A apparatus for dispersing carbon nanotubes according to the present invention includes: a solution receiving part including a solution receiving body portion, a flow pipe portion formed by passing through an inside of the solution receiving body portion, and through which a CNT solution flows, and a spiral guide portion formed on an inner wall of the flow pipe portion and configured to guide the CNT solution to spirally flow; and an ultrasonic vibrator part mounted on an outer wall of the solution receiving body portion, and configured to provide ultrasonic waves to the CNT solution, wherein the spiral guide portion has a right spiral type and a left spiral type alternately formed on the inner wall of the flow pipe portion so that a rotation direction is changed twice or more.

Disclosed is a water dispensing machine and a carbonated beverage dispensing system which facilitates a combination of carbon dioxide with water in a configuration which provides a smaller footprint and reduces or eliminates dependency on remotely located carbon dioxide tanks and flavoring systems. The system may be configured to produce only carbonated water or to allow the user to select carbonated water or chilled water, and, alternatively, ambient, unchilled water. A carbonator of the system introduces carbon dioxide to a chilled water stream using an injector with slots. This inline, on demand carbonation system provides benefits over carbonator tank systems which carbonate large volumes of carbonated water in bulk.

A test device having a micro flow channel including a reaction part where a reactant that is reactive to a tested chemical dispersed in a tested fluid is fixed, and at least one actuator for actuating the tested fluid to move in at least one of two opposite sides of the micro flow channel so as to homogenize a density distribution of the tested chemical in the tested fluid. The tested fluid is sent in the micro flow channel a plurality of times.

The present disclosure relates to a process for producing homogeneous solutions comprising dissolved polyacrylonitrile-based polymer, and a system suitable therefor. The homogeneous polymer solutions produced by the process described herein may be used for producing carbon fiber, typically carbon fiber used in manufacturing composite materials.

Disclosed is a beverage dispensing machine and a gas infused beverage dispensing system which facilitates combination of gas with in a configuration which provides a smaller footprint and provides gas infusion of a beverage on demand. The system may be configured to produce only gas infused beverage or to allow the user to select gas infused beverage or chilled beverage, and, alternatively, ambient, unchilled beverage. A gas infuser of the system introduces gas to a chilled beverage stream using an injector with slots. This inline, on-demand gas infusion system provides benefits over infusion tank systems that gas infuse a relatively large volume of beverage in bulk.

A biological fluid sample analysis cartridge is provided. The cartridge includes a housing, a fluid module, and an analysis chamber. The fluid module includes a sample acquisition port and an initial channel, and is connected to the housing. The initial channel is sized to draw fluid sample by capillary force, and is in fluid communication with the acquisition port. The initial channel is fixedly positioned relative to the acquisition port such that at least a portion of a fluid sample disposed within the acquisition port will draw into the initial channel. The analysis chamber is connected to the housing, and is in fluid communication with the initial channel.

A biological fluid sample analysis cartridge is provided. The cartridge includes a housing, a fluid module, and an analysis chamber. The fluid module includes a sample acquisition port and an initial channel, and is connected to the housing. The initial channel is sized to draw fluid sample by capillary force, and is in fluid communication with the acquisition port. The initial channel is fixedly positioned relative to the acquisition port such that at least a portion of a fluid sample disposed within the acquisition port will draw into the initial channel. The analysis chamber is connected to the housing, and is in fluid communication with the initial channel.

Disclosed is a beverage dispensing machine and a gas infused beverage dispensing system which facilitates combination of gas with in a configuration which provides a smaller footprint and provides gas infusion of a beverage on demand The system may be configured to produce only gas infused beverage or to allow the user to select gas infused beverage or chilled beverage, and, alternatively, ambient, unchilled beverage. A gas infuser of the system introduces gas to a chilled beverage stream using an injector with slots. This inline, on-demand gas infusion system provides benefits over infusion tank systems that gas infuse a relatively large volume of beverage in bulk.

A biological fluid sample analysis cartridge is provided. The cartridge includes a housing, a fluid module, and an analysis chamber. The fluid module includes a sample acquisition port and an initial channel, and is connected to the housing. The initial channel is sized to draw fluid sample by capillary force, and is in fluid communication with the acquisition port. The initial channel is fixedly positioned relative to the acquisition port such that at least a portion of a fluid sample disposed within the acquisition port will draw into the initial channel. The analysis chamber is connected to the housing, and is in fluid communication with the initial channel.

A biological fluid sample analysis cartridge is provided. The cartridge includes a housing, a fluid module, and an analysis chamber. The fluid module includes a sample acquisition port and an initial channel, and is connected to the housing. The initial channel is sized to draw fluid sample by capillary force, and is in fluid communication with the acquisition port. The initial channel is fixedly positioned relative to the acquisition port such that at least a portion of a fluid sample disposed within the acquisition port will draw into the initial channel. The analysis chamber is connected to the housing, and is in fluid communication with the initial channel.