Gunma Prefecture is a large animal husbandry county in Japan. How to deal with large amounts of livestock manure has always been a problem. Recently, Gunma University in Japan developed a new energy conversion technology that can convert livestock manure into combustible gas for power generation. The efficiency of electricity generation is basically equal to that of gasoline. In addition, gas-burned waste can also be recycled. According to "Nihon Keizai Shimbun", Gunma University professors developed a technique for converting livestock manure into combustible gas. At present, the research team is vigorously advancing the practical application of this technology. The combustible gas extracted using this technology can be used for power generation, and can also be used as a raw material for the production of catalysts, and has a wide range of uses. Gunma Prefecture is rich in cattle and pigs and it produces about 1.8 million tons of feces per year. The existing technology that converts manure into nitrogen not only consumes a lot of time, but also generates a large amount of residual moisture, which cannot be used for power generation or other purposes. The new technology developed this time uses a small refining furnace that can extract combustible gases at lower temperatures. And in the refining process, other industrial wastes can also be mixed to increase the concentration of combustible gases. The flammable gas extracted through the new technology can be used by the average family for one day, and the power generation efficiency is similar to that of gasoline. In addition, the used waste can also be recycled. The research team stated: "The new technology can quickly and effectively handle excrement and convert biological resources into energy." In the future, the research team will focus on the application of this technology. Ceramic components for semiconductor equipment have high requirements in terms of material purity, dimensional accuracy, mechanical properties, thermal properties, electrical properties, etc. Silicon carbide ceramics are a class of materials that have been proven in the market to have excellent performance for semiconductor equipment components. FLK has achieved a breakthrough in the manufacturing technology of silicon carbide ceramic components for semiconductor equipment by using additive manufacturing technology. It is a product with high purity, high temperature characterization, high thermal conductivity, high temperature resistance, and excellent friction and wear resistance, and can meet the needs of many application scenarios of ceramic parts for semiconductor equipment. This series of products, with short production cycle, standardized batch, and can achieve a more suitable for the semiconductor industry efficient and high quality production of differentiated structure. Semiconductor,Silicon Carbide 3D Printing,Customized 3D Printing,3D Printing Service Semiconductor Ningbo FLK Technology Co., Ltd. , https://www.flk-global.com
Japan's R&D New Technology Transforms Dung To Po