Mixing silo design for dust removal and methods of using the same

I claim: 1. A mixing silo, comprising: a mixing chamber having a top and a bottom, and a mixing chamber outlet located at the bottom of the mixing chamber; an inlet hose connected to an inlet opening, located towards the top of the mixing chamber; an outlet hose connected to an outlet opening, located towards the top of the mixing chamber at a point above the inlet hose and inlet opening; a sieve located towards the top of the mixing chamber, disposed above the inlet opening and below the outlet opening, configured to prevent contact between a particulate mixing material and the top of the mixing chamber and to allow dust therethrough; a dust pipe, a dust pipe inlet located below the sieve, and a dust pipe outlet located above the sieve; a pump system operably connected to the mixing chamber, configured to create a negative pressure region at the top of the mixing chamber and pull dust through the sieve and remove the sieved dust from the top of the mixing chamber via the outlet opening; and an air manifold assembly, located in the mixing chamber towards the bottom, including an air pressure manifold comprising an air nozzle to introduce an air stream into the mixing chamber, and an air manifold cover configured to allow an air stream into the mixing chamber, to prevent contact between the particulate mixing material and the air pressure manifold, and to allow a particulate mixed product material to pass to the mixing chamber outlet. 2. The mixing silo of claim 1 , wherein the inlet hose is flexibly connected to the inlet opening. 3. The mixing silo of claim 1 , wherein the inlet hose is connected to the inlet opening at a downward angle of 35° to 55°. 4. The mixing silo of claim 1 , wherein the inlet hose extends into the mixing chamber and further includes an outlet located below the sieve. 5. The mixing silo of claim 4 , wherein the inlet hose extending into the inlet chamber has a spiral configuration. 6. The mixing silo of claim 1 , wherein the dust pipe is configured to support a portion of the inlet hose that extend into the mixing chamber. 7. The mixing silo of claim 1 , wherein the air pressure manifold includes a plurality of air nozzles. 8. The mixing silo of claim 1 , wherein the air pressure manifold is fixedly attached to the mixing chamber. 9. The mixing silo of claim 1 , wherein the air pressure manifold is rotatably attached to the mixing chamber. 10. The mixing silo of claim 9 , wherein the air pressure manifold is an air blade further including: a blade rotation mechanism; and a blade spinning motor. 11. The mixing silo of claim 1 , wherein each nozzle is adjustable at an angle theta from 0° to 90°, an angle phi from 0° to 360°, or both. 12. The mixing silo of claim 1 , wherein the mixing silo further includes a load cell. 13. The mixing silo of claim 1 , further including a dust collection unit operably connected to the outlet hose. 14. The mixing silo of claim 1 , further including a silo outlet pipe operably connected to the mixing chamber outlet, and a release mechanism located therebetween, wherein the release mechanism is configured to retain a mixed product material in the mixing silo or release the mixed product material into the silo outlet pipe. 15. A process for mixing a particulate mixing material in a mixing silo, the process comprising: introducing the particulate mixing material into a mixing chamber, the mixing chamber including a top and a bottom, and a mixing chamber outlet located at the bottom of the mixing chamber; introducing an air stream into the mixing chamber to mix the particulate mixing material, wherein the introducing is via an air manifold assembly located towards the bottom of the mixing chamber, the air manifold assembly including: an air pressure manifold including a nozzle; and an air manifold cover, configured to allow the air stream into the mixing chamber, to prevent contact between the particulate mixing material and contacting the air pressure manifold, and to allow a particulate mixed product material to pass to the mixing chamber outlet; creating a negative pressure region at the top of the mixing chamber to pull dust into the negative pressure region, wherein the dust passes through a sieve located at the top of the mixing chamber and the sieve is configured to allow the dust to pass but not the particulate mixing material, wherein the mixing silo includes a dust pipe, a dust pipe inlet located below the sieve, and a dust pipe outlet located above the sieve; removing the dust from the silo; and allowing the mixed product material to accumulate in the mixing chamber outlet. 16. The process of claim 15 , further including introducing a plurality of air streams into the mixing chamber, wherein each air stream is independently introduced at the same or different time, or air flow, or air pressure, or direction. 17. The process of claim 16 , further including adjusting at least one of the air flow, air pressure, or direction of the air stream during introducing the air stream. 18. The process of claim 15 , wherein the air manifold assembly is in the form of a movable air blade that moves during at a part or the entirety of introducing the air stream.