An apparatus, system and method to capture water power from head or pressure is provided utilizing pipes, inlets and outlets. The apparatus comprises a central bore having an internal diameter suitable for a fluid flow, the fluid flow moves inside the central bore through the apparatus, and at least one outlet, the fluid flow exits the apparatus through the at least one outlet, optionally, a plurality of inlets for flowing additional fluid to the central bore mix the fluid flow with the additional fluid from the plurality of inlets. The apparatus can further mix the fluid though additional mixing devices and additional devices can be used to recapture energy such as, hydroelectric power from the fluid flow. A system and method to capture water energy from fluid flow is provided.

An apparatus, system and method to capture water power from head or pressure is provided utilizing pipes, inlets and outlets. The apparatus comprises a central bore having an internal diameter suitable for a fluid flow, the fluid flow moves inside the central bore through the apparatus, and at least one outlet, the fluid flow exits the apparatus through the at least one outlet, optionally, a plurality of inlets for flowing additional fluid to the central bore mix the fluid flow with the additional fluid from the plurality of inlets. The apparatus can further mix the fluid though additional mixing devices and additional devices can be used to recapture energy such as, hydroelectric power from the fluid flow. The system and method can capture water energy from the fluid flow.

According to an aspect of this disclosure, there is provided a fluid processing apparatus including: a housing with a space formed therein; a fluid receiving part removably coupled to the housing and receiving a fluid therein; and a conveying part accommodated in the space of the housing and coupled to the fluid receiving part to be in fluid communication therewith, wherein the conveying part includes: a pump member coupled to the fluid receiving part and providing a conveying force to the fluid; and a mixing nozzle which is in communication with the pump member, and into which the fluid flows after having passed through the pump member.

An apparatus, system and method to capture water power from head or pressure is provided utilizing pipes, inlets, and outlets. The apparatus comprises a central bore having an internal diameter suitable for a fluid flow, the fluid flow moves inside the central bore through the apparatus, and at least one outlet, the fluid flow exits the apparatus through the at least one outlet, optionally, a plurality of inlets for flowing additional fluid to the central bore mix the fluid flow with the additional fluid from the plurality of inlets. The apparatus can further mix the fluid through additional mixing devices and additional devices can be used to recapture energy such as hydroelectric power from the fluid flow. The system and method can capture water energy from the fluid flow.

A system and method for producing an oil-in-water (“O/W”) emulsion performs or includes the steps of: a) providing an oil phase and a water phase, b) premixing the oil phase and the water phase to form an O/W pre-emulsion, and c) homogenizing the O/W pre-emulsion to form an O/W emulsion by at least one counter-jet disperser.

A droplet dispersion mechanism performs a first droplet generation process of supplying gas to a chemical liquid, and dispersing the chemical liquid into droplets to acquire chemical liquid droplets. A droplet dispersion mechanism performs a second droplet generation process of supplying gas to a chemical liquid, and dispersing the chemical liquid into droplets to acquire chemical liquid droplets. A droplet mixing mechanism performs a droplet mixing process of mixing the chemical liquid droplets and the chemical liquid droplets to acquire a processing liquid in a form of droplets. A discharge nozzle performs a discharge process of externally discharging the processing liquid received from the droplet mixing mechanism.

The present invention relates to a portable liquid mixing device capable of mixing different types of various liquids, and the different types of various liquids may include various beverages. The present invention includes a plurality of containers configured to contain respective specific liquids, a selection unit configured to select any one of the plurality of containers, a control unit configured to control the introduction of a selected liquid into a mixing container, and a mixing unit configured to mix various liquids introduced into the mixing container. According to the present invention, different types of liquids may be mixed together. In particular, beverages having various flavors are put into respective containers, mixed together and then drunk. Furthermore, a scale is marked on the surface of the mixing container, and thus the amount of liquid may be accurately measured, so that liquids may be mixed at an accurate ratio.

A system for movement of fluid in a tank comprises: a tank; at least two pumping sets, each pumping set comprising: a pumping line external to the tank and in fluidic communication with the interior of the tank at two separate points of the tank via the two ends of said pumping line, and a pump configured to circulate fluid through the pumping line, wherein each pumping set is configured to collect fluid from the tank at one end of its respective pumping line, circulate the fluid through its respective pumping line and discharge the fluid into said tank through the other end of its respective pumping line, and wherein each pumping set is configured such that the flow of fluid in its respective pumping line is reversible.

A system for movement of fluid in a tank comprises: a tank; at least two pumping sets, each pumping set comprising: a pumping line external to the tank and in fluidic communication with the interior of the tank at two separate points of the tank via the two ends of said pumping line, and a pump configured to circulate fluid through the pumping line, wherein each pumping set is configured to collect fluid from the tank at one end of its respective pumping line, circulate the fluid through its respective pumping line and discharge the fluid into said tank through the other end of its respective pumping line, and wherein each pumping set is configured such that the flow of fluid in its respective pumping line is reversible.

Provided is a bag gripping clip, in which, in a case where a bag that forms an accommodation space between a first film and a second film facing the first film is gripped by the clip, a pressing force for bringing the first film and the second film into partially close contact with each other is applied to the bag, and a partition that divides the accommodation space into a plurality of spaces communicating with each other via a communication part is formed.