A mixer for fluid is described. The mixer comprises a housing. The housing comprises an inlet and an outlet, wherein the housing further comprises first and second portions, the first portion being of a substantially cylindrical internal shape of constant radius R.sub.1, and the second portion being of a substantially conical frustum internal shape of varying radius between R.sub.1 and R.sub.2, wherein R.sub.1<R.sub.2. A spindle is rigidly fixed within the housing, and comprises first and second portions, the first portion being of a substantially conical frustum shape of varying radius between r.sub.1 and r.sub.2, where r.sub.1<r.sub.2, and the second portion being of a substantially cylindrical shape of radius r.sub.2. At least part the first portion of the spindle is housed within the first portion of the housing, and at least part of the second portion of the spindle is housed within the second portion of the housing.

A highly stable cannabinoid nanoparticle carrier composition for administration to a human made by incorporating non-ionic surfactants with cannabinoid oils and lipids, sonicating for a predetermined period of time at a predetermined amplification with an ultrasonic liquid processor until completely integrated; combining the mixture with a carrier fluid that includes ascorbic acid and distilled water; and further sonicating the mixture using an ultrasonic liquid processor at predetermined amplitude for a predetermined period of time at a controlled temperature, and thereby to create a CBD nanoemulsion. The composition is tailored using non-ionic surfactants to adsorb to the surface of the cannabinoid oil particles to advantageously affect electrokinetics and surface forces at the interface of the bioactive cannabinoid particles and the suspending liquid are controlled by tailoring the suspending liquid to maximize the zeta potential.

Provided in one embodiment is a method of making, comprising: exposing a raw material having a first viscosity to a first pressure and a first temperature such that the raw material after the exposure has a second viscosity, wherein the raw material comprises particles comprising at least one electrically conductive material, and wherein the second viscosity is sufficiently low for the raw material to be adapted for a hydrodynamic cavitation process; and subjecting the raw material having the second viscosity to the hydrodynamic cavitation process to make a product material having a third viscosity. Apparatus employed to apply the method and the exemplary compositions made in accordance with the method are also provided.

A cosmetic treatment method includes: applying, to skin or hair, an external preparation including a predetermined active ingredient and a base, and at least one of the active ingredient and the base contains fine water that is uncharged and has a particle size of less than or equal to 50 nanometers. Therefore, the applied fine water enters the skin or hair to contribute to maintenance of moisturization, and at the same time, forms a route through which the active ingredient permeates, thereby promoting the permeation of the active ingredient; therefore, the permeability of the active ingredient can be more appropriately improved.

A method for improving stability and/or absorption of one or more biologically active agents including preparing formulations wherein a biologically active agent is dispersed using a homogenizer and/or a nanofluidizer; and optionally: i) enriching the formulation; and/or ii) delivering the formulations to a subject whereby the biologically active agent is absorbed by said subject, and/or iii) testing the formulation to identify suitable dosing ranges using computational modeling of biomolecular pathways to determine at least one feature selected from absorption in a cell, saturation of a cell, and potential toxicity in a cell, and/or iv) testing the formulation by monitoring with a low impact, minimally intrusive heart rate variability monitoring to enable rapid determination of neurological and physiological effects of a dosage, establishing dosing levels of the biologically active agent, and/or v) defining the corresponding metabolic effects of the dosage of the biologically active agent on the subject.

The present disclosure relates to a system and method for treating wastewater, the method comprising the steps of: providing a vessel for receiving wastewater and a gas, wherein the gas comprises one or more constituent gas components; directing the wastewater and a first gas component of the gas to the vessel; reducing the temperature of the contents of the vessel from a first temperature to a second temperature to facilitate the formation of clathrate hydrates comprising the wastewater and the first gas component; increasing the temperature of the contents of the vessel with respect to the second temperature to facilitate melting of the clathrate hydrates; and removing clean water and/or the first gas component from the vessel.

The present disclosure relates to a system and method for treating wastewater, the method comprising the steps of: providing a vessel for receiving wastewater and a gas, wherein the gas comprises one or more constituent gas components; directing the wastewater and a first gas component of the gas to the vessel; reducing the temperature of the contents of the vessel from a first temperature to a second temperature to facilitate the formation of clathrate hydrates comprising the wastewater and the first gas component; increasing the temperature of the contents of the vessel with respect to the second temperature to facilitate melting of the clathrate hydrates; and removing clean water and/or the first gas component from the vessel.

A method for preparing stable liquid emulsion forms of plant extract is provided. A plant extract having a bitter flavor is mixed with diluent oil as an oil mixture and heat is applied to the oil mixture. An emulsifying agent is dispersed in water as an emulsifying solution. The oil mixture is mixed with the emulsifying solution. The mixed oil mixture and emulsifying solution is homogenized as a liquid form of the plant extract. Gluconic acid is added to the liquid form of the plant extract. The bitter flavor of the plant extract is disguised by adding a bitter blocker to the liquid form of the plant extract.

A method for preparing stable liquid emulsion forms of plant extract is provided. A plant extract having a bitter flavor is mixed with diluent oil as an oil mixture and heat is applied to the oil mixture. An emulsifying agent is dispersed in water as an emulsifying solution. The oil mixture is mixed with the emulsifying solution. The mixed oil mixture and emulsifying solution is homogenized as a liquid form of the plant extract. Gluconic acid is added to the liquid form of the plant extract. The bitter flavor of the plant extract is disguised by adding a bitter blocker to the liquid form of the plant extract.

Provided in one embodiment is a method of making, comprising: exposing a raw material having a first viscosity to a first pressure and a first temperature such that the raw material after the exposure has a second viscosity, wherein the raw material comprises particles comprising at least one electrically conductive material, and wherein the second viscosity is sufficiently low for the raw material to be adapted for a hydrodynamic cavitation process; and subjecting the raw material having the second viscosity to the hydrodynamic cavitation process to make a product material having a third viscosity. Apparatus employed to apply the method and the exemplary compositions made in accordance with the method are also provided.