An assembly and method for gravitationally separating gold from particles, and specifically for separating small components of gold, less than 1 millimeter from small particles. A series of sieves having graduated mesh sizes, and arranged in a sequential, stacked configuration sieves the aggregate of large particles and larger components of gold. The remaining small particles and smaller components of gold fall into a container. A pressurized column of fluid is forced into the container. The fluid has sufficient flow velocity to suspend the lighter small particles, but insufficient flow velocity to support the denser, high specific gravity gold. Gold has a large specific gravity relative to the fluid and particles. Gravity causes the gold to falls into a transparent collection conduit. Manipulation of valves enables gold to redirect to a collection bin. Fluid flow is shut, enabling small particles to be flushed out through gravitational forces and excess fluid momentum.

A sieving device is described. The sieving device includes a sieve surface attached to a sieve rim. A set of openings is formed in the sieve surface so as to define a set of pathways extending through the sieve surface. The set of opening are defined by a length dimension that is greater than a width dimension. When the sieve surface is submerged in a liquid, a first pupa having a first cephalothorax width that is less than the width dimension is free to move through any one of the set of openings, and a second pupa having a second cephalothorax width that is greater than the width dimension is prevented from moving through the set of openings.

A drainage system for drying frac sand without heat comprises multiple layers through which liquid passes to dewater sand resting on the drainage system. At the bottom of the drainage system, perforated collection pipes, at least partially surrounded by rocks, collect the liquid and carry it to a collection pond for reuse. A cellular confinement layer comprises sections of panels which, upon expansion, have cells filled with rocks. A woven monofilament geotextile fabric layer comprising woven monofilament geotextile fabric sheets sewn together has sized openings which allow fluid, but prevent sand from passing through the openings. The top layer comprises perforated sheets of high density polyethylene welded together. A watertight liner sits below the perforated collection pipes and below the cellular confinement layer. Protective layers above and below the watertight liner prevent rocks from damaging the watertight liner.

Process to produce integer glandular trichomes from resin rich plants, comprising the steps of dislodging the integer glandular trichomes from the plants by the means of a pressurized cold water jet, and sieving the resulting water flow across a series of sieving screens being in a progressively decreasing hole size order.

Process to produce integer glandular trichomes from resin rich plants, comprising the steps of dislodging the integer glandular trichomes from the plants by the means of a pressurized cold water jet, and sieving the resulting water flow across a series of sieving screens being in a progressively decreasing hole size order.

A fluidic processor device and a wafer including the same, the device including a nanofluidic separator chip including a nanoDLD array, a housing for housing the chip including a top plate disposed on a topside of the chip, a bottom plate disposed on a backside of the chip and fastened to the top plate, and a spacer disposed between the chip and the bottom plate to create a clearance between the chip and the bottom plate for forming a drain space on the backside of the chip.

A fluidic processor device and a wafer including the same, the device including a nanofluidic separator chip including a nanoDLD array, a housing for housing the chip including a top plate disposed on a topside of the chip, a bottom plate disposed on a backside of the chip and fastened to the top plate, and a spacer disposed between the chip and the bottom plate to create a clearance between the chip and the bottom plate for forming a drain space on the backside of the chip.

The present invention relates to an environmentally-friendly biochemical composition for use as an additive into an aqueous medium in order to increase the process efficiency and resulting grade in all gravimetric and magnetic wet ore concentration and classification methods that essentially require the use of water, in the mining industry. The invention particularly relates to a biochemical liquid concentrate composition for use as an additive into the existing process or feed water, and a method of use thereof, comprising a fermentation supernatant obtained from the culture of Saccharomyces cerevisiae, one or more surfactants selected from the group consisting of non-ionic surfactants and anionic surfactants, preferably hydrogen peroxide or chlorine dioxide, and urea-based or other suitable preservatives, which increases the process efficiency and grade recovery, without requiring an additional facility investment, in said ore beneficiation processes.

The present invention relates to an environmentally-friendly biochemical composition for use as an additive into an aqueous medium in order to increase the process efficiency and resulting grade in all gravimetric and magnetic wet ore concentration and classification methods that essentially require the use of water, in the mining industry. The invention particularly relates to a biochemical liquid concentrate composition for use as an additive into the existing process or feed water, and a method of use thereof, comprising a fermentation supernatant obtained from the culture of Saccharomyces cerevisiae, one or more surfactants selected from the group consisting of non-ionic surfactants and anionic surfactants, preferably hydrogen peroxide or chlorine dioxide, and urea-based or other suitable preservatives, which increases the process efficiency and grade recovery, without requiring an additional facility investment, in said ore beneficiation processes.

A fluidic processor device and a wafer including the same, the device including a nanofluidic separator chip including a nanoDLD array, a housing for housing the chip including a top plate disposed on a topside of the chip, a bottom plate disposed on a backside of the chip and fastened to the top plate, and a spacer disposed between the chip and the bottom plate to create a clearance between the chip and the bottom plate for forming a drain space on the backside of the chip.