A method of producing permanently structured water in which regular water is passed through at least one flow form where at least one modified material being placed sufficiently close thereto. Also, several products based on modified material, such as food, cosmetics, medicals, jewelry, cleaning and radioactivity-reducing product. Furthermore, various uses of a modified material.

A method of producing permanently structured water in which regular water is passed through at least one flow form where at least one modified material being placed sufficiently close thereto. Also, several products based on modified material, such as food, cosmetics, medicals, jewelry, cleaning and radioactivity-reducing product. Furthermore, various uses of a modified material.

A carbon dioxide reduction system 1 comprises a transport path 4 that transports carbon dioxide and a reduction apparatus 5 that reduces heated carbon dioxide introduced through the transport path 4, wherein the carbon dioxide is heated in the transport path 4 by at least one of recycled energy and exhaust heat.

A carbon dioxide reduction system 1 comprises a transport path 4 that transports carbon dioxide and a reduction apparatus 5 that reduces heated carbon dioxide introduced through the transport path 4, wherein the carbon dioxide is heated in the transport path 4 by at least one of recycled energy and exhaust heat.

To improve a performance for removing soluble lead and finely particulate lead. A molded adsorbent (1) includes an adsorption material (3) and a fibrous binder (5). The adsorption material (3) contains activated carbon (3A) and zeolite (3B). A central particle size D50 of the activated carbon (3A) is 27 μm or more and 35 μm or less, a central particle size D50 of the zeolite (3B) is 24 μm or more and 31 μm or less, and a content rate of the zeolite (3B) is 10 mass % or more and 70.5 mass % or less.

A structurally altered gas molecule. The structurally altered gas molecule is a combination of two parts of hydrogen and one part of oxygen and produced from water by placing an electrolyte solution in a chemical reaction chamber, adding purified water to the chemical reaction chamber, and applying a focused magnetic field generated by earth magnets and an electric field to a mixture of the purified water and the electrolyte solution to cause generation of the structurally altered gas molecule from the purified water. A temperature in the chemical reaction chamber is from 60 degrees to 120 degrees in Fahrenheit. A pressure in the chemical reaction chamber is from 1 atmosphere to 40 pounds per square inch gauge (psig). The structurally altered gas molecule has a hydrogen-oxygen-hydrogen bond angles between 94 degrees and 104 degrees and hydrogen-oxygen bond length between 0.95 Angstrom and 1.3 Angstrom.

A structurally altered gas molecule. The structurally altered gas molecule is a combination of two parts of hydrogen and one part of oxygen and produced from water by placing an electrolyte solution in a chemical reaction chamber, adding purified water to the chemical reaction chamber, and applying a focused magnetic field generated by earth magnets and an electric field to a mixture of the purified water and the electrolyte solution to cause generation of the structurally altered gas molecule from the purified water. A temperature in the chemical reaction chamber is from 60 degrees to 120 degrees in Fahrenheit. A pressure in the chemical reaction chamber is from 1 atmosphere to 40 pounds per square inch gauge (psig). The structurally altered gas molecule has a hydrogen-oxygen-hydrogen bond angles between 94 degrees and 104 degrees and hydrogen-oxygen bond length between 0.95 Angstrom and 1.3 Angstrom.

A structurally altered gas molecule. The structurally altered gas molecule is a combination of two parts of hydrogen and one part of oxygen and produced from water by placing an electrolyte solution in a chemical reaction chamber, adding purified water to the chemical reaction chamber, and applying a focused magnetic field generated by earth magnets and an electric field to a mixture of the purified water and the electrolyte solution to cause generation of the structurally altered gas molecule from the purified water. A temperature in the chemical reaction chamber is from 60 degrees to 120 degrees in Fahrenheit. A pressure in the chemical reaction chamber is from 1 atmosphere to 40 pounds per square inch gauge (psig). The structurally altered gas molecule has a hydrogen-oxygen-hydrogen bond angles between 94 degrees and 104 degrees and hydrogen-oxygen bond length between 0.95 Angstrom and 1.3 Angstrom.

A structurally altered gas molecule. The structurally altered gas molecule is a combination of two parts of hydrogen and one part of oxygen and produced from water by placing an electrolyte solution in a chemical reaction chamber, adding purified water to the chemical reaction chamber, and applying a focused magnetic field generated by earth magnets and an electric field to a mixture of the purified water and the electrolyte solution to cause generation of the structurally altered gas molecule from the purified water. A temperature in the chemical reaction chamber is from 60 degrees to 120 degrees in Fahrenheit. A pressure in the chemical reaction chamber is from 1 atmosphere to 40 pounds per square inch gauge (psig). The structurally altered gas molecule has a hydrogen-oxygen-hydrogen bond angles between 94 degrees and 104 degrees and hydrogen-oxygen bond length between 0.95 Angstrom and 1.3 Angstrom.

The present invention describes a processes, systems, and catalysts for the utilization of carbon dioxide into high quality synthesis gas that can then be used to produce fuels (e.g., diesel fuel) and chemicals. In one aspect, the present invention provides a process for the conversion of a feed gas comprising carbon dioxide and hydrogen to a product gas comprising carbon monoxide and water.