Chemistry: electrical and wave energy – Processes and products – Processes of treating materials by wave energy
Patent
1998-03-10
2000-01-25
Wong, Edna
Chemistry: electrical and wave energy
Processes and products
Processes of treating materials by wave energy
502330, 502326, 502344, 502216, 502222, 502242, 502243, 502245, 502246, 502338, 502339, 419 27, C01B 300, B01J 2702, B22F 326
Patent
active
060174250
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the invention
The present invention relates, in general, to a novel photocatalyst and, more particularly, to a photoreaction in which hydrogen can be efficiently and economically produced from water in the presence of the photocatalyst. Also, the present invention is concerned with a method for preparing the photocatalyst and a method for producing hydrogen.
2. Description of the Prior Art
Hydrogen is a very important material in the chemical industry. For example, it is used to produce ammonia and to synthesize hydrogen chloride. Also, it is an essential material for hydrogenation in which unsaturated compounds are converted into saturated ones. In addition, hydrogen plays a pivotal role in improving the quality of petroleum products, that is, in the hydrotreating processes including hydrogen addition, desulfurization, denitrogenation and demetallization. Another example of the use of hydrogen is the contact hydrogenation of carbon dioxide in which carbon dioxide, which causes the warmth of the globe, is reclaimed, immobilized and reused. In addition, hydrogen is anticipated to be a pollution-free, clear energy source substituting for the existing fossil fuels.
Conventional techniques for obtaining hydrogen include extraction from fossil fuels, such as naphtha, modification of natural gas, reaction of vapor with iron, reaction of water with metal, electrolysis of water and etc. These techniques are economically unfavorable because immense heat or electric energy is required. The conventional techniques have another disadvantage of generating a large quantity of by-products, carbon dioxide or oxygen (upon electrolysis). As mentioned above, carbon dioxide is a serious air pollutant causing the greenhouse effect of the globe. When oxygen is generated, the hydrogen is difficult to separate from the oxygen, owing to which the process becomes complicated. Such by-products could make it difficult to obtain high purity hydrogen in high yields.
Since hydrogen production using such conventional techniques is usually carried out at relatively high temperatures, most of the relating equipment, e.g. reactors and purifying apparatuses, are designed to be resistant to heat and thus, they are very expensive, which is an economically unfavorable factor.
Hydrogen gas can readily escape from the gravity of the earth because it is of low specific gravity and most of it exists in water or inorganic forms. For these reasons, only a small quantity of hydrogen exists in the atmosphere. Therefore, the development of the techniques whereby a high purity of hydrogen can be efficiently obtained from water is very important in that the urgent problem of exploiting substitute energy sources can be solved and the material for the chemical industry can be secured.
Recently the techniques for producing hydrogen from water have been developed in which a photocatalyst is used to decompose water into hydrogen and oxygen. However, there are few published prior arts relating to the photocatalyst for producing hydrogen, the representatives of which are exemplified by Japanese Pat. Laid-Open Publication Nos. Sho. 62-191045, Sho. 63-107815 and Hei. 1-208301.
Japanese Pat. Laid-Open Publication No. Sho. 62-191045 discloses that hydrogen is generated from an aqueous Na.sub.2 S solution in the presence of a rare-earth element compound as a photo-catalyst by a photolysis reaction. The rare-earth element compound has an advantage of exhibiting an optical catalytic activity in the range of the visible light.
Japanese Pat. Laid-Open Publication No. Sho. 63-107815 describes a photolysis reaction in which a composite oxide of niobium and alkali earth metal is used as a photocatalyst, to generate hydrogen from a methanol solution in water. Similarly, this photocatalyst has an advantage of being active in the range of the visible light.
However, these above prior arts are disadvantageous in that the amount of the hydrogen generated is very small.
In Japanese Pat. Laid-Open Publication No. Hei. 1-208301, water and al
REFERENCES:
Derwent Abstract AN 95-166550 [22] of JP 07 088 380, Apr. 1995.
Patent Abstracts of Japan, vol. 11, No. 262 (C-442), of JP 62-65 743, Mar. 1987.
Borodenko et al., "Kinetics of Adsorption of Cesium Vapors on Zinc", Zh. Fiz. Khim., vol. 41, No. 3, pp. 545-549. Abstract Only, 1967, no month available.
Borodenko et al., "Exchange Adsorption of Cesium and Hydrogen or Carbon Monoxide on Zinc Sulfide", Zh. Fiz. Khim., vol. 43, No. 7, pp. 1854-1855. Abstract Only, 1969, no month available.
Lim Sang Yun
Park Dae Chul
Korea Research Institute of Technology
Wong Edna
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