A system protects an outlet of a pneumatic conveyor. The outlet has a horizontal section. The system comprises a deflector for protecting the horizontal section, and sets of stanchions therefor respectively attached to clamp assemblies mounted on the horizontal section. The deflector comprises angled walls, a plurality of crossbeams interconnecting the angled walls for reinforcing the deflector, and an end flange. Each stanchion has a foot. Each clamp assembly comprises two equal halves, fasteners joining together the equal halves, and a flange for each equal half perpendicular thereto. The system further comprises fasteners each attaching one foot to one flange, respectively.

A seeding system includes a storage tank operable to store a plurality of seeds and a dispersion unit configured to disperse some of the plurality of seeds amongst a plurality of conduits. The dispersion unit includes a sensor. A meter is operable to transfer the some of the plurality of seeds from the storage tank to the dispersion unit. The sensor is operable to produce a signal to control the transfer from the storage tank to the dispersion unit.

A seeding system includes a storage tank operable to store a plurality of seeds and a dispersion unit configured to disperse some of the plurality of seeds amongst a plurality of conduits. The dispersion unit includes a sensor. A meter is operable to transfer the some of the plurality of seeds from the storage tank to the dispersion unit. The sensor is operable to produce a signal to control the transfer from the storage tank to the dispersion unit.

A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators.

A system for replenishing the supply of a particulate agricultural product in the tank of an air cart. A mixture of air and product comes out of a venturi delivery system and enters in a multiplicity of inlet hoses. Then the product enters into inlet tubes of various lengths and release angles from which product particles are gently spread strategically forming a pile that is more or less horizontal to ensure even feeding of meters during dispensing operations. Then the air exits through one or more fine screens to avoid product escaping as well and is conveyed through the exhaust hoses until reaching an air diffuser. The air diffuser has a series of varying size holes or louvers at the bottom so the air can come out at a uniform low velocity which minimizes any discomfort to nearby operators.

Material is removed from a storage silo that has a conveyor outlet, a system for supporting the outlet within the silo comprising removable legs mounted in deployed positions, and a sweep comprising bumpers. The material is extracted until one leg is accessible out of the material, which is then removed from the deployed position thereof. The sweep is then operated to continue extracting more material until one bumper thereof bumps into another of the deployed legs. The sweep is then stopped, and that other leg is also removed from the deployed position thereof. This sequence of operating and stopping the sweep, and removing each deployed leg, is continued for each of the deployed legs until all of the legs are removed from the deployed positions. Each removed leg may be placed onto the supporting system in a stored position thereof. The sweep is then operated to continue extracting more material.

A system and method for loading material from a converter bed, such as that in a converter of an acid plant, is provided. The system, may include a vacuum source; a dust collector connected to the vacuum source by a first vacuum hose; a cyclone operatively connected to the vacuum source through the dust collector, wherein the cyclone may be connected to the dust collector by a second vacuum hose; a drop-out hopper operatively attached to the cyclone by a valve, such as an air actuated valve, wherein the drop-out hopper includes a first feed hose; and one or more material storage containers operatively associated with the cyclone via a second feed hose. The method of loading material into a converter bed may include providing a system for loading the material in the converter bed; setting up the system; and loading the material into the converter bed.

A system and method for loading material from a converter bed, such as that in a converter of an acid plant, is provided. The system, may include a vacuum source; a dust collector connected to the vacuum source by a first vacuum hose; a cyclone operatively connected to the vacuum source through the dust collector, wherein the cyclone may be connected to the dust collector by a second vacuum hose; a drop-out hopper operatively attached to the cyclone by a valve, such as an air actuated valve, wherein the drop-out hopper includes a first feed hose; and one or more material storage containers operatively associated with the cyclone via a second feed hose. The method of loading material into a converter bed may include providing a system for loading the material in the converter bed; setting up the system; and loading the material into the converter bed.

Material is removed from a storage silo that has a conveyor outlet, a system for supporting the outlet within the silo comprising removable legs mounted in deployed positions, and a sweep comprising bumpers. The material is extracted until one leg is accessible out of the material, which is then removed from the deployed position thereof. The sweep is then operated to continue extracting more material until one bumper thereof bumps into another of the deployed legs. The sweep is then stopped, and that other leg is also removed from the deployed position thereof. This sequence of operating and stopping the sweep, and removing each deployed leg, is continued for each of the deployed legs until all of the legs are removed from the deployed positions. Each removed leg may be placed onto the supporting system in a stored position thereof. The sweep is then operated to continue extracting more material.

Portable wet drilling waste treatment. In one example embodiment, a method for portable wet drilling waste treatment may include transporting a transportable frame, maneuvering an open end of a waste conduit, vacuuming air and the wet drilling waste, using a motor-driven vacuum, into the open end of the waste conduit, through the waste conduit, and into a cyclonic separator, separating the wet drilling waste from the air using the cyclonic separator, using a waste auger to transport the wet drilling waste, using a treatment material auger to transport a treatment material, operating the waste auger and the treatment material auger at coordinated rates to transport an effective ratio of the wet drilling waste to the treatment material, using a mixing auger to simultaneously transport the wet drilling waste and the treatment material, and operating the mixing auger at an effective rate resulting in a solidified treated material.