The present invention relates to a drinking product of vitamin D-fortified mineral water. The present invention further relates to methods of preparing packaged drinking product of the vitamin D-fortified water with minerals and/or natural mineral water, wherein the method essentially comprises water treatment, re-mineralization, ozonation, vitamin D dosing, and mineralization.

The present invention relates to a drinking product of vitamin D-fortified mineral water. The present invention further relates to methods of preparing packaged drinking product of the vitamin D-fortified water with minerals and/or natural mineral water, wherein the method essentially comprises water treatment, re-mineralization, ozonation, vitamin D dosing, and mineralization.

Utilizing the fact that a predetermined adsorbent adsorbs light water at an initial desorption rate higher than heavy water and semi-heavy water, deuterium depleted water having a reduced concentration of heavy water and semi-heavy water is produced easily and in a short time. A method for producing deuterium depleted water by removing heavy water and semi-heavy water from water, the method including: a desorption process in which a relative pressure around a predetermined adsorbent with adsorbed water vapor is reduced, and in which water vapor desorbed from the adsorbent is recovered during a period of time when a desorption rate of light water>a desorption rate of the heavy water and semi-heavy water.

Utilizing the fact that a predetermined adsorbent adsorbs light water at an initial desorption rate higher than heavy water and semi-heavy water, deuterium depleted water having a reduced concentration of heavy water and semi-heavy water is produced easily and in a short time. A method for producing deuterium depleted water by removing heavy water and semi-heavy water from water, the method including: a desorption process in which a relative pressure around a predetermined adsorbent with adsorbed water vapor is reduced, and in which water vapor desorbed from the adsorbent is recovered during a period of time when a desorption rate of light water>a desorption rate of the heavy water and semi-heavy water.

A growing unit for biological hydrosynthesis, energy generation and storage and/or topsoil restoration, the growing unit comprising: a container configured for growing plants and containing a growth media located therein; a reservoir located in a lower portion of the container and associated with an outlet portion of the container, and a substantially vertical liquid inlet pipe associated with the reservoir, wherein the growth media comprises a mixture including a first catalyst, wherein the first catalyst stimulates formation of a humified soil and wherein the growth media is amended with an irrigation liquid which stimulates biological activity in the growth media and in and adjacent to the reservoir.

A growing unit for biological hydrosynthesis, energy generation and storage and/or topsoil restoration, the growing unit comprising: a container configured for growing plants and containing a growth media located therein; a reservoir located in a lower portion of the container and associated with an outlet portion of the container, and a substantially vertical liquid inlet pipe associated with the reservoir, wherein the growth media comprises a mixture including a first catalyst, wherein the first catalyst stimulates formation of a humified soil and wherein the growth media is amended with an irrigation liquid which stimulates biological activity in the growth media and in and adjacent to the reservoir.

The disclosure relates to a plant, especially power plant, for reduction of the carbon dioxide content in atmospheric air, especially for improvement of atmospheric air quality. The plant has at least one electrolysis unit for oxygen production, at least one carbonization unit for carbon synthesis, especially a Bosch reaction unit, and at least one unit for cleaning of ambient air from an outside atmosphere surrounding the plant. The carbonization unit synthesizes carbon from carbon dioxide which is obtained from the atmosphere by means of the carbon dioxide sorption unit and this carbon is stored, in order to effectively reduce the proportion of carbon dioxide in the atmosphere. The disclosure further relates to a method of operating such a plant, with which the carbon dioxide content in the atmosphere can be efficiently reduced.

Methods and systems for enhancing water treatment and desalination are provided. An example method includes generating structurally altered gas molecules from water, where the structurally altered gas molecules have a higher probability of attraction of electrons into areas adjunct to the structurally altered gas molecules than molecules of the water. The method further includes mixing the structurally altered gas molecules with raw water to modify properties of the raw water, thereby increasing raw water filtering efficiency of a water filtering system.

Methods and systems for enhancing water treatment and desalination are provided. An example method includes generating structurally altered gas molecules from water, where the structurally altered gas molecules have a higher probability of attraction of electrons into areas adjunct to the structurally altered gas molecules than molecules of the water. The method further includes mixing the structurally altered gas molecules with raw water to modify properties of the raw water, thereby increasing raw water filtering efficiency of a water filtering system.

A method of making a multicomponent photocatalyst, includes inducing precipitation from a pre-cursor solution comprising a pre-cursor of a plasmonic material and a pre-cursor of a reactive component to form co-precipitated particles; collecting the co-precipitated particles; and annealing the co-precipitated particles to form the multicomponent photocatalyst comprising a reactive component optically, thermally, or electronically coupled to a plasmonic material.