針對(duì)脫硫廢水的處理,目前普遍采用氧化��、中和��、絮凝��、沉淀等方法�����,主要包括以下幾個(gè)步驟:
For the treatment of desulfurization wastewater, oxidation, neutralization, flocculation, sedimentation and other methods are widely used, mainly including the following steps:
1.COD處理
1. Cod treatment
脫硫廢水中的COD大部分來(lái)自于二價(jià)鐵鹽或以S2O6為主體的硫磺化合物�。對(duì)于二價(jià)鐵鹽,可通過(guò)調(diào)節(jié)pH8——10即可在空氣中氧化生成Fe(OH)3沉淀�����。針對(duì)S2O6為主體的硫磺化合物��,若僅采用氧化還原�、活性炭吸附等處理�����,很難處理到10mg/L濃度以下����,因此�����,目前主要以增設(shè)合成吸附劑進(jìn)行處理為主要手段���,即進(jìn)一步使用合成吸附劑吸附處理并用藥品進(jìn)行脫附,脫附后的COD以濃溶液形式取出�����,再進(jìn)一步處理�。
Most of COD in desulfurization wastewater comes from ferrous salts or sulfur compounds with s2o6 as the main body. For divalent iron salt, Fe (OH) 3 can be oxidized in air by adjusting pH to 8-10. Sulfur compounds with s2o6 as the main body are difficult to be treated below 10mg / L if they are only treated by oxidation-reduction and activated carbon adsorption. Therefore, at present, the main method is to add synthetic adsorbent for treatment, that is, to further use synthetic adsorbent for adsorption treatment and drug desorption, and then take out COD in the form of concentrated solution for further treatment.
2.重金屬的處理
2. Treatment of heavy metals
重金屬的處理主要通過(guò)沉淀法實(shí)現(xiàn)。投加Ca(OH)2漿液調(diào)節(jié)pH9左右����。此項(xiàng)操作的目的一是為調(diào)節(jié)pH滿足排放標(biāo)準(zhǔn),二是將金屬離子以M(OH)n形式析出����,以去除廢水中的金屬離子���,三是利用Ca(OH)2與F-反應(yīng)生成CaF沉淀的特性除去廢水中的F-。研究表明����,加入廢水中的Ca(OH)2的質(zhì)量濃度達(dá)到900mg/L時(shí),氟離子濃度可降到5——8mg/L甚更低��,可滿足排放標(biāo)準(zhǔn)要求���。對(duì)于鎘���、汞等重金屬,應(yīng)采用硫化物沉淀法�����,通過(guò)生成更難溶解(離子積常數(shù)更?。┑腗nSm加以去除。
Heavy metals are mainly treated by precipitation. First, add Ca (OH) 2 slurry to adjust pH to about 9. The purpose of this operation is to adjust the pH to meet the discharge standard, precipitate the metal ions in the form of M (OH) n to remove the metal ions in the wastewater, and use the characteristics of CAF precipitation formed by the reaction of Ca (OH) 2 and F - to remove the F - in the wastewater. The results show that when the mass concentration of Ca (OH) 2 in the wastewater reaches 900 mg / L, the fluoride ion concentration can be reduced to 5-8 mg / L or even lower, which can meet the requirements of the discharge standard. For cadmium, mercury and other heavy metals, sulfide precipitation method should be used to remove them by producing mnsm which is more difficult to dissolve (with smaller ion product constant).
3.懸浮物處理
3. Suspended solids treatment
懸浮物的處理主要通過(guò)絮凝方法實(shí)現(xiàn)����,即通過(guò)投加混凝劑�����、助凝劑在水體中發(fā)生反應(yīng)�,絮凝劑在攪拌下分散后并加快水解反應(yīng)和脫穩(wěn)����,使水中膠體態(tài)懸浮物脫穩(wěn)形成細(xì)小礬花。伴隨微弱攪拌的進(jìn)行�����,礬花不斷成長(zhǎng)為大絮體�����,而助凝劑的投加進(jìn)一步促進(jìn)絮體成長(zhǎng)增加沉淀性��。完全反應(yīng)后經(jīng)斜板沉淀池進(jìn)行沉淀排泥以達(dá)到去除的目的���。
The treatment of suspended solids is mainly realized by flocculation, that is, coagulant and coagulant aid are added to react in the water body. After the flocculant is dispersed under stirring, the hydrolysis reaction and destabilization are accelerated, and the colloidal suspended solids in the water are destabilized to form fine alum. With the weak agitation, alum flocs grow into large flocs, and the addition of coagulant aids further promote the growth of flocs and increase the precipitability. After complete reaction, the sludge is precipitated and discharged through inclined plate sedimentation tank to achieve the purpose of removal.
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2021-05-14
