微电解-絮凝预处理味精发酵废母液实验研究

味精发酵废母液COD浓度极高，为了有效降低后续生物处理单元的负荷，研究采用微电解絮凝方法预处理该废水。实验研究了曝气对废水COD去除率的影响，用正交实验考察了原水和出水pH值、Fe/C和反应温度等因素对COD去除率的影响，实验结果表明，曝气能有效提高COD去除率；在正交实验确定的优化因素组合，即原水pH为2，出水pH值为9，Fe/C为0.5的条件下反应3 h，废水COD平均去除率可达到48.7%。     

混凝辅助电化学法处理橙黄G染料废水

以石墨板为阳极，研究了电化学氧化法对橙黄G染料废水的降解效果。比较了在NaCl、Na2 SO4以及NaCl与FeSO4·7H2O组合的支持电解质体系中的处理效果，同时考察了电压、初始pH、电解质浓度、电极间距和电解时间等因素对废水中橙黄G脱色率及COD去除率的影响。研究结果表明，橙黄G的脱色主要是活性氯的氧化作用，橙黄G分子的矿化可能主要是电解过程中产生的·OH的作用，FeSO4·7H2O的加入增加了混凝作用，使得处理效果进一步提高。最佳脱色条件下橙黄G脱色率和COD的去除率分别为97．6％和56．3％，B／C（BOD／COD）由0．09提高至0．41，可生化性有较大改善，并且随着降解时间的增加，COD去除率逐渐升高。此结果表明，橙黄G废水COD的去除相对于脱色存在滞后性。     

粉煤灰负载铁离子催化氧化活性黄染料废水

以粉煤灰为载体,制备铁/粉煤灰负载型催化剂,并利用该催化剂催化H2O2氧化降解活性黄染料废水,探讨了H2O2投加量、催化剂投加量、染料初始浓度和初始pH值等因素对染料废水COD去除率和脱色率的影响。结果表明,当染料废水COD初始浓度为200 mg/L,初始pH值为1.7,投加0.5 g/100 mL催化剂及加入1.0 mL浓度为1.13 mol/L的H2O2溶液时,处理效果最好,此时染料废水的COD去除率和脱色率分别达到63%和99%,并且废水的可生化性得到很大的提高。利用该负载催化剂能够有效地减少活性黄染料废水中Fe3+的残留量。     

杂色云芝对2种染料的脱色条件研究

比较了2种不同液体限氮培养基中杂色云芝对酸性品红和亚甲基蓝的脱色效果，确定了最佳接种量。优化出的基本参数为T=34℃、进料浓度200mg／L、pH=4．5。实验结果表明：杂色云芝对进水的酸碱度具有很强的适应性．从pH 2.5到10．5比较宽的区间内保持了比较稳定的高脱色率，这一点对于工程应用具有实际意义。     

铁屑法处理活性染料废水的实验研究

研究了反应时间、染料浓度、进水pH以及不同的废铸铁屑投加量的条件下，废铸铁屑内电解法处理模拟印染废水的脱色能力。并采用铁屑滤床强化厌氧一好氧膜生物反应器（A／OMBR）处理含活性染料的模拟废水。研究结果表明，铁屑对模拟印染废水的最佳脱色时间为12min，酸性条件下铁屑的脱色率优于碱性条件．随铁屑投加量的增加，系统对印染废水的脱色率提高，铁屑滤床强化A／OMBR处理可以提高组合工艺出水色度和COD的去除率。     

杂色云芝对2种染料的脱色条件研究

比较了2种不同液体限氮培养基中杂色云芝对酸性品红和亚甲基蓝的脱色效果,确定了最佳接种量。优化出的基本参数为T=34℃、进料浓度200mg/L、pH=4.5。实验结果表明:杂色云芝对进水的酸碱度具有很强的适应性,从pH2.5到10.5比较宽的区间内保持了比较稳定的高脱色率,这一点对于工程应用具有实际意义。     

味精离子交换废母液处理工艺改进

味精离子交换废母液中菌体蛋白回收现现已被广泛使用，经一占提取后，高浓度废水地ＣＯＤ有明显下降，为后工序废水的进一步物化，生化处理最终达标排放提供了必需条件，提高母液ＣＯＤ去除率至关重要。     

O3／UV预处理磺酰脲类除草剂生产废水的研究

采用O3／UV工艺预处理磺酰脲类除草剂生产废水，考察了初始pH值、臭氧投量、叔丁醇投加等因素对废水处理效果的影响，并初步探讨了该工艺处理废水的反应机理。实验结果表明，在废水初始pH为13．59和臭氧投量为65．08mg／min的条件下，预处理80min后废水COD去除率达63．47％，BOD5／COD由0．03提高至0．56，EC50从11％提高至55％。随着叔丁醇浓度的增加，废水COD去除率明显降低，证明该反应体系有·OH存在；体系中加入MnO2后废水COD去除率下降了16％，氧化效率明显下降，证明该反应体系内中间产物HO2O在O3／UV降解有机废水过程中起到了重要的作用。     

高氯离子味精尾母液废水厌氧处理研究

味精尾母液废水COD浓度极高同时含有大最氯离子.采用UASB反应器对味精尾母液废水进行处理,其中接种污泥来自啤酒厂UASB反应器.实验表明:当氯离子浓度在4 500 mg/L以下时,对厌氧微生物没有明礁的抑制作用;5 000 mg/L的氯离子浓度可以看作一个抑制限值,但经过驯化后,仍可获得较好的COD去除效果;当氯离子浓度达到8 000mg/L左右时,COD平均去除率在80%以上.     

各种影响因子对电解法预处理医药废水的影响研究

探讨了电解法预处理医药废水时停留时间、电解电压、废水初始浓度、温度和废水pH值等影响因子对去除色度、COD和提高废水可生化性等处理效果的影响，并考察了其应用于工业实际废水处理的可行性。实验结果表明：电解法更适合高浓度医药废水的处理，色度的去除率可达到90％以上；电解时间宜控制在40-60min；电解电压越高，废水COD和色度去除效果越好；在实验温度范围内，温度对色度和COD去除率的影响不大；废水pH值为7．5时电解效果最佳，工程运用宜控制在6—9之间。     

放电等离子体与饲养酵母联合处理味精废水的初步研究

对采用放电等离子体与饲养酵母联合处理味精废水进行了初步研究。结果表明，放电等离子体预处理后废水的CODcr值普遍升高，但经假丝酵母联合处理后CODCr去除率增加了38．3％，效果明显优于仅采用饲养酵母法处理的味精废水，说明放电等离子体预处理可使味精废水中的有机大分子破坏成小分子，有利于生物降解，为味精废水治理提供了一条新的途径。实验初步研究了联合处理后的CODcr去除率与预处理电压、预处理电流、预处理次数的关系，结果表明存在相应的最优值。     

2种组合工艺处理靛蓝废水的中试实验研究

分别采用水解酸化/好氧MBBR/BAF和水解酸化/好氧MBBR/臭氧氧化/BAF 2种组合工艺对实际靛蓝废水进行处理规模为24 m3/d的中试研究。实验结果表明,当进水COD平均初始浓度为2 100 mg/L、平均色度为90倍、系统总水力停留时间为40 h时,前一种组合工艺对COD和色度的去除率分别达93.27%和89.87%;而后一种组合工艺对COD和色度的去除率分别达97.96%和100%,工艺中臭氧氧化单元可使处理后出水中有机物的数量大大降低。表明水解酸化/好氧MBBR/臭氧氧化/BAF组合工艺处理靛蓝废水更为有效,但增加臭氧氧化单元会使每吨废水处理成本增加0.55元。     

好氧颗粒污泥的培养及处理味精废水

以厌氧颗粒污泥为接种污泥,在模拟废水条件下利用SBR 35 d成功培养出了具有同步硝化反硝化作用的好氧颗粒污泥,反应器对COD和NH4+-N去除率分别高于95%和99%。将该反应器用于处理味精废水,当COD、NH4+-N的容积负荷分别为2.4 kg/(m3.d)、0.24 kg/(m3.d)时,COD、NH4+-N和TN去除率分别高于90%、99%和85%。处理味精废水后的颗粒污泥粒径由之前的0.8～2.5 mm减小至0.6～1.8 mm,颗粒结构较之前更加密实。     

Decolorization of textile wastewater by photo-fenton oxidation technology

This paper describes the use of photo-fenton process for color removal from textile wastewater stream. The wastewater sample to be treated was simulated by using colorless polyvinyl alcohol (PVA) and reactive dyestuff of R94H. As a result, the hydroxyl radical (HO*) oxidation can effectively remove color, but the chemical oxygen demand (COD) was removed in a slight degree. The color removal is markedly related with the amount of HO* formed. The optimum pH for both the OH* formation and color removal occurs at pH 3-5. Up to 96% of color can be removed within 30 min under the studied conditions. Due to the photoreduction of ferric ion into ferrous ion, color resurgence was observed after 30 min. The ferrous dosage and UV power affect the color removal in a positive way, however, the marginal benefit is less significant in the higher range of both. PVA as the major background COD of a textile wastewater stream inhibits the color removal insignificantly as its concentration increases.     

Pre-oxidation and coagulation of textile wastewater by the Fenton process

This paper evaluates the Fenton process, involving oxidation and coagulation, for the removal of color and chemical oxygen demand (COD) from synthetic textile wastewater containing polyvinyl alcohol and a reactive dyestuff, R94H. The experimental variables studied include dosages of iron salts and hydrogen peroxide, oxidation time, mixing speed and organic content. The results show that color was removed mainly by Fenton oxidation. The color removal reached a maximum of 90% at a reaction time of 5 min under low dosages of H2O2 and Fe2+. In contrast, the COD was removed primarily by Fenton coagulation, rather than by Fenton oxidation. The ratio of removal efficiency between Fenton process and ferric coagulation was 5.6 for color removal and 1.2 for COD removal. It is concluded that Fenton process for the treatment of textile wastewater favors the removal of color rather than COD.     

改良型AB生化法在味精废水处理中的应用

AB生化法是城市污水和多种工业废水处理最佳的新型实用技术之一。文章以AB生化法和离交废水苛化脱氨制硫酸铵相结合的工艺处理味精废水的工程实例，阐明改良型AB生化法的原理和设计中应注意的问题。     

两级常温厌氧—好氧—固定化微生物组合工艺处理酿酒废水

酿酒废水是一种典型的高氨氮浓度的有机废水.采用两级常温厌氧-好氧-固定化微生物组合工艺对酿酒废水进行中试研究,重点考察了各级工艺对有机物和氨氮的去除效果,并且对影响系统稳定运行的主要因素进行分析.试验结果表明,稳定运行状态下,一级厌氧膨胀颗粒污泥床(EGSB)反应器对有机物去除率可达到70%～90%,处理效果受环境温度影响较大;二级EGSB反应器可以同时去除有机物和氮氧化物;三级好氧接触氧化反应器对有机物的去除率可达到70%,氨氮去除率维持在50%;包埋硝化菌流化床反应器最终能有效地去除水中的氨氮,出水氨氮质量浓度低于15 mg/L.     

荧光渗透乳化油废水处理技术的研究

采用“破乳 -絮凝 -砂滤 -吸附”法对荧光渗透乳化油废水进行处理 ,结果表明 ,在适宜的处理条件下 ,该法可有效地去除水中的COD、油和色度 ,出水的 pH、COD、油和色度均达到国家一级排放标准     

味精废水的微生物转化与效益

谷氨酸发酵液经冷冻等电一离交排出的废水，无论是经除菌体回收蛋白，还是未经除菌体排出的味精废水，都含有丰富的有机、无机营养物，可被微生物利用、转化为菌体蛋白。在废水ＣＯＤＣｒ含量约为３５０００ｍｇ／Ｌ的情况下，可制取干菌体约１８ｇ／Ｌ，废水中ＣＯＤＣｒ去除率可达６５％以上，出水ＣＯＤＣｒ降至１００００ｍｇ／Ｌ左右。且饲料酵母生产成本约３０００元／ｔ。因此具有较好的经济效益、环境效益和社会效益。     

Decolorization and biodegradation of dye wastewaters by a facultative-aerobic process

BACKGROUND: Dye wastewater is one of the main pollution sources of water bodies in China. Conventional biological processes are relatively ineffective for color removal, the development of alternative treatment methods will become important. Our subjective was that of introducing a new biotreatment technology which combined a facultative biofilm reactor (FBR) with an aerobic reactor (AR) to treat a dye wastewater. The efficiencies of color and chemical oxygen demand (COD) removal and the mechanism of dye degradation were investigated. METHODS: The anthraquinone acid dye (acid blue BRLL) concentration, organic loading rate (OLR) and hydraulic retention time (HRT) were varied in the experiments to evaluate the treatment efficiency and process stability. The biodegradation products were detected by infrared (IR) and high performance liquid chromatography and mass spectrometry (HPLC-MS). RESULTS AND DISCUSSION: The results demonstrated that the facultative biofilm process was more effective for decolorization than the anaerobic stage of an anaerobic-aerobic process. Most color removal occurred in the facultative reaction (maximum to 88.5%) and the BOD (biochemical oxygen demand): COD of the FBR effluent increased by 82.2%, thus improving the biodegradability of dyes for further aerobic treatment. The dye concentration, OLR and HRT will be the factors affecting decolorization. Color removal efficiency falls as the influent dye concentration increases, but rises with increased HRT. The infrared and HPLC-MS analyses of the effluents of FBR and AR reveal that the dye parent compound was degraded in each reactor during the process. CONCLUSION: The Facultative-aerobic (F-A) system can effectively remove both color and COD from the dye wastewater. The FBR played an essential role in the process. The average overall color and COD in the system were removed by more than 93.9% and 97.1%, respectively, at an OLR of 1.1 kg COD m(-3) d(-1) and at the HRT of 18-20 hours in the FBR and 4-5 hours in the AR. The color removal mechanism in each reactor was not only a sort of biosorption on the floc materials, but even more an effect of biodegradation, especially in the facultative process. Recommendation and Outlook. In applying the F-A system to treat a dye wastewater, the control of facultative processes and the set up of appropriate operation conditions appear to be critical factors. Also, it is suggested a moderate COD loading rate and about a 24-hour HRT will favor the F-A system.