Conveyor system, operating system using conveyor system, and method

What is claimed is: 1. An operating system comprising: a material receiving member including a blender; a high pressure fracturing pump configured to receive hydraulic fracturing fluid from the blender; and a conveyor system including: a head portion; a tail portion; a looped belt having a conveying portion and a retreating portion movable through the conveyor system, each of the conveying portion and the retreating portion having an interior surface and an exterior surface, the exterior surface of the conveying portion configured to convey materials; a conveying portion cover extending from the tail portion to the head portion of the conveyor system, the conveying portion of the belt disposed within the conveying portion cover, the retreating portion of the belt disposed exteriorly of the conveying portion cover from the head portion to the tail portion, the conveying portion cover having a convex sliding surface from the tail portion to the head portion and a tubular shape from the tail portion to the head portion; and a discharge portion; wherein the interior surface of the conveying portion of the belt is slidable along the sliding surface of the conveying portion cover from the tail portion to the head portion of the conveyor system, at least a substantial portion of the interior surface of the conveying portion of the belt contacting the sliding surface of the conveying portion cover, the conveying portion of the belt being nested within the conveying portion cover, and the conveyor system is telescopic; and material carried by the conveying portion of the belt is deposited into the material receiving member. 2. The operating system of claim 1 , wherein the convex sliding surface is curved. 3. The operating system of claim 2 , wherein the convex sliding surface has a cross-sectional shape of an arc of a circle. 4. The operating system of claim 1 , wherein the conveying portion cover has at least a substantially circular cross-section. 5. The operating system of claim 1 , wherein the conveying portion of the belt has a convex cross-section. 6. The operating system of claim 1 , wherein the conveying portion cover includes at least a head end tube telescopically arranged with respect to a tail end tube. 7. The operating system of claim 6 , further comprising a telescopic retreating portion cover, the retreating portion of the belt disposed within the retreating portion cover. 8. The operating system of claim 6 , further comprising a hydraulic cylinder attached to the head end tube, the hydraulic cylinder including a piston arranged to selectively move the head end tube towards and away from the tail end tube. 9. The operating system of claim 1 , wherein the belt and the conveying portion cover are included within a boom of the conveyor system, and further comprising an actuator arranged to selectively angle the boom to a position approximately 45 degrees with respect to a ground surface. 10. The operating system of claim 1 , further comprising a head pulley, a tail pulley, and a motor arranged to drive the tail pulley, wherein the conveying portion of the belt is movable from the tail pulley to the head pulley. 11. The operating system of claim 10 , further comprising a direct drive coupling between the motor and the tail pulley. 12. The operating system of claim 1 , further comprising a head pulley, a tail pulley, and first and second separable pulleys, the conveying portion of the belt movable from the tail pulley to the head pulley and the retreating portion of the belt movable from the head pulley to the tail pulley, and the first and second separable pulleys arranged to engage with the retreating portion of the belt. 13. The operating system of claim 1 , further comprising a swivel base attached to the tail portion of the conveyor system, and a supporting structure, wherein a boom of the conveyor system is pivotal at least 180 degrees with respect to the supporting structure. 14. The operating system of claim 1 , wherein the blender includes a blender tub, and the operating system further includes a hydration system having a tank. 15. The operating system of claim 1 , wherein the material is a bulk solid material for the hydraulic fracturing fluid. 16. A method of conveying materials using the operating system of claim 1 , the method comprising: selectively angling a boom of the conveyor system up to approximately 45 degrees with respect to a ground surface; depositing material onto the conveying portion of the belt of the conveyor system; nesting the conveying portion of the belt and the material into convex sliding surface of the conveying portion cover; and, moving the conveying portion and the material towards the head portion of the conveyor system, wherein the material is retained on the conveying portion due to a cradling action of the convex sliding surface of the conveying portion cover. 17. The method of claim 16 , further comprising telescoping the boom, including telescoping a head end tube with respect to a tail end tube of the conveying portion cover. 18. The method of claim 16 , wherein the conveying portion cover has at least a substantially circular cross-section. 19. A method of conveying materials using a portable conveyor system, the method comprising: arranging the conveyor system at a wellsite; selectively angling a boom of the conveyor system up to approximately 45 degrees with respect to a ground surface; depositing material onto a conveying portion of a conveyor belt of the conveyor system; nesting the conveying portion of the belt and the material into a convex portion of a conveying portion cover; moving the conveying portion and the material towards a head portion of the conveyor system, wherein the material is retained on the conveying portion due to a cradling action of the convex portion of the conveying portion cover; and, transmitting additives from a metering feeder to at least one of a blender and a hydration system using the conveyor system.