Recirculating proppant conveyor system

What is claimed: 1. An apparatus comprising: a conveyor system having a first end, a second end, a supply conveyor and a return conveyor; the supply conveyor has an inlet at the first end of the conveyor system, an outlet at the second end of the conveyor system and a first carrier system, which transfers material from the first end to the second end of the conveyor system; and the return conveyor has an inlet at the second end of the conveyor system and an outlet at the first end of the conveyor system and a second carrier system, which transfers material from the second end to the first end of the conveyor system; and wherein the supply conveyor and the return conveyor are in material flow communication such that the inlet of the supply conveyor can accept at least a portion of material from the outlet of the return conveyor and such that the inlet of the return conveyor can accept at least a portion of the material from the outlet of the supply conveyor; and wherein a storage unit releases the material to a collection hopper and where the collection hopper distributes at least a portion of the material to the inlet of the supply conveyor; and wherein the outlet of the supply conveyor releases a released portion of material to a metering device; and wherein the metering device delivers the released portion of material to a pump and blender system. 2. The apparatus of claim 1 , wherein the supply conveyor and return conveyor are isolated from each other so that material flow communication occurs only between the supply conveyor and return conveyor at the first end and second end of the conveyor system. 3. The apparatus of claim 1 , wherein the conveyor system has an adjustable angular position. 4. An apparatus comprising: a conveyor system having a first end, a second end, a supply conveyor and a return conveyor; the supply conveyor has an inlet at the first end of the conveyor system, an outlet at the second end of the conveyor system and a first carrier system, which transfers material from the first end to the second end of the conveyor system; and the return conveyor has an inlet at the second end of the conveyor system and an outlet at the first end of the conveyor system and a second carrier system, which transfers material from the second end to the first end of the conveyor system; and wherein the supply conveyor and the return conveyor are in material flow communication such that the inlet of the supply conveyor can accept at least a portion of material from the outlet of the return conveyor and such that the inlet of the return conveyor can accept at least a portion of the material from the outlet of the supply conveyor; and wherein the supply conveyor has a first directional vector with a corresponding first angle and the return conveyor has a second directional vector with a corresponding second angle, wherein the supply conveyor and return conveyor are configured such that at the first end of the conveyor system the second angle is less than or equal to the first angle. 5. The apparatus of claim 4 , wherein the first carrier system is a supply screw and the second carrier system is a return screw. 6. The apparatus of claim 4 , wherein the inlet of the supply conveyor accepts a first portion of the material from a first source and wherein the outlet of the supply conveyor releases a second portion of the material to a second source. 7. The apparatus of claim 6 , wherein the supply conveyor comprises a first outlet and a second outlet such that the first outlet can release at least a portion of the material to the second source, and the inlet of the return conveyor can accept at least a portion of the material from the second outlet. 8. The apparatus of claim 7 , wherein the first source is a storage unit, the second source is a metering device, and wherein the inlet of the supply conveyor accepts a material from a collection hopper; and wherein the collection hopper receives the material from the storage unit; and wherein the outlet of the supply conveyor releases a released portion of material to the metering device; and wherein the metering device delivers the released portion of material to a pump and blender system. 9. The apparatus of claim 8 , wherein the supply conveyor and return conveyor are isolated from each other so that material flow communication occurs only between the supply conveyor and return conveyor at the first end and second end of the conveyor system. 10. The apparatus of claim 9 , wherein the conveyor system has an adjustable angular position. 11. The apparatus of claim 1 , wherein the supply conveyor has a first directional vector with a corresponding first angle and the return conveyor has a second directional vector with a corresponding second angle, wherein the supply conveyor and return conveyor are configured such that at the first end of the conveyor system the second angle is less than or equal to the first angle. 12. A method comprising: transferring a material from a first source to a first end of a supply conveyor; conveying the material to a second end of the supply conveyor at a first rate; releasing a released portion of the material to a second source at a second rate wherein, when the second rate is less than the first rate, buildup occurs of an unreleased material at the second end of the supply conveyor; introducing the unreleased portion to a first end of a return conveyor; conveying the unreleased portion to a second end of the return conveyor; and recirculating the unreleased portion to the first end of the supply conveyor; wherein the second source is a companion conveyor system having a first end, a second end, a supply conveyor and a return conveyor; wherein the supply conveyor has an inlet at the first end, an outlet at the second end and a first carrier system for transferring material from the first end to the second end of the conveyor system; wherein the return conveyor has an inlet at the second end and an outlet at the first end and a second carrier system for transferring material from the second end to the first end of the conveyor system; and wherein the supply conveyor and the return conveyor are in material flow communication such that the inlet of the supply conveyor can accept at least a portion of a material from the outlet of the return conveyor and such that the inlet of the return conveyor can accept at least a portion of the material from the outlet of the supply conveyor. 13. The method of claim 12 , wherein a second portion of the material is introduced to the first end of the return conveyor from the second end of the supply conveyor and the second portion is at least part of the unreleased material. 14. The method of claim 12 , wherein the supply conveyor and return conveyor are isolated from each other so that material flow communication occurs only between said first end of the supply conveyor and the second end of the return conveyor and between the second end of the supply conveyor and the first end of the return conveyor. 15. The method of claim 12 , wherein the supply conveyor has a first directional vector with a corresponding first angle and the return conveyor has a second directional vector with a corresponding second angle, wherein the supply conveyor and return conveyor are configured such that at the first end of the conveyor system the second angle is less than or equal to the first angle. 16. The method of claim 12 , further comprising: transferring the material from one or more storage units to the first source; and wherein the releasing of the released portion of the material from the se