An apparatus for processing a substrate includes a mixing nozzle having a mixing space that is shaped as an inverted cone, the mixing nozzle including a first inlet, a second inlet and an outlet installed at the mixing space; a first chemical supply unit connected to the first inlet; a second chemical supply unit connected to the second inlet; and a supply tank connected to the outlet, wherein the first chemical supply unit is configured to supply a first chemical solution to the mixing space through the first inlet, the second chemical supply unit is configured to supply a second chemical solution to the mixing space through the second inlet, and the supply tank is supplied with, through the outlet, a solution mixture that is formed of the first chemical solution and the second chemical solution after being mixed in the mixing space.

The invention relates to an apparatus (2) for mixing powdery baking ingredients with water. The apparatus (2) comprises a mixing chamber (4) which is inclined at a gradient and is preferably vertical, which has in an upper head region (6) at least one opening (8) for powdery baking ingredients falling into the mixing chamber (4) and in which there is arranged at least one nozzle (10) from which water (12) is ejected at a pressure of at least 30 bar from at least one nozzle opening (14). The nozzle opening (14) is directed at a mechanical obstruction (16) within the mixing chamber (4). Water (12) spraying out of the nozzle opening (14), together with the supplied baking ingredients, impacts the obstruction (16) in an impact region (20). Below the mixing chamber (4) there is arranged a container (24) which is provided with a cover (22) and which is connected, in a dough-conveying manner, to a discharge opening (26) of the mixing chamber (4). The apparatus has a suction device (32) for baking ingredient dust from the container (24), which has a suction opening (34) on the container (24), an inlet opening (36) into the mixing chamber (4) and a recycling duct (38) that connects the suction opening (34) to the inlet opening (36). Thus, the suction opening (34) is arranged in the head region (40) of the container (24) and the inlet opening (36) is arranged above the impact region (20) in the mixing chamber (4).

An injector head for delivering particulate material from a feeder source to a receiver is fitted with a plurality of splitter bars extending generally laterally from the sidewalls thereof into the space through which particulate material is fed as it flows into a receiver. Spray nozzles mounted to said sidewalls below said splitter bars spray coating material generally laterally relative to said sidewalls and generally laterally relative to the length of said splitter bars so as to coat particulate material as it passes over and to the sides and ends of said splitter bars.

A chemical dispensing device includes a turbine having a diluent inlet and a diluent outlet; a pump having a chemical inlet and a chemical outlet, wherein the pump is connected with and actuated by rotation of the turbine; a mixing chamber having a mixing inlet and a mixing outlet; wherein the diluent inlet is configured for direct connection with a supply of pressurized diluent; wherein the pump inlet is configured for connection with a supply of chemical concentrate; wherein the diluent outlet and chemical outlet are in fluid communication with the mixing inlet of the mixing chamber. The chemical dispensing device of the present disclosure may further include a backflow preventer separating the diluent outlet from the mixing inlet and being configured to prevent flow of fluid from the mixing chamber to the diluent outlet. An associated method of diluting and dispensing a chemical concentrate is also described.

Methods, processes, and apparatuses for preparing and transporting bitumen. Bitumen may be prilled such that a bitumen product comprising a prill core and a non-stick coating is produced. The non-stick coating may comprise asphaltenes and the prill core may comprise bitumen, deasphalted oil, or both bitumen and deasphalted oil. The resultant non-stick coated prills have reduced adhesion to transportation vessels and other non-stick coated prills at a temperature below an adhesion temperature, facilitating transport.

An atomizer mixing chamber for a seed treater has a body having first and second inlets for receiving first and second treatment fluids. The atomizer mixing chamber has a first stage cup for receiving and combining the first and second treatment fluids to provide a combined fluid, the first stage cup comprising a first set of holes through which the combined fluid flows. The atomizer also has a second stage cup below the first stage cup for receiving the combined fluid from the first stage cup, wherein the second stage cup further mixes the combined fluid to provide a mixed fluid and wherein the second stage cup comprises a second set of holes through which the mixed fluid flows. The atomizer mixing chamber may include a third stage cup below the second stage cup for receiving the mixed fluid and having a third set of holes through which the mixed fluid exits from the atomizer.

A mixing apparatus is configured to efficiently input noodles coated with an additive to a receiving tray, with no need to perform weighing again after the noodles are input to the receiving tray. The mixing apparatus includes at least two hoppers that each house falling noodles and that allows the noodles to fall through rotation of the hoppers. A supply device supplies a sauce to the noodles in the hoppers, and the two hoppers are spaced from one another in the falling direction.

A mixing apparatus is configured to efficiently input noodles coated with an additive to a receiving tray, with no need to perform weighing again after the noodles are input to the receiving tray. The mixing apparatus includes at least two hoppers that each house falling noodles and that allows the noodles to fall through rotation of the hoppers. A supply device supplies a sauce to the noodles in the hoppers, and the two hoppers are spaced from one another in the falling direction.

Providing a mixing apparatus capable of efficiently input noodles coated with an additive to a receiving tray, and having no need to perform weighing again after the noodles are input to the receiving tray.

The mixing apparatus 8 includes: a hopper 30 that houses the falling noodles and that allows noodles to fall while rotating; and a supply device 60 that supplies a sauce to the noodles in the hopper 30, and at least two hopper 30 are provided in a falling direction.

A method for continuously producing a conversion product, in particular starch glue, fried starch, dissolved gelatin or protein glue, wherein a starch-containing and/or protein-containing, preferably powdery starting material, in particular flour, starch powder, cereal grains, coarse cereal meal, gelatin powder or gluten powder, is fed to a mixing chamber (2) and the starting material, preferably powder, descending in the mixing chamber (2) is subjected to a liquid heated to a processing temperature (T.sub.U) of at least 50 C. for converting the starting material into the conversion product, in particular to at least a gelatinization temperature of the starch-containing starting material, a protein-dissolving and/or denaturing temperature of the protein-containing starting material or a frying temperature, in the form of a pressure jet (7) and is thereby conveyed against a baffle (10) preferably formed by an inner wall of the mixing chamber or by an installation in the mixing chamber.