The invention discloses a measurement apparatus for measuring a volume of a desired solid component in a sample volume of a solid-liquid slurry. The sample volume of the slurry is received into a receptacle and screened to separate out the desired solid component from a remainder of the slurry, whereby the solid component is retained in the receptacle to form a bed therein and the remainder is exhausted. The height of the bed is subsequently measured by a laser being adapted to emit a laser beam into the receptacle, thereby enabling a determination of a volume and/or mass of the solid component retained in the receptacle. The invention further discloses a control system for a leaching plant utilising the measurement apparatus.

An aquatic particle sampling and collection apparatus comprising a tube within a tube cylindrical collection system wherein an inner tube is housed within an outer tube wherein the outer tube has a front end that is flared in a frustum shape to collect water. The inner tube defines an open chamber lined with a net or other collection apparatus which concludes with a conical cod end. An axial flow pump is situated within the collection system to facilitate the movement of water through the system thereby drawing particles in to be collected. The apparatus is paired with a subsea vehicle that allows for controlled collection and sampling. In various embodiments, the apparatus can be used to collect both bio particles such as plankton and non-bio particles such as plastics from the ocean. Where sampling is desired, the apparatus may include a disk after the conical cod end upon which the samples are collected.

Systems, separators and methods separate one or more solids from a fluid and utilize an automated pressure differential device to improve separation of the one or more solids and the fluid. The systems and methods comprise at least a pressure differential system adjacent a screen in a shaker for separating one or more solids from a fluid, the pressure differential system adapted to provide a pressure differential adjacent the screen in the shaker, a monitoring tool coupled to an actuated arm adjacent the shaker, the monitoring tool adapted to monitor the one or more solids and the fluid adjacent the screen in the shaker, and a controller in electrical communication with the pressure differential system, the monitoring tool and the actuated arm, wherein the controller adapted to control the pressure differential based on the monitoring of the one or more solids and the fluid adjacent the screen of the shaker.

A pathologic staging compression device prepares a biological sample for pathologic staging by compressing the sample to remove liquid fat from the sample. In one embodiment, the apparatus preferably includes a compression tube, a removable drainage planum to hold the compression tube, a fat containment and drainage system, a gauge to monitor the extrusion force, use of hydraulic pressure to generation the extrusion force for sample compression, and ejection of the compressed sample after the compression tube has been removed from the drainage planum. In another embodiment, the apparatus includes an integrated riser assembly to stabilize and align the compression tube.

The present invention relates to a method for detection of air-water interface flux of organic contaminants, which passively and continuously collects contaminants at consecutive points close to a sea surface microlayer, acquires the freely dissolved concentration at the consecutive points of the air and water body close to a water body surface microlayer, and obtains the air-water interface flux of the contaminants through fitting a self-developed model, wherein the consecutive points include a plurality of sampling points along a height direction and a plurality of sampling points along a depth direction. The present invention sufficiently considers the influences of the water body surface microlayer on air-water body exchange, collects the contaminants at the consecutive points close to the sea surface microlayer through a passive sampling method, acquires the freely dissolved concentration at the consecutive points of the air and water body close to a water body surface microlayer, and obtains the air-water interface flux of the related contaminants. The present invention can be applied to determine the air-water body interface flux of organic contaminants.

A sampling method using a sampling device (2) comprising a container (5) comprising a body (6) consisting of a soft pouch, and a lid (30), in which at least one among the container (5) and the lid (30) is provided with a discharging member (40) suitable for, in an open state, discharging at least one part of the gases contained in the internal space (7) of the body (6) of the container (5), wherein the sampling method comprises the steps consisting in:collecting a biological material in the body (6) of the container (5), and assembling the lid (30) on the neck (10) of the container (5),and placing an internal space (7) of the body (6) of the container (5) under anaerobic conditions by placing the discharging member (40) in the open state, by compressing the body (6) of the container (5) and by placing the discharging member (40) in a closed state.

A device and method for recovering a metal-bearing solution from a leaching system is provided. The method includes collecting, using the collector of a solution sampling device, a metal-bearing solution from a leaching system, storing, using the storage reservoir of the solution sampling device, the metal-bearing solution, pressurizing, using an air pressure line of the solution sampling device, the storage reservoir, and discharging, using a solution sampling line of the solution sampling device, the metal-bearing solution from the storage reservoir.

An inline filter housing with a biodegradable, hydrophilic material that operates in conjunction with a field sampling apparatus to both concentrate field sampled environmental DNA particles from water samples and to automatically preserve the captured DNA via desiccation, thus avoiding filter membrane transfer steps, chemicals or cold storage preservation requirements. The hydrophilic filter housing is capable of rapidly preserving the field sampled environmental DNA captured on the filter membrane at ambient field temperatures.

A vibrating platform for the deploying of passive sampling devices in sediments and other media to be sampled. The vibrating platform can greatly enhance the rate of mass transfer of analytes, such as polycyclic aromatic hydrocarbons and polychlorinated biphenyls, into passive sampler material by disrupting the formation of a depletion layer in proximity of the passive sampler material.

The test device is provided with a testing means for testing an added extraction solution utilizing immunochromatography or nucleic acid chromatography, an extraction solution container, and a tubular guiding member having an extraction solution inflow port communicating with the extraction container in a sealed manner at one end side and having an extraction solution outflow port at the other end side. The guiding member is configured so as to have inside the tube a rod-shaped extraction solution guide having capillary action and having one end at the extraction solution outflow port side able to contact the testing means and so that the extraction solution absorbed from the extraction solution inflow port side at the extraction solution guide moves by capillary action through the inside of the extraction solution guide and is added to the testing means through the one end of the extraction solution guide contacting the testing means.