A portable microfluidic mixer system includes a blend application to issue blend instructions, and a microfluidic mixer device. The microfluidic mixer device includes a housing, microfluidic pumps and valves within the device housing, a microfluidic dispenser, a microfluidic mixer chip, and a mix controller. The microfluidic mixer chip receives and meters microfluidic amounts of one or more fluids. The mix controller electronically communicates with the blend application to receives blend application blend instructions. The microfluidic mixer device includes fluid pathways for fluid communication between one or more fluid canisters and the microfluidic mixer chip, and between the microfluidic mixer chip and the microfluidic dispenser. The mix controller controls the microfluidic pumps and the microfluidic valves, to control a system pressure within the microfluidic mixer device, for the delivery of the one or more fluids to the microfluidic mixer chip, and to dispense a microfluidic mixture from the microfluidic dispenser.

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.

A device for producing nanoparticles includes: a first connector comprising a first supply tube fitting member, a second supply tube fitting member, and a first discharge tube fitting member; a first tube having one side connected to the first supply tube fitting member; a second tube having one side connected to the second supply tube fitting member; a first conduit having one side connected to the first discharge tube fitting member; a first supply connected to another side of the first tube to supply a first material to the first conduit; and a second supply connected to another side of the second tube to supply a second material to the first conduit.

A removable cartridge for use with a liquid diffusion device is provided. The removable cartridge includes a cartridge housing defining an internal housing cavity, partially filled with a liquid to be diffused, and a diffusion head positioned within the internal housing cavity with a venturi device for generating diffused liquid from the liquid contained in the internal housing cavity. The diffusion head defines at least a portion of a gas supply conduit that extends from a bottom end of the removable cartridge to the venturi device through the liquid to be diffused to enable the venturi device to be supplied with pressurized gas from an external source via the bottom end of the removable cartridge.

Disclosed is an automatic ink color blending apparatus, which comprises an apparatus cabinet (1) with a carrying platform (11), an ink bucket moving platform (2) provided on the carrying platform, the ink bucket moving platform including a moving guide rail (21), a weighing device (22) and an ink bucket (23), and wherein the ink bucket is disposed on the weighing device,the weighing device is provided on the moving guide rail and moves along the moving guide rail, an ink supply tank (3) arranged above the ink bucket moving platform,and wherein the ink supply tank includes a plurality of ink supply devices (31), each of which provides inks of different chromaticity and a control terminal (4) provided on the carrying platform, which is electrically connected to the ink supply tank, the moving guide rail and the weighing device respectively, for obtaining target chromaticity information, and generating control information of ink selection to select one or several ink supply devices to inject the corresponding chromaticity ink into the ink bucket sucessively, wherein the control information of ink selection includes selection information of an ink device and information of the amount of ink to be injected.

This disclosure features methods of forming chemical compositions. The method includes (1) mixing a plurality of continuous material flows in a mixing tank to form a chemical composition, each continuous material flow including at least one component of the composition; and (2) moving a continuous flow of the chemical composition to a packaging station downstream of the mixing tank. The mixing and moving steps are performed continuously. This disclosure also features systems that can be used to perform such methods.

A liquid dispensing and vending apparatus comprises filling module(s), user container holder(s), positioning mechanism(s) and controller module(s). The filling module(s) comprise: machine container(s) configured to hold liquid(s), nozzle(s) configured to dispense liquid(s) to user container(s), and measuring pump module(s) configured to pump a measured amount of liquid(s) from machine container(s) to nozzle(s). The user container holder(s) are configured to hold user container(s). Positioning mechanism(s) align user container holder(s) with filling module(s). Controller module(s) execute production instructions causing liquid formulations to be dispensed into user container(s).

This disclosure features methods of forming chemical compositions. The method includes (1) mixing a plurality of continuous material flows in a mixing tank to form a chemical composition, each continuous material flow including at least one component of the composition; and (2) moving a continuous flow of the chemical composition to a packaging station downstream of the mixing tank. The mixing and moving steps are performed continuously. This disclosure also features systems that can be used to perform such methods.

Station (10) for internally and externally storing, collecting and recirculating a fluid substance, said station (10) comprising a tank (11) and a recirculation circuit (14) of the fluid substance contained in said tank (10). The circuit (14) is provided with a first end associated with a lower supply opening (12) and a second end associated with an upper loading opening (13); the circuit (14) being provided with a pump (15) and a first valve (16) associable with an external tank (17) through a loading conduit (18), the valve (16) being configurable for selectively defining the conditions of recirculation of the fluid substance contained in said tank (11) from the lower opening (12) to the upper opening (13) isolating said external tank (17), and loading the fluid substance from said external tank (17) to said tank (11) isolating the lower supply opening (12) of said tank (11). The recirculation circuit (14) comprises a second valve (19) being configurable for selectively defining the conditions of advancement of the fluid substance coming from the first valve (16) along the recirculation circuit (14) towards the upper opening (13) and diverting the fluid substance coming from the first valve (16) of the recirculation circuit (14) towards the external tank (17) through a return duct (20).

A removable cartridge for use with a liquid diffusion device is provided. The removable cartridge includes a cartridge housing defining an internal housing cavity, partially filled with a liquid to be diffused, and a diffusion head positioned within the internal housing cavity with a venturi device for generating diffused liquid from the liquid contained in the internal housing cavity. The diffusion head defines at least a portion of a gas supply conduit that extends from a bottom end of the removable cartridge to the venturi device through the liquid to be diffused to enable the venturi device to be supplied with pressurized gas from an external source via the bottom end of the removable cartridge.