A device according to various embodiments for preparing wet grain can include at least a first screw configured to receive wet grain. A second screw receives the wet grain from the first screw. At least one of a compressing element and a dehydrating element is included with at least one of the first screw and the second screw to cause a physical property change to the wet grain.

The present invention relates to an apparatus and a process for subjecting oleaginous vegetable material to a continuous prepressing for extracting at least part of the oil contained in said oleaginous vegetable material and producing a cake comprising an at least partially de-oiled oleaginous vegetable material. The apparatus comprises a mechanical prepress for mechanically compressing said oleaginous vegetable material, wherein the prepress is provided with a cake discharge for discharging the cake to a cooler. The cooler comprising means for subjecting the cake to a downward movement, and means for supplying a coolant gas, preferably air, in a counter-current flow to the downward movement of the cake with the purpose of cooling the cake.

The present invention discloses low cost, on-site, efficient, and compact (stationary or mobile) system for continuous (non-batch operation) conversion of waste to usable products such as sources of energy, fertilizer, etc.

The present invention discloses low cost, on-site, efficient, and compact (stationary or mobile) system for continuous (non-batch operation) conversion of waste to usable products such as sources of energy, fertilizer, etc.

A low speed seed oil expeller press with the capability of extracting oil through a new seed compression design that eliminates the need for filtration, and maintains the captured seed oil at a temperature below 130 degrees F. It has a seed preheating capability and controls the pressure and extraction oil temperature by adjustments of the expeller speed, the head volume and the size of the pressed seed exit orifice in the thorn. The seed oil expeller press eliminates seed rotation within the head volume so as to eliminate crushing, grinding or tearing of the seed by a symmetrical knived press head. The seed oil expeller press regulates seed temperature, seed feed rate, seed pressure, seed rotation and extracted seed oil temperature so as to compensate for the seed size, seed hardness and seed oil content.

A screw press liquid separator includes an elongated housing having an inlet end and a discharge end, a screw cradle in the form of a sieve disposed within the housing and having a bulk material inlet disposed at the inlet end of the housing, at least one section of the screw cradle mechanically coupled to a vibrator motor, a screw formed on a shaft and disposed within the screw cradle, the screw extending from the inlet end of the screw cradle to a discharge end of the screw cradle, a motor rotatably coupled to the shaft, and pair of opposing discharge doors pivotally mounted to the discharge end of the housing and movable between an opened position and a closed position, the discharge doors driven to positions that maintain a substantially constant pressure on bulk material being driven by the screw towards the discharge end of the housing.

A dewatering system is described having an apparatus with an auger drive and a press container pulled away from a collection hopper in a first type of system. An integration of a press with an automated liquid solid separator using recirculation is a second type of system. An integration of a press with an automated liquid solid separator without recirculation and having drainage to a sewer is a third type of system. A conveyor system integration of press with an automated liquid solid separator with recirculation through use of a sump is a fourth type of system. A conveyor system integration of press with an automated liquid solid separator without recirculation and having drainage to a sewer is a fifth type of dewatering system disclosed herein.

A method for operating a device for the dewatering and volume reduction of material to be pressed, more particularly sludge, removed solids or screenings, controls the rotational speed of a screw shaft that expels liquid out of the material to be pressed in a pressing arrangement. The control is based either on detecting a torque applied by a drive motor to the screw shaft or detecting an internal pressure prevailing within the pressing arrangement. According to the invention, a torque characteristic curve can be changed on the basis of the detected internal pressure and/or a pressure characteristic curve can be changed on the basis of the detected torque. Moreover, the invention relates to a device for the dewatering and volume reduction of material to be pressed.

A commercial-scale oil-bearing material expeller press having an oil-bearing material inlet, an oil-bearing material press cake outlet and an oil outlet in a temperature-controlled barrel; said barrel housing a compression screw; said compression screw having a central shaft and a plurality of continuous or discontinuous screw flights wherein there are one or more compression zones along the direction of travel of said oil-bearing materials from said oil-bearing material inlet to said oil-bearing material outlet, wherein said central shaft increases in diameter in said direction of travel; and wherein at least said barrel is adapted to be cooled in a plurality of cooling zones.

A substantially dry product is produced by a process comprising the steps of: removing moisture from a raw material having a first moisture content to produce the substantially dry final product having a final moisture content; (b) advancing the raw material longitudinally along and between at least a first screw and a second screw comprising at least a compression zone and a dehydrating zone which are arranged successively within the first and second screws; and (c) entrapping and removing a predetermined percentage of moisture as the raw material moves through the compression zone and dehydrating zone.