Abstract: Methods of producing organic materials, and in particular methods of producing petroleum materials and organic compounds such as aromatic acids, phenols, and aliphatic poly-carboxylic acids using an oxidative hydrothermal dissolution (OHD) process are disclosed.

Abstract: A process of solubilizing organic solids that includes reacting an organic solid with an oxidant in superheated water to form a solubilized organic solute. Preferably, the organic solid is selected from the group consisting of coal, lignite, kerogen, biomass, solid organic wastes, and mixtures thereof. The oxidant preferably is molecular oxygen.

Abstract: Methods of producing organic materials, and in particular methods of producing petroleum materials and organic compounds such as aromatic acids, phenols, and aliphatic poly-carboxylic acids using an oxidative hydrothermal dissolution (OHD) process are disclosed.

Abstract: A process of solubilizing organic solids that includes reacting an organic solid with an oxidant in superheated water to form a solubilized organic solute. Preferably, the organic solid is selected from the group consisting of coal, lignite, kerogen, biomass, solid organic wastes, and mixtures thereof. The oxidant preferably is molecular oxygen.

Abstract: A process and apparatus are provided for in-situ production of hydrogen (H2) by alcohol decomposition for emission reduction from internal combustion engines. Hydrogen is generated by a catalytic process for in-situ production from alcohols, either neat, or in a hydrocarbon mixture, such as gasoline. The in-situ production of hydrogen is achieved using a solid basic catalytic bed provided with the internal combustion engine. The preferred catalyst is a copper (Cu) containing layered double hydroxide (LDH)-derived catalyst, such as a Cu/Al LDH-derived catalyst. At least a portion of an alcohol containing fuel is passed through the catalyst bed to generate hydrogen gas from the alcohol substantially without producing carbon monoxide. The fuel and generated hydrogen gas is injected into the internal combustion engine. Catalytic reactions are provided at temperatures in a range between ambient and 500° C., preferably between 150° C. through 400° C.

Abstract: A process and apparatus are provided for in-situ production of hydrogen (H2) by alcohol decomposition for emission reduction from internal combustion engines. Hydrogen is generated by a catalytic process for in-situ production from alcohols, either neat, or in a hydrocarbon mixture, such as gasoline. The in-situ production of hydrogen is achieved using a solid basic catalytic bed provided with the internal combustion engine. The preferred catalyst is a copper (Cu) containing layered double hydroxide (LDH)-derived catalyst, such as a Cu/Al LDH-derived catalyst. At least a portion of an alcohol containing fuel is passed through the catalyst bed to generate hydrogen gas from the alcohol substantially without producing carbon monoxide. The fuel and generated hydrogen gas is injected into the internal combustion engine. Catalytic reactions are provided at temperatures in a range between ambient and 500° C., preferably between 150° C. through 400° C.

Abstract: A method for encapsulating hazardous cations is provided comprising supplying a pretreated substrate containing the cations; contacting the substrate with an organo-silane compound to form a coating on the substrate; and allowing the coating to cure. A medium for containing hazardous cations is also provided, comprising a substrate having ion-exchange capacity and a silane-containing coating on the substrate.