Granular absorbent and system and method for treating or processing granular absorbent during granular absorbent transport

What is claimed is: 1. A system for producing granular absorbent comprising: (a) an extruder that extrudes a plurality of pairs of absorbent pellets per second from an admixture comprised of starch; (b) a pneumatic conveyor comprised of (1) an elongate conduit having an intake that receives (i) the absorbent pellets extruded from the extruder, and (ii) transports the extruded absorbent pellets through the conduit using air flowing through the pneumatic conveyor conduit from the intake of the conduit toward a discharge of the conduit; and (2) an air mover in fluid flow communication with the pneumatic conveyor conduit, the air mover flowing air through the pneumatic conveyor conduit at a flow rate sufficient to cause the extruded absorbent pellets extruded from the extruder to be drawn into the intake of the pneumatic conveyor conduit and transported toward the discharge of the pneumatic conveyor conduit; wherein the pneumatic conveyor conduit is comprised of an elongate tubular duct having a three-dimensionally contoured inner duct surface comprising a ribbed inner duct surface against which extruded absorbent pellets contact while being transported by air flowing therethrough polishing extruded absorbent pellets contacting the ribbed inner duct surface and causing smaller sized pieces of extruded absorbent pellets contacting the ribbed inner duct surface to break off therefrom forming absorbent fines smaller in size than the extruded absorbent pellets that are transported together through the duct by the air flowing therethrough. 2. The system of claim 1 , further comprising a coating material delivery system comprised of (i) a source of coating material that holds dry powdered coating material, and (ii) a coating material delivery conduit in fluid flow communication with air flowing through the pneumatic conveyor conduit, the coating material delivery conduit delivering the dry powdered coating material from the source of coating material into air flowing through the pneumatic conveyor conduit during transport of the extruded absorbent pellets therethrough, and wherein the dry powdered coating material coats the extruded absorbent pellets while being transported in the air flowing through the pneumatic conveyor conduit while also drying the extruded absorbent pellets by absorbing at least some extruded absorbent pellet moisture of extruded absorbent pellets coated during transport of the extruded absorbent pellets through the pneumatic conveyor conduit to a moisture content when the extruded absorbent pellets exit the discharge of the pneumatic conveyor conduit that is at least 2% less than the moisture content of the extruded absorbent pellets entering the intake of the pneumatic conveyor conduit. 3. The system of claim 2 , wherein the source of coating material comprises a hopper or tank that holds the dry powdered coating material, and wherein the coating material delivery conduit is in fluid flow communication with the pneumatic conveyor conduit downstream of the intake of the pneumatic conveyor conduit and upstream of the discharge of the pneumatic conveyor conduit delivering dry powdered coating material into the pneumatic conveyor conduit after the extruded absorbent pellets have entered the pneumatic conveyor conduit. 4. The system of claim 2 , wherein the extruder has an extrudate discharge chamber that receives the absorbent pellets extruded from the extruder, the extrudate discharge chamber in fluid flow communication with the intake of the pneumatic conveyor conduit, and wherein the coating material delivery conduit is in fluid flow communication with the extrudate discharge chamber introducing dry powdered coating material into the extrudate discharge chamber such that the dry powdered coating material and extruded absorbent pellets substantially simultaneously enter the intake of the pneumatic conveyor conduit. 5. The system of claim 4 , wherein the source of coating material comprises a hopper or tank that holds the dry powdered coating material, wherein the dry powdered coating material is comprised of bentonite, and wherein the coating material delivery conduit delivers dry powdered coating material into the extrudate discharge chamber coating the extruded absorbent pellets in the extrudate discharge chamber while the extruded absorbent pellets are still tacky or moist better adhering the powdered coating material to the extruded absorbent pellets during coating of the extruded absorbent pellets while also drying the extruded absorbent pellets by absorbing outer pellet surface moisture. 6. The system of claim 5 wherein the air mover comprises (i) a blower, and (ii) a blower conduit in air flow communication with the blower and the extrudate discharge chamber for delivering a flow of air discharged from the blower into the extrudate discharge chamber that transports the extruded absorbent pellets discharged from the extruded into the intake of the pneumatic conveyor conduit, and wherein the blower delivers air through the blower conduit into the extrudate discharge chamber at a high enough flow rate for air to turbulently flow through the pneumatic conveyor conduit convectively cooling and drying the extruded absorbent pellets transported by the turbulently flowing air while the extruded absorbent pellets are being coated and dried by the powdered coating material. 7. The system of claim 6 , wherein the dry powdered coating material has a moisture content less than the moisture content of the extruded absorbent pellets when entering the intake of the pneumatic conveyor conduit. 8. The system of claim 1 , wherein the ribbed inner duct surface is comprised of ribs spaced apart longitudinally substantially the length of the elongate tubular pneumatic conveyor duct, each one of the ribs projecting inwardly into the elongate tubular pneumatic conveyor duct. 9. The system of claim 8 , wherein the air mover comprises (i) a blower, fan or compressor, and (ii) an elongate pipe or tube in air flow communication with the blower, fan or compressor, and the elongate tubular pneumatic conveyor duct, and wherein the blower, fan or compressor delivers a flow of air through the pipe or tube into the elongate tubular pneumatic conveyor duct at an air flow rate high enough for the air to flow turbulently in the elongate tubular pneumatic conveyor duct, the turbulently flowing air cooling and drying the extruded absorbent pellets while the extruded absorbent pellets are being transported through the elongate tubular pneumatic conveyor duct by the turbulently flowing air. 10. The system of claim 9 , wherein air at an air flow rate of at least 500 cubic feet per minute flows through the elongate tubular pneumatic conveyor duct at a high enough velocity for the air to flow turbulently in the elongate tubular pneumatic conveyor duct during system operation. 11. The system of claim 9 , wherein air flows through the elongate tubular pneumatic conveyor duct at an air flow rate of between 500 cubic feet per minute and 3000 cubic feet per minute producing turbulent air flow through the elongate tubular pneumatic conveyor duct during system operation. 12. The system of claim 1 , wherein the air mover comprises (i) a blower, fan or compressor, and (ii) an elongate pipe or tube in air flow communication with the blower, fan or compressor, and the pneumatic conveyor conduit, and wherein the blower, fan or compressor delivers a flow of air through the pipe or tube into the pneumatic conveyor conduit at an air flow rate of at least 500 cubic feet per minute sufficient to produce turbulent flow of air through the pneumatic conveyor conduit cooling and drying the extruded absorbent pellets while the extruded