The present invention provides a foam supply device in which water is not stirred in a chassis and therefore, resistance in the water pipe can be reduced, and foam can stably be radiated without deteriorating momentum of radiation.

The foam supply device includes a water supply port 11, a water pipe 13 for introducing water from the water supply port 11, a drug supply pipe 14, a drug supply section 15, a gas supply pipe 17, a gas mixing section 19, a stirring section 60, a water pipe discharge port 12 and a radiation pipe 40. The water supply port 11 and the water pipe discharge port 12 are provided in the chassis 10. The water pipe 13, the drug supply pipe 14 and the drug supply section 15 are placed in the chassis 10. The stirring section 60 is placed downstream from the water pipe discharge port 12. Water which is not stirred by a stirring section 60 flows through the water pipe 13 placed in the chassis 10.

Method, system, and apparatus to facilitate mixing of at least one colour to achieve a desired colour consistency to perform one or more activities. Particularly, the present system includes multiple user devices, a cloud server, and a colour mixing dispensing apparatus. In operation, multiple user devices are accessible to a user via a user interface to input data by the user to select at least one colour coding parameter. The cloud server includes at least one memory adapted to store data for the at least one colour coding parameter in a colour database and at least one processor that is adapted to execute processor-executable code. In practice, the colour mixing dispensing apparatus is configured to provide instant colour mixing to the user by receiving a set of instructions from the cloud server via a communication network.

A method and a system are described for mixing liquid chemicals at dynamically changing or static ratios during a given dispense, with extremely high uniformity and repeatability. A mixer includes multiple fluid supply lines including elongate bladders defining a linear flow path and being configured to laterally expand to collect a process fluid and laterally contract to deliver a selected volume of the process fluid to the mixer.

An apparatus (10) for delivering particulate material (50) to a flowing stream of frozen confectionery material (40) to provide a single serving to a consumer, the apparatus comprising: a dispenser for the particulate material; and a dispenser for providing the flowing stream of confectionery material flowing vertically downwards from an outlet (22), the flowing stream having an outer surface; wherein the dispenser for the particulate material comprises a particulate material deposition device (12) for depositing the particulate material at a common particulate deposition location (30), and a plurality of chutes (26), each chute arranged to catch deposited particulate material and redirect it in a substantially horizontal direction to collide with the outer surface of the flowing stream of frozen confectionery, each chute (26) beginning at the common particulate deposition location (30) and spreading out from each other to each deposit the particulates at a different radial location around the flowing stream of frozen confectionery.

An improved system and method for fluidizing dry powder-based additives into downhole well operations utilizes a dried, low-volume air stream and an ejector nozzle in order to disperse the powders into a liquid stream. In an embodiment, the system can be placed on a powder blending trailer in order to convey additives directly from bulk transport bins into a liquid stream, through the use of an atmospheric pressure hydration tank fitted with a cyclone separator to ensure an even dispersal into the liquid stream.

Problem: To supply a device and a method for accurately discharging a fixed amount of a liquid, the liquid containing solid particles, in a state that the solid particles are dispersed in the liquid material. Solution: A discharge device for a liquid material containing solid particles includes a first reservoir, a first air pressure supply pipe, a metering portion having a metering hole, a plunger moving back and forth in the metering hole, a nozzle, a switching valve having a first position and a second position, a plunger driver, and a switching valve driver. The discharge device further includes a second reservoir, a second air pressure supply pipe, a branch portion provided in an upper portion of the metering hole and having a branch flow path, and an opening/closing mechanism that establishes or cuts off communication between the second reservoir and the metering hole. In the discharge device, the liquid material inside the first reservoir can be transferred to the second reservoir, and the liquid material inside the second reservoir can be transferred to the first reservoir. A discharge method is carried out using the discharge device.

An improved system and method for fluidizing dry powder-based additives into downhole well operations utilizes a dried, low-volume air stream and an ejector nozzle in order to disperse the powders into a liquid stream. In an embodiment, the system can be placed on a powder blending trailer in order to convey additives directly from bulk transport bins into a liquid stream, through the use of an atmospheric pressure hydration tank fitted with a cyclone separator to ensure an even dispersal into the liquid stream.

A device and a method for accurately discharging a fixed amount of a liquid, the liquid containing solid particles, in a state that the solid particles are dispersed in the liquid material. The device includes a first reservoir, a first air pressure supply pipe, a metering portion having a metering hole, a plunger moving back and forth in the metering hole, a nozzle, a switching valve having a first position and a second position, a plunger driver, and a switching valve driver. The discharge device further includes a second reservoir, a second air pressure supply pipe, a branch portion provided in an upper portion of the metering hole and having a branch flow path, and an opening/closing mechanism that establishes or cuts off communication between the second reservoir and the metering hole. A discharge method is carried out using the discharge device.

A mixing apparatus, comprising a drive unit (1) with a drive (10) and a shaft (11) which is pivotable about a pivot axis (A) and which is operatively connected to the drive (10), a pivot receptacle (2) which is arranged on the shaft (11), wherein the pivot axis (A) is substantially horizontally aligned, wherein the pivot receptacle (2) comprises a base (20) on which receptacles (21, 22) are provided which extend away from the base (20) and into which holders (3) for containers (7) are insertable.

The disclosure features a system that includes a plurality of material tanks, each of which includes at least one material for forming a chemical composition and includes a first recirculation loop; at least one mixing tank in which the materials from the material tanks are mixed to form a chemical composition, the mixing tank including a second recirculation loop; and at least one holding tank configured to continuously receive the chemical composition from the mixing tank, the holding tank including a third recirculation loop. The system may further include a plurality of fluid flow controller units and be configured to form material and chemical composition flows in an in-process steady state.