door, the curved side wall coupled directly to the cylindrical body and the trunnion support. 5. An enclosure comprising: a cylindrical body forming an internal cavity, the cylindrical body being vertically oriented; a cover coupled to the cylindrical body, the cover including: a concave surface with respect to the internal cavity of the cylindrical body; a material inlet channel formed through the cover; and a particle outlet channel formed through the cover, and adjacent to the material inlet channel; a base component positioned within the internal cavity of the cylindrical body opposite the cover, the base component including: an aperture formed through the base component, the aperture configured to receive a rotatable table of a vertical pulverizer system, and a concave surface with respect to the internal cavity of the cylindrical body, the concave surface extending over the entirety of the base component from a first end of the base component coupled directly to an inner surface of the cylindrical body to a second end of the base component defining the aperture formed through the base component; a curved journal opening formed through the cylindrical body between the cover and the base component; and a journal opening cover coupled to the cylindrical body and covering the curved journal opening, the journal opening cover including: a door configured to provide access to the internal cavity of the cylindrical body; a trunnion support positioned adjacent and below the door, the trunnion support angularly extending away from the cylindrical body; and a curved side wall positioned perpendicular to the door, the curved side wall coupled directly to the cylindrical body and the trunnion support. 6. The enclosure of claim 5 , wherein the cylindrical body extends below and surrounds the base component. 7. The enclosure of claim 5 , wherein the cylindrical body further comprises: an upper portion coupled to the cover; and a bowl portion coupled to the upper portion, opposite the cover, the bowl portion including the base component. 8. The enclosure of claim 7 , further comprising a gas inlet opening formed through the bowl portion of the cylindrical body, the gas inlet opening positioned above the base component. 9. The enclosure of claim 5 , further comprising a top seal positioned on and extending from the cover. 10. The enclosure of claim 9 , further comprising a particle deflection component extending from the top seal toward the particle outlet channel of the cover. 11. A vertical pulverizer system comprising: a support including a seat; a gearbox positioned within the seat of the support; an enclosure positioned above the support and the gearbox, the enclosure including: a cylindrical body coupled to the support, the cylindrical body forming an internal cavity; a cover positioned above the cylindrical body, the cover including: a concave surface with respect to the internal cavity of the cylindrical body; a material inlet channel formed through the cover; and a particle outlet channel formed through the cover, and adjacent to the material inlet channel; a base component positioned within the internal cavity of the cylindrical body opposite the cover, the base component including: an aperture formed through the base component, and a concave surface with respect to the internal cavity of the cylindrical body, the concave surface extending over the entirety of the base component from a first end of the base component coupled directly to an inner surface of the cylindrical body to a second end of the base component defining the aperture formed through the base component; a curved journal opening formed through the cylindrical body between the cover and the base component; and a journal opening cover coupled to the cylindrical body and covering the curved journal opening; a rotatable table positioned within the internal cavity formed by the cylindrical body, the rotatable table coupled to the gearbox and extending through the aperture of the base component; a journal positioned above and adjacent the rotatable table; a trunnion coupled to the journal, the trunnion positioned adjacent the journal opening cover of the enclosure; and a particle screening device positioned adjacent the cover, at least a portion of the particle screening device positioned within the internal cavity formed by the cylindrical body of the enclosure. 12. The vertical pulverizer system of claim 11 , further comprising a material feed pipe coupled to the material inlet channel formed in the cover, the material feed pipe extending at least partially through the particle screening device. 13. The vertical pulverizer system of claim 11 , wherein the enclosure further comprises a gas inlet opening formed through the cylindrical body, the gas inlet opening positioned between the base component and the journal. 14. The vertical pulverizer system of claim 11 , wherein the enclosure further comprises a frustoconical component positioned between and coupled to the cylindrical body and the cover. 15. The vertical pulverizer system of claim 11 , wherein at least a portion of the trunnion is positioned within the internal cavity of the cylindrical body of the enclosure. 16. The vertical pulverizer system of claim 11 , further comprising a top seal surrounding the particle screening device, the top seal positioned between a portion of the cover of the enclosure and the particle screening device. 17. The vertical pulverizer system of 11 , further comprising a scraper coupled to the rotatable table, the scraper positioned adjacent the concave surf