A composition can photocatalytically reduce carbon dioxide.

A composition can photocatalytically reduce carbon dioxide.

A process for isolating .sup.17O from water and a process for concentrating .sup.17O by using the same are provided. The process for isolating .sup.17O from water includes: mixing .sup.17O-containing water with formaldehyde to prepare an aqueous formaldehyde solution; heating the aqueous formaldehyde solution to generate a vapor mixture containing water vapor and formaldehyde vapor; and obtaining .sup.17O-depleted water, residual formaldehyde, and a gas mixture containing hydrogen and .sup.17O-enriched carbon monoxide, through photodissociating the vapor mixture. An .sup.17O-enriched water production process includes: an operation of adding hydrogen to the gas mixture to induce a catalytic methanation reaction to synthesize methane (CH.sub.4) and .sup.17O-enriched water (H.sub.2.sup.17O) through methanation, the operation being carried out following the process for isolating .sup.17O from water.

A process for isolating .sup.17O from water and a process for concentrating .sup.17O by using the same are provided. The process for isolating .sup.17O from water includes: mixing .sup.17O-containing water with formaldehyde to prepare an aqueous formaldehyde solution; heating the aqueous formaldehyde solution to generate a vapor mixture containing water vapor and formaldehyde vapor; and obtaining .sup.17O-depleted water, residual formaldehyde, and a gas mixture containing hydrogen and .sup.17O-enriched carbon monoxide, through photodissociating the vapor mixture. An .sup.17O-enriched water production process includes: an operation of adding hydrogen to the gas mixture to induce a catalytic methanation reaction to synthesize methane (CH.sub.4) and .sup.17O-enriched water (H.sub.2.sup.17O) through methanation, the operation being carried out following the process for isolating .sup.17O from water.

An apparatus and method of compressing a gas is provided. The system includes a gas storage tank and a liquid holding tank and a hollow cylinder. A piston is disposed in the hollow cylinder dividing the hollow cylinder into a first compartment and a second compartment. A gas collector tank is in fluid connection with the first compartment by an outline line. A radiator is provided in fluid connection with the second compartment and the liquid holding tank. The system also contains a pump. The apparatus system may also be coupled to a reactor system oxidizes a hydrocarbon-containing gas.

An apparatus and method of compressing a gas is provided. The system includes a gas storage tank and a liquid holding tank and a hollow cylinder. A piston is disposed in the hollow cylinder dividing the hollow cylinder into a first compartment and a second compartment. A gas collector tank is in fluid connection with the first compartment by an outline line. A radiator is provided in fluid connection with the second compartment and the liquid holding tank. The system also contains a pump. The apparatus system may also be coupled to a reactor system oxidizes a hydrocarbon-containing gas.

A composition can photocatalytically reduce carbon dioxide.

A composition can photocatalytically reduce carbon dioxide.

Process for the co-production of methanol and ammonia together with urea production from a hydrocarbon feed without venting to the atmosphere carbon dioxide captured from the methanol or ammonia synthesis gas and without using expensive air separation units and water gas shift. Carbon dioxide removal from flue gas from reforming section to convert partially or fully all ammonia into urea. Synergi of having methanol, ammonia and urea production to produce coating material for the urea production.

Process for the co-production of methanol and ammonia together with urea production from a hydrocarbon feed without venting to the atmosphere carbon dioxide captured from the methanol or ammonia synthesis gas and without using expensive air separation units and water gas shift. Carbon dioxide removal from flue gas from reforming section to convert partially or fully all ammonia into urea. Synergi of having methanol, ammonia and urea production to produce coating material for the urea production.