Disclosed are novel solutions in which a preexisting sediment capping system is integrated with improvements such as a cap ingredient processing and delivery apparatus, cap processing method and novel compositional cap product, whereby a hazardous site is remediated by delivering at least one novel cap composition layer over the contaminated subaqueous waterway or terrestrial substrate floor. One embodiment includes a powdered activated carbon (PAC) based cap layer produced by the system and methodology disclosed, the cap layer ingredients comprising predetermined ratio amounts of dry PAC and dry powdered 2-Hydroxypropyl guar gum (HGG) used as a safe and effective delivery ingredient, blended in a cap processing and delivering apparatus with a dewatered sand semi-slurry, the processed resulting capping composition being delivered in a manner such that a novel PAC cap layer is provided to a cap placement area in need of remediation.

A device for continuously mixing a first powder and a second powder, includes a first metering device for continuously metering the first powder, and a second metering device for continuously metering the second powder, a mixer designed to mix the first powder metered by the first metering device and the second powder metered by the second metering device so as to supply a continuous stream of powder mixed according to a determined ratio, and a sampling device designed to sample a fraction of the stream of mixed powder.

A device for continuously mixing a first powder and a second powder, includes a first metering device for continuously metering the first powder, and a second metering device for continuously metering the second powder, a mixer designed to mix the first powder metered by the first metering device and the second powder metered by the second metering device so as to supply a continuous stream of powder mixed according to a determined ratio, and a sampling device designed to sample a fraction of the stream of mixed powder.

A delay system for a stirring machine includes a plurality of vertical stirring augers, supported to a cross tube, with each auger having a tilt switch. A gear motor is connected to the cross tube and moves the cross tube forwardly around a bin. A delay assembly is connected to the tilt switches and the gear motor. The delay assembly shuts off the gear motor when the stirring augers are vertically displaced and starts the gear motor after a time delay once the stirring augers return to a vertical position.

The invention relates to an apparatus, system, and method for the bulk blending of dry component materials to produce a blended product mix. The apparatus utilizes a special construction that allows multiple bulk dry materials to be added simultaneously to create a blended mix compliant with a desired or specified mixture of cement components. The system is automated by use of a controller, and provides real-time data to a user as to rates and amounts of materials blended and delivered over time.

This invention pertains to a process for manufacturing an iron-based nutrient composition comprising at least the steps of supplying an iron source and a phosphate source containing at least one polyphosphate, further comprising a mixing step of the iron source with the phosphate source. The iron source and phosphate sources being in their solid phase, the mixing of the two being solid-solid mixing, leading to the obtaining of a water-soluble, iron-based solid nutrient composition.

In an apparatus for feeding animals including one or more feed dispensing containers from which the animals can take feed which are fed by supply ducts from a supply a device is provided which includes a feed supply duct portion arranged such that the feed falls through the feed supply duct portion under gravity. A drive member is mounted at the duct and includes a plurality of paddle blades of a wheel mounted for rotation about an axis of the wheel such that falling feed in the duct acts to drive the blades to rotate the wheel about the axis and a driven component driven by the wheel. The driven component is in most cases a dispenser for feeding a liquid or particulate additive material from a supply cartridge, which is mounted on a common housing forming the duct and containing the wheel, to an injection opening on the bottom of the housing for addition to the feed passing through the duct portion.

The present disclosure can implement a high energy density electrode by quantifying and standardizing a degree of fiberization of powder for an electrode used in a dry electrode. The powder includes an active material; a solid electrolyte; a conductive material; and a fibrous binder.

The present disclosure can implement a high energy density electrode by quantifying and standardizing a degree of fiberization of powder for an electrode used in a dry electrode. The powder includes an active material; a solid electrolyte; a conductive material; and a fibrous binder.

The invention relates to a mixing conveyor for an injection molding system, in particular a thixomolding injection molding system, or the like for conveying a granule-powder mixture, comprising the following: a mixing container (10), with at least one feed (11, 13) for granular material (12) and/or powdery material (14); and at least one mixing device (13a, 13b, 13c, 13d) which is designed to mix the granular material (12) and the powdery material (14) to form a granule-powder mixture; and a mixing container outlet (15), which can be arranged in particular in the vicinity of a melting area (51) of the injection molding system (50) or the like, and is designed to discharge the granule-powder mixture or to feed it to the injection molding system (50) or the like for at least partial melting.