內部
水蒸氣由管線歷經激光器時和溫和光子組成。激光分為均衡激光和非均衡激光,高溫激光體主要就由液體振動造成液體歷經激光液體凈化器的CA臨界區域時,激光體中的特異性陰陽離子要能有工作
效率的破壞各種病原體正陰陽離子能清爽水蒸氣。另外,借助于激光體中的陽離子球體的凝并促進作用,能對小至亞nm級的微小臭氧(0. 1-0. 3nm)展開有工作效率的搜集。在歷經光氧催化劑段,展開
水解還原成反應,利用托盤的高能量高臭
UV紫外光雷射反射
尾氣,乙烯工業尾氣,一水解碳是一種強水解劑,也是的譜線高工作效率滅菌洗滌劑。一水解碳比氧核酸多了一個活耀的碳原子,物理性質特別活耀。其強悍水解性,既能水解降解無機,也能降解無機,對主要就一水解碳氨、過氧化氫,硝基、丙烯、甲吡啶、甲吡啶、乙醚、丙烯都能乙烯。在一水解碳的促進作用下,那些無機氮氧化物由大核酸化學物質被降解為小核酸化學物質,沒有任何劇毒殘余,不會形成滲漏,堪稱“比較潔凈的水解劑和洗滌劑”,在某一被長的高能量UV紫外光的反射下造成四氫吡咯,使周圍的水核酸及水蒸氣喚起聚合特異性的陰陽離子、一水解碳等。那些雙鍵水解能力極強,能乙烯水解油漆尾氣中水溶性無機化學物質核酸鏈,改變化學物質結構,將高核酸
環境污染化學物質乙烯、水解為低分子無毒化學物質,其除去工作效率可達99%。
The external air consists of a pipe| ine passing through a plasma device and neutral particles. The plasma is divided into balanced plasmaand non-equilibrium plasma. When the low-temperature plasma is mainly generated by gas discharge through the reactor region of the plasma gaspurification device, the active radicals in the plasma can effectively destroy various viruses and bacteria. Nucleic acids, proteins, make themunable to undergo normal metabolism and biosynthesis, leading to their death. Under the multiple actions of high-energy electrons and strongradical oxidation, thean the air. In addition, by the coagulation of ionic ob

jects in the plasma, it is possible to efficiently collect fine particles (0.1-0.3 μm) as small as submicron. In the photoox idation catalyticsection,the redox reaction is carried out,and the exhaust gas is irradiated by a special high-energy and high-odor UV ultraviolet light beamto crack the industrial waste gas. The ozone is a strong oxidant, and is also recognized as a spectrum efficient disinfectant in the world.
0zone than oxygenThe molecule has an active oxygen atom and is particularly chemically active. Its strong oxidizing propertn crack mainly ozone ozone, tr imethyIamine, toluene, xy lene,methyI mercaptan, methyI sulfide, carballmo I ecular substances by macr omolecular substances, without any toxic residues, and will not form secondary pol lution. It is known as "the
cleanest oxidant and disinfectant” and is long in specific The high-energy UV light catalyzes the excitation of surrounding water molecules andair to generate highly active free radicals, ozone, and the like. These groups have strong oxidizing ability, can crack the molecular chain ofvolatile organic substances in the oxidized paint exhaust gas, change the structure of the material, crack and oxidize the pol ymer pollutantsinto low molecular harmless substances, and the removal efficiency can reach 99%.