運用超聲波清洗機輕松的完成清洗工作后你對運用后的廢水有過處置嗎?超聲波清洗液廢水帶來的危害你有曉得幾呢?維護環(huán)境人人有責,就來給大家科普一下超聲波清洗液廢水帶來的危害以及處置的主要辦法!
Have you ever treated the waste water after using the ultrasonic cleaning machine to finish the cleaning work easily? Do you know the harm of wastewater from ultrasonic cleaning fluid? It's everyone's responsibility to maintain the environment, so let's popularize the science of the harm of ultrasonic cleaning liquid wastewater and the main methods of disposal!
首先先來理解一下超聲波清洗液廢水的來源于危害,超聲波清洗廢水主要來源于用超聲波和超聲清洗劑對物件清洗產(chǎn)生的廢水。廢水中含有有機油和特定外表活性劑等物質(zhì),該類廢水COD含量高,懸浮物濃度高,可生化性低。如不停止預處置,很難停止生化降解,若直接排入環(huán)境中,將對環(huán)境形成嚴重毀壞,直接影響到了人們的安康,危害水平大!
First of all, to understand the source of ultrasonic cleaning fluid wastewater from the harm, ultrasonic cleaning wastewater mainly comes from the use of ultrasonic and ultrasonic cleaning agent to clean objects. The waste water contains oil and special surface active agent, which has high COD content, high suspended solids concentration and low biodegradability. If the pretreatment is not stopped, it is difficult to stop the biochemical degradation. If it is directly discharged into the environment, it will cause serious damage to the environment, directly affect people's health, and the level of harm is great!
理解了超聲波清洗液廢水的危害曉得運用后對其處置是多么的重要了吧!目前超聲波清洗液主要廢水主要處置辦法有:混凝沉淀+生化;芬頓氧化+生化混凝沉淀+生化:混凝法是經(jīng)過向污水中投加混凝劑。
Understand the harm of ultrasonic cleaning liquid waste water, know how important it is to treat it after use! At present, the main treatment methods of ultrasonic cleaning solution wastewater are: coagulation sedimentation + biochemical; Fenton oxidation + biochemical coagulation sedimentation + biochemical: coagulation method is to add coagulant to the wastewater.
混凝劑在污水中發(fā)作緊縮雙電層,吸附外表中和,吸附架橋和沉淀網(wǎng)捕,使細小懸浮顆粒和膠體顆粒匯集成較粗大的顆粒而沉淀,得以與水別離,使污水得到凈化的辦法。將混凝處置后的水排入生化系統(tǒng)進一步處置,終到達排放規(guī)范。
Coagulant in the sewage to tighten the electric double layer, adsorption surface neutralization, adsorption bridging and precipitation network capture, so that fine suspended particles and colloidal particles can be integrated into coarse particles and precipitated, separated from the water, so that the sewage can be purified. The water after coagulation treatment is discharged into the biochemical system for further treatment, and finally reaches the discharge standard.