2) ozonized water
臭氧处理水
3) ozonated sea water
臭氧处理海水
1.
A experiment that hatching zygote of Pacific oyster and breeding larvae with ozonated sea water and non-ozonated sea water was designed in this paper.
本文主要研究了用臭氧处理海水在经过连续充气暴气 12 h、2 4 h、不经充气暴气的处理水及没经臭氧处理的正常海水 ,进行太平洋牡蛎受精卵的孵化和幼虫培育实验 ,结果表明 :受精卵在经过 2 4 h暴气的处理 ,水孵化率最高为 94 % ,其次为没经过处理的正常海水为 81% ,暴气 12 h为 19% ,没经过暴气为 0 ;幼虫培养在没经过处理的正常海水中生长最快 ,成活率为85 % ,其次为经 2 4 h暴气的处理水 ,成活率为 80 % ,暴气 12 h为 2 3% ,没经过暴气为 0 ,从而为臭氧处理海水在贝类育苗上的应用提供一定的指导。
4) ozone technology
臭氧技术
1.
This article introduces a kind of sulfur dioxide segradation device based on ozone technology,including the framework, the working principle and operational control, some related parameter requirements of usage and its application in solving the problem that the Sulfur Dioxide left in aquatic products or other food products.
文章介绍了一种基于臭氧技术的二氧化硫降解装置的结构组成、工作过程与操作控制、操作使用有关参数要求及其在解决水产品或其他食品中二氧化硫残留问题上的应用。
2.
This paper introduces the sensors that are used in the products with ozone technology and expounds the principle of the temperature sensors,light sensors and infra-red far-controlling technology which are usually used in the products with ozone technology.
简述了传感器在臭氧技术产品中的应用。
3.
The research progress of ozone technology was reviewed on decolorization of wastewater,minimization of excess sludge and reduction of endocrine disrupting chemicals(EDCs).
臭氧技术已在污水处理领域中得到广泛的应用。
5) ozone treatment
臭氧处理
1.
Studies on damage of membrane lipid peroxidation and deesterification caused by ozone treatment in Laminaria japonica;
臭氧处理对海带膜脂过氧化和脱酯化伤害研究
2.
The effects of ozone treatment on the molecular structure and polarity of SEBS,and toughening PA6 with ozonized SEBS were studied.
研究了臭氧处理对氢化苯乙烯-丁二烯-苯乙烯嵌段共聚物(SEBS)分子结构及其极性的影响,并对臭氧处理SEBS增韧PA6进行了研究。
3.
This paper analyzes ozone treatment of typical secondary effluent from a sewage treatment plant (Gaobeidian Sewage Treatment Plant).
二级生化出水经臭氧处理后 ,还可以有效去除细菌 ,并破坏大分子及苯环 ,从而提高了水的可生化降解性。
6) ozonation
臭氧处理
1.
Based on the author s own experience and collected information from abroad, this paper discussed some theoretical and technical problems related to the application of ozonation in advanced water treatment process.
以常规处理即混凝—沉淀—过滤流程为骨架导入臭氧和生物活性炭处理是国外用的比较多的深度处理流程,臭氧处理的目的主要在于去除水中三卤甲烷前驱物质,去除水的异臭味或水的消毒。
补充资料:臭氧水
人们把含有臭氧的水叫做臭氧水。臭氧水具有极强的氧化性,是广谱消毒杀菌剂,能杀灭物体表面的细菌病毒,去除果蔬残留农药,且无二次污染。
臭氧在水中是不稳定的,时刻发生还原反应,产生十分活泼的、具有强烈氧化作用的单元子氧( o),在产生瞬时,对水中细菌、微生物有机物质进行分解作用。
o3 → o2+ (o) (o)+h2o → 2ho
臭氧在水中的"半衰期"为20min(ph7.6时41min,ph10.4时为0.5min)。臭氧水对各种致病微生物均有极强的灭菌作用,臭氧在水中不稳定,发生强烈氧化还原反应,产生极活泼、具有强烈的氧化作用的单元子氧(o)、羟基(oh)。羟基氧化还原电位为2.8v,相当于氟的氧化能力
说明:补充资料仅用于学习参考,请勿用于其它任何用途。