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

一块儿掌握UV光氧催化原理

联系我们

电话:15194151238

地址:山东省济南市章丘区绣惠工业园

一块儿掌握UV光氧催化原理

当前位置:澳门网上唯一授权网页 > 澳门网上唯一 > 公司新闻 >

一块儿掌握UV光氧催化原理

浏览量:?? 来源:??作者:唯一

UV光氧催化设备工作原理:


Operating Principle of UV Photo-Oxygen Catalytic Equipment:




1、运用特别制作的震撼高活性氧UV紫外光光线直射来裂化排污的有机废气有机废气,能合理的解决:氯化氢、甲硫氢、甲硫醇、甲硫醚、二甲二硫、二硫化碳和苯乙烯,硫化物H2S、VOC类,等废气的分子链结构,使有机或无机高分子废气化合物分子链,在高能紫外线光束照射下,降解转变成低分子化合物,如CO2、H2O等,从而达到有效的治理,实现达标排放.


1. The organic waste gases from cracking waste gases can be reasonably solved by direct irradiation of ultraviolet light with highly reactive oxygen species, such as hydrogen chloride, methyl thiohydride, methyl mercaptan, methyl thioether, dimethyl disulfide, carbon disulfide and styrene, sulfide H2S, VOC, etc. The molecular chains of organic or inorganic polymer waste gases can be irradiated by high-energy ultraviolet light beam. Under this condition, it can be degraded into low molecular compounds, such as CO 2, H 2, etc., so as to achieve effective treatment and meet the emission standards.




2、运用震撼高活性氧UV紫外光光线溶解气体中的氧原子造成矿酸氧,即臭氧,因矿酸氧所携正负电子不均衡因此必须与氧原子融合,从而生产制造活性氧.臭氧对紫外线光束照射分解后的有机物具有极强的氧化作用,对恶臭气体及其它刺激性异味有良好的削除效果.


2. Dissolution of oxygen atoms in gases by shaking ultraviolet light of highly reactive oxygen species results in mineral acid oxygen, i.e. ozone. Oxygen atoms must be fused with oxygen atoms because of the imbalance of positive and negative electrons carried by mineral acid oxygen, thus producing active oxygen. Ozone has a strong oxidizing effect on organic substances decomposed by ultraviolet light beam, and has a good removal effect on odorous gases and other irritating odors.




3、恶臭味汽体根据有机废气搜集排风系统机器设备进到到配有UV高效率光氧催化空气氧化控制模块的反映腔后,震撼UV紫外光光线及活性氧对恶臭味汽体开展协作溶解氧化还原反应,使恶臭气体物质降解转化成低分子化合物、水和二氧化碳,再通过排风管道排出室外.


3. After the odor vapor body enters the reflecting chamber equipped with the UV high-efficiency photo-oxygen catalytic air oxidation control module according to the machine equipment of the organic exhaust gas collection and exhaust system, it shocks the UV ultraviolet light and reactive oxygen to carry out the cooperative dissolution oxidation-reduction reaction to the odor vapor body, so that the odor gas substance can be degraded into low molecular compound, water and carbon dioxide, and then discharged outdoors through the exhaust duct.




4、利用高能UV光束裂解恶臭气体中细菌的分子键,破坏细菌的核酸(DNA),再通过臭氧进行氧化反应,彻底达到脱臭及杀灭细菌的目的.


4. Using high-energy UV beam to crack the molecular bonds of bacteria in odor gas, destroy bacterial nucleic acid (DNA), and then oxidize through ozone to completely achieve the purpose of deodorizing and killing bacteria./


  报错


XML 地图 | Sitemap 地图