Disclosed is a laminated spiral solid-liquid separator with a torsional pendulum motion, the separator comprising fixed rings, movable rings and a screw shaft, wherein the screw shaft is provided with the fixed rings and the movable rings in a staggered arrangement in a radial direction to form a cavity. The separator further comprises a support rod sleeved in one end of the movable ring. The movable rings connect all the movable rings together to form a linkage by means of one or more kind of linkage mechanisms. The linkage is driven by one or more drive devices to swing about the support rod which is served as the center. Support devices are arranged on two or more positions in the cavity. Both a fixing rod on the fixed rings and the support rod on the movable rings pass through the support devices.

Disclosed is a laminated spiral solid-liquid separator with a torsional pendulum motion, the separator comprising fixed rings, movable rings and a screw shaft, wherein the screw shaft is provided with the fixed rings and the movable rings in a staggered arrangement in a radial direction to form a cavity. The separator further comprises a support rod sleeved in one end of the movable ring. The movable rings connect all the movable rings together to form a linkage by means of one or more kind of linkage mechanisms. The linkage is driven by one or more drive devices to swing about the support rod which is served as the center. Support devices are arranged on two or more positions in the cavity. Both a fixing rod on the fixed rings and the support rod on the movable rings pass through the support devices.

A feed system for a rotary screen separator has a feed housing and a feed lid movably attached to the feed housing. The feed housing has a feed chamber, an inlet opening, and an outlet opening. The feed chamber defines a proximal portion adjacent to the inlet opening and a distal portion at least a portion of which is adjacent to the an outlet opening. A cross-sectional area of at least a portion of the proximal portion is greater than a cross-sectional area of the distal portion. The feed lid is movably attached to the feed housing such that the feed lid covers the outlet opening in a closed position, and does not cover the outlet opening in at least one open position.

A feed system for a rotary screen separator has a feed housing and a feed lid movably attached to the feed housing. The feed housing has a feed chamber, an inlet opening, and an outlet opening. The feed chamber defines a proximal portion adjacent to the inlet opening and a distal portion at least a portion of which is adjacent to the an outlet opening. A cross-sectional area of at least a portion of the proximal portion is greater than a cross-sectional area of the distal portion. The feed lid is movably attached to the feed housing such that the feed lid covers the outlet opening in a closed position, and does not cover the outlet opening in at least one open position.

A system for separating components from a slurry of drilling fluid and drill cuttings on a shaker screen having an upper side and a lower side within a shaker. The system also has a pressure differential generator to pull an effective volume of air through a section of the shaker screen to enhance the flow of drilling fluid through the section of the shaker screen and the separation of drilling fluid from drill cuttings and further maintain an effective flow of drill cuttings off the shaker. A method of separating components of a slurry of drilling fluids and solids has the steps of delivering the slurry to a shaker, flowing the slurry over a first screen and applying an effective amount of vacuum to a first portion of the first screen to remove the drilling fluids from the slurry without stalling the solids on the first screen.

A system for separating components from a slurry of drilling fluid and drill cuttings on a shaker screen having an upper side and a lower side within a shaker. The system also has a pressure differential generator to pull an effective volume of air through a section of the shaker screen to enhance the flow of drilling fluid through the section of the shaker screen and the separation of drilling fluid from drill cuttings and further maintain an effective flow of drill cuttings off the shaker. A method of separating components of a slurry of drilling fluids and solids has the steps of delivering the slurry to a shaker, flowing the slurry over a first screen and applying an effective amount of vacuum to a first portion of the first screen to remove the drilling fluids from the slurry without stalling the solids on the first screen.

A processing system for a slurry material. The system has a vibratory screen disposed atop an open-topped tank. A travel path for a vehicle is disposed directly above the screen and the tank. Slurry material dumped from the vehicle onto the screen is separated at the screen into a particulate-rich stream and a fluid-rich stream. The fluid-rich stream may be pumped to a cleaner so that it may be stored and re-used as drilling fluid. The screen may be a conveyor which removes the particulate-rich stream from above the tank.

A processing system for a slurry material. The system has a vibratory screen disposed atop an open-topped tank. A travel path for a vehicle is disposed directly above the screen and the tank. Slurry material dumped from the vehicle onto the screen is separated at the screen into a particulate-rich stream and a fluid-rich stream. The fluid-rich stream may be pumped to a cleaner so that it may be stored and re-used as drilling fluid. The screen may be a conveyor which removes the particulate-rich stream from above the tank.

A system for filtering and recirculating a wash fluid associated with a piece of equipment. An outlet line extends from a drain location of the piece of equipment for communicating the wash fluid from the equipment to a first stage particulate removal filter. A further conduit extends from an outlet of the first stage filter for communicating the wash fluid to a first tank. A second stage filter is in communication with a first outlet extending from the first tank for continuously redirecting a subset portion of the fluid through the second stage filter. A return conduit extends from an outlet side of the second stage filter which is communicated with a second outlet extending from the first tank at a rejoining location for redirecting a recombined fluid back to an intake line for redelivery to the piece of equipment.

A system for filtering and recirculating a wash fluid associated with a piece of equipment. An outlet line extends from a drain location of the piece of equipment for communicating the wash fluid from the equipment to a first stage particulate removal filter. A further conduit extends from an outlet of the first stage filter for communicating the wash fluid to a first tank. A second stage filter is in communication with a first outlet extending from the first tank for continuously redirecting a subset portion of the fluid through the second stage filter. A return conduit extends from an outlet side of the second stage filter which is communicated with a second outlet extending from the first tank at a rejoining location for redirecting a recombined fluid back to an intake line for redelivery to the piece of equipment.