Gaseous nanobubbles are created and infused into the blood stream to therapeutic effect such as oxygenation. The nanobubbles may be created inside or outside of the patient, either during infusion or prior to infusion. CO2 is extracted from the blood to improve oxygen.

Gaseous nanobubbles are created and infused into the blood stream to therapeutic effect such as oxygenation. The nanobubbles may be created inside or outside of the patient, either during infusion or prior to infusion. CO2 is extracted from the blood to improve oxygen.

A nutrient system includes at least one nutrient feed line for introducing at least one nutrient into a water inlet or supply to form a circulation stream: an eductor injector for introducing a powder comprising at least one dry nutrient into the circulation stream; an ultrasonic cavitation reactor for applying at least one frequency to the circulation stream; and a nanobubble generator module for introducing nanobubbles of at least one gas into the circulation stream. The system may also include a cooling/ultraviolet disinfection module for cooling and disinfecting the circulation stream. The system may be used to obtain a nutrient composition for a plant growing environment.

A nutrient system includes at least one nutrient feed line for introducing at least one nutrient into a water inlet or supply to form a circulation stream: an eductor injector for introducing a powder comprising at least one dry nutrient into the circulation stream; an ultrasonic cavitation reactor for applying at least one frequency to the circulation stream; and a nanobubble generator module for introducing nanobubbles of at least one gas into the circulation stream. The system may also include a cooling/ultraviolet disinfection module for cooling and disinfecting the circulation stream. The system may be used to obtain a nutrient composition for a plant growing environment.

A Plasma functional liquid producing device, a method thereof, and a plant factory that exhibit excellent cleaning and sterilizing effects even when plasma gas is introduced into a liquid through bubbling. The Plasma functional liquid producing device comprises a plasma head that generates plasma gas containing active species from plasma generating gas, a plasma gas releasing section that releases the plasma gas in a bubbled state, and a Plasma functional liquid generating section equipped with a plasma functional liquid generating tank storing a solvent, which generates a plasma functional liquid by introducing the plasma gas in the bubbled state into the solvent, wherein the oxygen concentration of the plasma generating gas is preferably 90% or more.

A Plasma functional liquid producing device, a method thereof, and a plant factory that exhibit excellent cleaning and sterilizing effects even when plasma gas is introduced into a liquid through bubbling. The Plasma functional liquid producing device comprises a plasma head that generates plasma gas containing active species from plasma generating gas, a plasma gas releasing section that releases the plasma gas in a bubbled state, and a Plasma functional liquid generating section equipped with a plasma functional liquid generating tank storing a solvent, which generates a plasma functional liquid by introducing the plasma gas in the bubbled state into the solvent, wherein the oxygen concentration of the plasma generating gas is preferably 90% or more.

Water treatment systems and methods are described herein for optimizing the formation and delivery of ozone-filled nanobubbles for disinfecting a volume of water. In an example system for treating water in a pool, such as a swimming pool, a control valve located downstream relative to a pool pump draws a select volume of water into through a circuit of elements including a pump assembly, a Venturi assembly for injecting a supply of ozone-rich gas into the water, a pressure vessel, and a nozzle assembly for generating a variable concentration of ozone-filled nanobubbles in the water. The ozone-filled nanobubbles in the pool water are stable, safe and odorless, and far more effective than chlorine or ozone alone. With the ozone-filled nanobubbles in the water column, the measurable concentration of dissolved ozone in the water is remarkably steady under a variety of operating conditions.

Water treatment systems and methods are described herein for optimizing the formation and delivery of ozone-filled nanobubbles for disinfecting a volume of water. In an example system for treating water in a pool, such as a swimming pool, a control valve located downstream relative to a pool pump draws a select volume of water into through a circuit of elements including a pump assembly, a Venturi assembly for injecting a supply of ozone-rich gas into the water, a pressure vessel, and a nozzle assembly for generating a variable concentration of ozone-filled nanobubbles in the water. The ozone-filled nanobubbles in the pool water are stable, safe and odorless, and far more effective than chlorine or ozone alone. With the ozone-filled nanobubbles in the water column, the measurable concentration of dissolved ozone in the water is remarkably steady under a variety of operating conditions.

The present disclosure relates to a system, generator and method for generating nanobubbles or nanodroplets and treating a multi-component mixture, and in particular for treating biogas and wastewater. The method comprises using nanobubbles of a gas component, and wastewater, to form hydrates in a treatment vessel; removing residual dirt from the treatment vessel and melting the hydrates to facilitate release of clean water.

The present disclosure relates to a system, generator and method for generating nanobubbles or nanodroplets and treating a multi-component mixture, and in particular for treating biogas and wastewater. The method comprises using nanobubbles of a gas component, and wastewater, to form hydrates in a treatment vessel; removing residual dirt from the treatment vessel and melting the hydrates to facilitate release of clean water.