The present invention provides a water induced crystallization process (WI-Process) to convert Olivine to Iddingsite in a highly oxidizing environment under low pressure and temperatures less than 200° C. and preferably higher than 70° C., optionally in the presence of catalysts accompanied by the process including Oleic acid, Amino acid and there derivatives such as Triethylamine either alone or in combination

The present invention provides a water induced crystallization process (WI-Process) to convert Olivine to Iddingsite in a highly oxidizing environment under low pressure and temperatures less than 200° C. and preferably higher than 70° C., optionally in the presence of catalysts accompanied by the process including Oleic acid, Amino acid and there derivatives such as Triethylamine either alone or in combination

A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration agent that comprises an amorphous metal silicate and that has a surface composition having a metal atom to silicon atom ratio of less than or equal to about 0.5, as determined by X-ray photoelectron spectroscopy (XPS); (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

A process for capturing or concentrating microorganisms for detection or assay comprises (a) providing a concentration agent that comprises an amorphous metal silicate and that has a surface composition having a metal atom to silicon atom ratio of less than or equal to about 0.5, as determined by X-ray photoelectron spectroscopy (XPS); (b) providing a sample comprising at least one microorganism strain; and (c) contacting the concentration agent with the sample such that at least a portion of the at least one microorganism strain is bound to or captured by the concentration agent.

A process includes converting hydrocarbons to at least one molecular energy carrier and carbon dioxide, reacting said carbon dioxide with a divalent metal-containing silicate to form solid divalent metal carbonate and silicate and utilizing at least one of said carbonate and silicate in the production of construction and/or chemical material.

A process includes converting hydrocarbons to at least one molecular energy carrier and carbon dioxide, reacting said carbon dioxide with a divalent metal-containing silicate to form solid divalent metal carbonate and silicate and utilizing at least one of said carbonate and silicate in the production of construction and/or chemical material.

A portable small water turbine with activated carbon water filter is described that has material available to conduct the removal of the ionic surfactants of polluted water from seas and rivers. The portable small water turbine is placed inside a mini boat that is remote controlled. The mini boat (similar to adult/kids RC toy boat) can be dropped-off and picked up from the sea or rivers by a drone. The activated carbon water filter tube contains carbon pads composed of mantle peridotite carbon mineralization based activated carbon.

A portable small water turbine with activated carbon water filter is described that has material available to conduct the removal of the ionic surfactants of polluted water from seas and rivers. The portable small water turbine is placed inside a mini boat that is remote controlled. The mini boat (similar to adult/kids RC toy boat) can be dropped-off and picked up from the sea or rivers by a drone. The activated carbon water filter tube contains carbon pads composed of mantle peridotite carbon mineralization based activated carbon.

The silicate of magnesium and of barium, strontium or calcium of the invention is characterized in that it is in the form of a suspension of solid crystallized particles in a liquid phase, said particles having a mean size between 0.1 μm and 1 μm. It is prepared by spray-drying a liquid mixture comprising compounds of magnesium, of silicium and of at least one first element chosen from barium, strontium and calcium, by submitting the dried mixture to a first calcination in air and to a second calcination in a reducing atmosphere and by wet milling the calcined mixture.

The silicate of magnesium and of barium, strontium or calcium of the invention is characterized in that it is in the form of a suspension of solid crystallized particles in a liquid phase, said particles having a mean size between 0.1 μm and 1 μm. It is prepared by spray-drying a liquid mixture comprising compounds of magnesium, of silicium and of at least one first element chosen from barium, strontium and calcium, by submitting the dried mixture to a first calcination in air and to a second calcination in a reducing atmosphere and by wet milling the calcined mixture.