您好!欢迎访问澳门网上唯一授权网页官方网站
uv光氧催化设备

关于UV光氧催化装置的工作原理

联系我们

电话:15194151238

地址:山东省济南市章丘区绣惠工业园

关于UV光氧催化装置的工作原理

当前位置:澳门网上唯一授权网页 > 澳门网上唯一 > 公司新闻1 >

关于UV光氧催化装置的工作原理

浏览量:?? 来源:??作者:唯一

UV光氧催化设备的原理,特别制作UV紫外线灭菌灯:运用特别制作的震撼高活性氧UV紫外光光线直射有机废气,裂化有机废气如:氨、三甲胺、氯化氢、甲硫氢、甲硫醇、甲硫醚、乙酸丁酯、乙酸乙酯、二甲二硫、二硫化碳和丁二烯,硫化物H2S、VOC类,苯、二甲苯、甲苯的分子结构链构造,使有机化学或无机物高分子材料恶臭味化学物质分子结构链,在震撼紫外光光线直射下,溶解转化成低分子结构化学物质,如CO2、H2O等。利用高能高臭氧UV紫外线光束分解空气中的氧分子产生游离氧,即活性氧,因游离氧所携正负电子不平衡所以需与氧分子结合,进而产生臭氧。 UV+O2→O-+O*(活性氧)O+O2→O3(臭氧),众所周知臭氧对有机物具有极强的氧化作用,对工业废气及其它刺激性异味有立竿见影的清除效果。工业废气利用排风设备输入到本净化设备后,油烟净化器应用震撼UV紫外光光线及活性氧对有机废气开展协作溶解氧化还原反应,使有机废气化学物质其溶解转换成低分子结构化学物质、水和CO2,再根据排烟管道道排出来户外。利用高能-C光束裂解工业废气中细菌的分子键,破坏细菌的核酸(DNA),再通过臭氧进行氧化反应,彻底达到净化及杀灭细菌的目的.从净化室内空气高效率考虑到,人们挑选了-C股票波段紫外光和活性氧发融合电晕放电电流量较高化设备选用单脉冲电晕放电放吸咐技术相结合的基本原理对有害物质开展清除,其中-C波段紫外线主要用来去除硫化氢、氨、苯、甲苯、二甲苯、甲醛、乙酸乙酯、乙烷、丙酮、尿烷、树脂等气体的分解和裂变,使有机物变为无机化合物。

The principle of UV photocatalytic oxidation equipment, especially the production of UV ultraviolet sterilization lamp: the use of specially produced shocking reactive oxygen UV ultraviolet light direct emission of organic waste gas, cracking organic waste gas, such as ammonia, trimethylamine, hydrogen chloride, methyl sulphur hydrogen, methyl mercaptan, methyl sulfide, butyl acetate, ethyl acetate, two methyl two sulfur, carbon disulfide and butadiene, sulfide H2S, VOC, benzene, xylene, Molecular structure chain structure of toluene makes the molecular structure chain of odorous chemical substances in organic or inorganic polymer materials dissolve into low molecular structure chemical substances such as CO 2 and H 2 under shock ultraviolet light. High-energy and high-ozone ultraviolet (UV) beams are used to decompose oxygen molecules in the air to produce free oxygen, i.e. reactive oxygen species. Ozone is produced by combining oxygen molecules with oxygen molecules because of the unbalanced positron and negative electrons carried by free oxygen. UV + O2 to O-+O * (reactive oxygen) O+O2 to O3 (ozone), it is well known that ozone has a strong oxidation effect on organic compounds, and has an immediate effect on industrial waste gas and other irritating odor. After the industrial exhaust gas is input into the purification equipment by exhaust air equipment, the soot purifier uses shaking UV ultraviolet light and reactive oxygen species to carry out cooperative dissolution oxidation-reduction reaction on the organic waste gas, so that the organic waste gasification chemical substances can be dissolved into low molecular structured chemical substances, water and carbon dioxide, and then discharged outdoors according to the exhaust pipe. Using high energy-C beam to crack the molecular bonds of bacteria in industrial exhaust gas, destroy bacterial nucleic acid (DNA), and then oxidize through ozone to completely purify and kill bacteria. Considering the high efficiency of purifying indoor air, people have selected the equipment with high corona discharge current in-C stock band, which combines ultraviolet light with active oxygen, and uses single pulse corona discharge to release and absorb charges. The basic principle of technology is to eliminate harmful substances. -C band ultraviolet is mainly used to remove the decomposition and fission of hydrogen sulfide, ammonia, benzene, toluene, xylene, formaldehyde, ethyl acetate, ethane, acetone, urethane, resin and other gases, and turn organic matter into organic compounds.

特别制作金属催化剂:依据不一样的有机废气成份配备27种左右相对性应的可塑性金属催化剂,金属催化剂选用空泡不锈钢丝网孔做为质粒载体,多方位与灯源触碰,可塑性金属催化剂在338纳米技术灯源下列产生催化反应速度,放大10-30倍光源效果,使其与废气进行充分反应,缩短废气与光源接触时间,从而提高废气净化效率,催化剂还具有类似于植物光合作用,对废气进行净化效果。

Specially prepared metal catalysts: according to different organic exhaust gas components, 27 kinds of relative metal catalysts should be provided. The metal catalysts should be vacuolated stainless steel mesh holes as carrier vectors. The metal catalysts will react with the lamp source in various directions. The plastic metal catalyst will generate catalytic reaction speed under the 338 nanometer technology source, and magnify 10-30 times the effect of light source, so that it can be carried out with exhaust gas. Full reaction can shorten the contact time between exhaust gas and light source, so as to improve the purification efficiency of exhaust gas. Catalyst also has a purification effect similar to plant photosynthesis.

环保科技溶解有机废气分子结构:应用253.7纳米技术股票波段光激光切割、断链、点燃、裂化有机废气分子结构链,更改分子式,为第一重解决;取185纳米技术股票波段光对有机废气分子结构开展催化反应,使毁坏后的分子结构中子或分子以O3开展融合,使有机或无机高分子恶臭化合物分子链,在催化氧化过程中,转变成低分子化合物CO2、H2O等,为第二重处理;再根据不同的废气成分配置27种以上相对应的惰性催化剂,催化剂采用蜂窝状金属网孔作为载体,全方位与光源接触,可塑性金属催化剂在338纳米技术灯源下列产生催化反应速度,变大10-30倍灯源实际效果,使其与有机废气开展充足反映,减少有机废气与灯源触碰時间,从而提高废气净化效率,催化剂还具有类似于植物光合作用,对废气进行净化效果,为第三重处理,通过三重处理后的废气其除臭最高可达99%以上,净化、脱臭效果大大超过GB16297-1996《大气污染物综合排放标准》二级排放标准,GB14554-93《恶臭污染物排放标准》。最后经高能紫外线光解催化氧化处理后的废气通过后端风机抽风形成负压从15m烟囱安全、达标的排放到大气中。

Environmental Science and technology dissolved organic waste gas molecular structure: application of 253.7 nanometer technology, stock band laser cutting, chain breaking, ignition, cracking of organic waste gas molecular chain, change the molecular formula, for the first time to solve; take 185 nanometer technology stock wave light on the organic waste gas molecular structure catalytic reaction, so that the damaged molecular structure of neutron or molecule to O3 fusion, organic or not. The molecular chain of the macromolecule odorous molecule is transformed into low molecular compound CO2, H2O and so on during the process of catalytic oxidation, which is the second treatment. According to different exhaust components, 27 or more inert catalysts are arranged. The catalyst uses honeycomb metal mesh as the carrier, and it contacts with the light source in all directions. The plastic metal catalyst is generated under the 338 nanometer technology lamp source. The reaction speed is increased by 10-30 times of the actual effect of the lamp source, so that it can adequately reflect with the organic waste gas, reduce the contact time between the organic waste gas and the lamp source, thus improving the efficiency of waste gas purification. The catalyst also has the similar effect of plant photosynthesis, purifying the waste gas as the third treatment. The maximum deodorization of the waste gas after triple treatment can reach 99%. The purification and deodorization of the waste gas can be achieved by triple treatment. The effect greatly exceeded the second level emission standard of GB16297-1996 "Comprehensive Emission Standard of Air Pollutants" and GB14554-93 "Odor Pollutants Emission Standard". Finally, the exhaust gas after high-energy ultraviolet photolysis catalytic oxidation is exhausted through the back-end fan to form negative pressure, which is discharged safely and up to the standard from a 15-meter chimney to the atmosphere.

/

XML 地图 | Sitemap 地图