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1、污泥膨胀 1、污泥膨胀的原因 1、丝状菌膨胀 活性污泥絮體(tǐ)中的丝状菌过度繁殖,导致膨胀,促成条件包括进水有(yǒu)机物(wù)少,F/M太低,微生物(wù)食料不足;进水氮、磷不足;pH值低;混合液溶解氧太低,不能(néng)满足需要;进水波动太大,对微生物(wù)造成冲击。 通过活性污泥沉降性能(néng)、容积指数判断丝状菌发生膨胀的程度: 2、非丝状菌膨胀 由于进水中含有(yǒu)大量的溶解性有(yǒu)机物(wù),使污泥负荷太高,而进水中又(yòu)缺乏足够的N、P,或者DO(溶氧)不足,细菌很(hěn)快把大量有(yǒu)机物(wù)吸入體(tǐ)内,又(yòu)不能(néng)代謝(xiè)分(fēn)解,向外分(fēn)泌出过量的多(duō)糖类物(wù)质。 这些物(wù)质分(fēn)子中含羟基而具有(yǒu)较强的亲水性,使活性污泥的结合水高达400%(正常為(wèi)100%左右),呈黏性的凝胶状,无法在二沉池分(fēn)离。 另一种非丝状菌膨胀是进水中含有(yǒu)较多(duō)毒物(wù),导致细菌中毒,不能(néng)分(fēn)泌出足够量的黏性物(wù)质,形不成絮體(tǐ),也无法分(fēn)离。 2、解决办法 為(wèi)防止污泥膨胀,首先应加强管理(lǐ)操作,经常检测污水水质、曝气池内溶解氧、污泥沉降比、污泥指数和进行显微镜观察,如发现异常情况应及时采取措施,如加大空气量、及时排泥、在有(yǒu)可(kě)能(néng)时采取分(fēn)段进... -
Question: How to dispose of the methane produced by anaerobic digestion? How to take advantage?Answer: There are many ways to use it, such as fuel, power generation, etc. However, if it is used, the safety requirements are very high and the investment cost is also high. Therefore, post-combustion emissions are generally produced at home and abroad, such as those produced by anaerobic treatment devices such as AF and IC. The methane is automatically ignited and burned using a torch. It can also be used in biogas blowers, which is a good way to use it. This type of blower can be powered by electricity and biogas respectively.2. Question: This process uses submerged biofilm. Considering that adding an external carbon source requires more labor and is not economical, it also reduces dissolved oxygen and the ammonia nitrogen removal effect is not bad. The... -
污水处理(lǐ)工艺中脱氮技术的应用(yòng)发展历史可(kě)追溯至20世纪,并在工程实践中得以广泛应用(yòng)。此外,污水处理(lǐ)进程中,水质中氮的含量為(wèi)衡量水质的一線(xiàn)重要指标,因此脱氮工艺成為(wèi)污水处理(lǐ)的重要环节。一旦排入江河湖(hú)海等水體(tǐ)中的水质含氮量较高,将会导致水體(tǐ)产生富营养化,严重危害生态环境及人體(tǐ)健康,因此,在污水处理(lǐ)过程中须注重生物(wù)脱氮效率的提升。 生物(wù)脱氮基本原理(lǐ) 传统生物(wù)脱氮理(lǐ)论中,生物(wù)脱氮过程通常分(fēn)為(wèi)反硝化阶段、硝化阶段、氨化阶段三个阶段,其中氨化阶段即指借助异养型微生物(wù)、好氧型生物(wù)的应用(yòng),分(fēn)解并氧化污水中的含氮有(yǒu)机物(wù),生成氨氮;硝化阶段即指借助硝化菌的应用(yòng)同氨氮产生硝化反应,生成NO3-及NO2-。反硝化阶段即指借助反硝化菌同NO3-及NO2-产生反硝化反应,生成N2。生物(wù)脱氮工艺流程主要可(kě)分(fēn)為(wèi)氧化沟工艺、两级活性污泥法脱氮工艺、传统脱氮工艺等。其中所涉及化學(xué)反应主要如下: 硝化反应 主要由硝化、亚硝化两步骤展开,反应活动分(fēn)别选用(yòng)自养型硝酸盐细菌、自养型亚硝酸盐细菌两种不同硝化菌完成反应。所选用(yòng)... -
芬顿反应器的原理(lǐ) 过氧化氢(H2O2) 与二价铁离子Fe的混合溶液把大分(fēn)子氧化成小(xiǎo)分(fēn)子把小(xiǎo)分(fēn)子氧化成二氧化碳和水,同时FeSO4可(kě)以被氧化成3价铁离子,有(yǒu)一定的絮凝的作用(yòng),3价铁离子变成氢氧化铁,有(yǒu)一定的网捕作用(yòng),从而达到处理(lǐ)水的目的。 Fenton试剂法的优点 Fenton试剂是一种常用(yòng)的高级氧化技术,相对其他(tā)氧化剂而言,其在黑暗中就能(néng)破坏有(yǒu)机物(wù),具有(yǒu)操作过程简单、反应易得、运行成本低廉、设备投资少且对环境友好性等优点。 芬顿Fenton高级氧化法 Fenton法的原理(lǐ) Fenton化學(xué)氧化法是应用(yòng)双氧水(H2O2)与亚铁(Fe2+)反应产生氢氧自由基的原理(lǐ),进行氧化有(yǒu)机污染反应,将废水中有(yǒu)机物(wù)污染氧化成二氧化碳和水的一种高级氧化处理(lǐ)技术。其化學(xué)反应机制如下: H2O2+Fe2+→OH+OH-+Fe3+→Fe(OH)3↓ 影响Fenton法氧化反应效果与速率因子:反应物(wù)本身的特性,H2O2的剂量,Fe2+的浓度,pH值,反应时间,温度。 Fenton法的优点 ①对环境友善:处理(lǐ)后不像其它的化學(xué)药品,如漂... -
反渗透膜元件一般情况下,可(kě)以使用(yòng)2~3年左右。若想延長(cháng)使用(yòng)寿命,可(kě)对反渗透膜元件进行清洗,通常分(fēn)為(wèi)物(wù)理(lǐ)冲洗和化學(xué)冲洗两种方式,当物(wù)理(lǐ)冲洗已经不能(néng)使反渗透膜的性能(néng)恢复,就应该需进行化學(xué)清洗了。 反渗透膜的清洗 根据经验,如果反渗透装置每隔三个月或更長(cháng)时间清洗一次。如果是1-3个月清洗一次,则需要改进运行工况,提高预处理(lǐ)效果。 1、判断清洗的情况: (1)标准化的淡水产量下降了10%以上。 (2)标准化的透盐率增加了10%以上。 (3)為(wèi)了维持正常的淡水流量,经温度校准后给水与浓水间的压差增加了10%以上。 (4)内部装置有(yǒu)严重污染物(wù)和结垢物(wù)。 (5)RO装置長(cháng)期停用(yòng)前。 (6)RO装置例行维护。 判断是否对反渗透系统实施清洗前,还应综合考虑以下一些可(kě)能(néng)产生上述现象的其他(tā)原因: ☆ 操作压力下降(压力控制装置失灵和高压泵出现异常); ☆ 进水温度降低(加热器故障,或季节变化引起水温降低); ☆ 进水含盐量升高; ☆ 预处理(lǐ)异常; ☆ 膜损伤、串联膜元件中心管不对中、压力容器O型密封圈密封不严等原因导致浓水渗入淡水。 2、污... -
The concept of high-quality drinking water, the current domestic standards for high-quality drinking water and the ideas for formulating standards are introduced. Several models for achieving high-quality drinking water were proposed, and the water quality characteristics of high-quality drinking water produced by different advanced treatment processes in water plants were discussed. At the same time, the high-quality drinking water demonstration project of Suzhou's secondary water supply and quality-separated water models was introduced. 1.Thoughts on high-quality drinking water quality After carefully sorting out the high-quality drinking water standards in various places, we found that the main improvements have been made in the water quality indicators shown in Table 1. Corresponding to the national standard, high-quality drinking water has significantly reduced total dissolv...
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