Ambient air drying of sludge

What is claimed is: 1. A system for reducing moisture content of a wet waste product, the system comprising: a drying surface; a dispenser configured to deposit the wet waste product onto the drying surface; an air moving device (AMD) configured to induce a flow of ambient air over the wet waste product on the drying surface to produce a dried waste product from the wet waste product; a collection area configured to transport the dried waste product away from the drying surface; and an agitator configured to move the dried waste product from the drying surface to the collection area after the dried waste product has been dried to have a predetermined moisture content. 2. The system of claim 1 , wherein: the drying surface is substantially impermeable; and/or the drying surface is a rigid surface and/or a non-deformable surface; and/or the drying surface comprises concrete. 3. The system of claim 1 , comprising an enclosure that is arranged to cover and substantially fully enclose an area around and including the drying surface and the collection area; wherein the enclosure is configured to prevent re-wetting of the dried waste product by precipitation and to channel the flow of ambient air from the AMD over the wet waste product on the drying surface. 4. The system of claim 3 , wherein the AMD is one or more fans configured to draw in the flow of ambient air from outside of the enclosure to dry the wet waste product via evaporation. 5. The system of claim 4 , comprising dividers arranged within the enclosure to channel a majority of the flow of ambient air over the wet waste product on the drying surface. 6. The system of claim 1 , wherein the dispenser comprises an extruder configured to dispense the wet waste product onto the drying surface. 7. The system of claim 6 , wherein the extruder is attached to a moveable gantry configured to move the extruder over the drying surface to dispense the wet waste product over some or all of the drying surface. 8. The system of claim 7 , wherein the gantry is a track-mounted and/or wheeled device that comprises a first agitator and/or a second agitator. 9. The system of claim 8 , wherein: the first agitator is movably and/or pivotably attached to the gantry, for extension of the first agitator in a direction of the drying surface; the gantry is configured to lower the first agitator to a prescribed height corresponding to a prescribed thickness of the wet waste product on the drying surface and to move along the drying surface after and/or as the wet waste product is extruded onto the drying surface to form the wet waste product on the drying surface at the prescribed thickness; the prescribed thickness is less than or equal to about 0.5 inches, such that the wet waste product dries in a convex shape with a center thereof elevated from the drying surface to allow air circulation both above and below the center of the wet waste product during drying; and after the dried waste product having the predetermined moisture content has been produced by the flow of ambient air, the gantry is configured to: lower the second agitator in contact with the drying surface and to move along the drying surface to accumulate the dried waste product; and/or lower the first agitator adjacent to the drying surface to scrape the dried waste product off of the drying surface and into the collection area. 10. The system of claim 9 , wherein the collection area comprises a trough at a height below the drying surface. 11. The system of claim 10 , comprising a transport in a form of a stiffened centerless auger within the trough, the transport being configured to convey the dried waste product substantially perpendicularly to a direction of travel of the gantry along the drying surface. 12. The system of claim 1 , comprising: one or more sensors; and a controller configured to communicate with the one or more sensors to control a duration of drying of the wet waste product on the drying surface before being transported to the collection area. 13. The system of claim 12 , wherein the one or more sensors comprise a temperature sensor, which is configured to measure a temperature of the flow of ambient air at and/or through the AMD, and/or a moisture sensor, which is configured to measure a humidity or moisture content of the flow of ambient air at and/or through the AMD. 14. The system of claim 13 , comprising an enclosure that covers the drying surface and the collection area, wherein the one or more sensors comprise: an interior temperature sensor, which is configured to measure a temperature of air inside the enclosure, and an exterior temperature sensor, which is configured to measure a temperature of the ambient air outside the enclosure; and/or an interior moisture sensor, which is configured to measure a humidity or moisture content of air inside the enclosure, and an exterior moisture sensor, which is configured to measure a humidity or moisture content of the ambient air outside the enclosure; wherein the controller is configured to compare the temperature and/or humidity of the air inside the enclosure with the temperature and/or humidity of the air outside the enclosure to calculate the duration of the drying time for the wet waste product after having been dispensed on the drying surfaces. 15. A method for reducing moisture content of a wet waste product, the method comprising: providing a drying surface; depositing, using a dispenser, the wet waste product onto the drying surface; inducing, using an air moving device (AMD), a flow of ambient air over the wet waste product on the drying surface to produce a dried waste product having a predetermined moisture content from the wet waste product; moving, using an agitator, the dried waste product from the drying surface to a collection area after the dried waste product has been determined to have the predetermined moisture content; and transporting the waste product out of the collection area. 16. The method of claim 15 , wherein: the drying surface is substantially impermeable; and/or the drying surface is a rigid surface and/or a non-deformable surface; and/or the drying surface comprises concrete. 17. The method of claim 15 , comprising arranging an enclosure to cover and substantially fully enclose an area around and including the drying surface and the collection area; wherein the enclosure prevents re-wetting of the dried waste product by precipitation and channels the flow of ambient air from the AMD over the dried waste product on the drying surface. 18. The method of claim 17 , wherein the AMD is one or more fans that draw in the flow of ambient air from outside of the enclosure to dry the wet waste product via evaporation. 19. The method of claim 18 , comprising arranging dividers within the enclosure to channel a majority of the flow of ambient air over the wet waste product on the drying surface. 20. The method of claim 15 , wherein the dispenser comprises an extruder, the method comprising dispensing, using the extruder, the wet waste product onto the drying surface. 21. The method of claim 20 , wherein the extruder is attached to a moveable gantry, the method comprising moving, using the gantry, the extruder over the drying surface to dispense the wet waste product over some or all of the drying surface. 22. The method of claim 21 , wherein the gantry is a track-mounted and/or wheeled device that comprises a first agitator and/or a second agitator.