靛蓝和硫化黑染色废水处理

采用混凝沉淀-水解酸化-接触氧化-混凝沉淀的组合工艺处理靛蓝和硫化黑染色废水,其最终出水COD≤100 mg/L.

羊毛染色废水处理

滨州职业学院郭利在厌氧池和生化池中设置侧流式S型跑道，在厌氧池中增设厌氧搅拌器，达到快速分离有机质的目的。在调节池和生化池中设高深度生化曝气器，使生化池较好地氧化分解厌氧反应后的有机物质。砂滤池采用下进上出的工艺，向下排除悬浮污泥。

降解工程菌处理染色废水的研究

采用缺氧－好氧工艺，在缺氧池中投加脱色菌，在好氧池中分别投加降解工程菌、 降解高效菌和活性污泥，试验比较了这三种组合工艺对染色废水的处理效果。结果表明：脱 色菌－降解工程菌工艺的效果最好，在高浓度下活性高、降解速率快、处理效果好。

改性膨润土混凝剂处理阳离子染料染色废水的研究

介绍了自制的复合改性膨润土对阳离子染料染色废水的吸附絮凝特性，考察了ｐＨ值、反应温度、反应时间、复合改性膨润土用量、助剂、无机盐等因素的影响。结果表明，复合改性性膨润土对阳离子染料染色废水具有优异的吸附性能，以聚丙烯酸胺作助凝剂可使脱色率达９９．９％，ＣＯＤ去除率达 ９３ ％，污泥沉降比仅为 １～ ２％，并且具有沉降快、适应性强、操作简单、费用低廉等优点。

ClO_2氧化-紫外光降解法处理染色废水的试验研究

用ClO2的氧化作用与紫外光的降解相结合处理染色废水,与单独用ClO2氧化或紫外光降解处理相比,CODCr去除率和脱色率均有较大提高。

生物转盘法处理毛纺织工业染色废水

生物转盘法处理毛纺织工业染色废水效果好在毛纺织工业染色废水的各种处理方法中,生物转盘法应用得此较广泛。这是因为试验研究及运行资料都表明:生物转盘法处理毛纺织工业废水,能收到此较满意的处理效果。当水力负荷0.08～0.12米3/米2·日时（有机负荷约为15～25克/米2·日）,CODcr去除率为40～70％,BOD5去除率为80～90％,色度去除率为30～50％,处理后的水质指标,基本能达到国家“三废”排放试行标准的要求。下表为国内某些毛纺织厂染色废水处理的一些实际运行数据:

生物接触氧化法处理毛纺织染色废水

一、毛纺织工业染色废水用生物接触氧化法处理效果好生物接触氧化法,是兼有活性污泥法特点的好气性生物膜法处理废水的一种较新的方法。近年,在毛纺织工业染色废水的处理工程中,生物接触氧化法得到了比较广泛的使用。这首先是因为用生物接触氧化处理毛纺织工业染色废水可以得到比较满意的处理效果,根据试验研究及运转资料,当有机负荷为1—1.5公斤/米2·日时,CODcr去除率为60—70％,BOD5

芳纶固载BiOBr复合材料的制备及其光催化降解染色废水

为解决粉体光催化剂在降解纺织印染废水过程中易团聚、难以回收利用的问题,采用溶剂热法制备芳纶固载BiOBr(BiOBr/AF)复合材料,对材料的微观形貌和结构进行表征与分析,研究了BiOBr/AF在可见光照射下对模拟染色废水的光催化深度降解性能。结果表明:以乙二醇为溶剂,柠檬酸为螯合剂,芳纶为固载基体,于160℃下反应12 h,形貌规整的厚片状BiOBr均匀生长于AF载体表面;BiOBr/AF可实现对直接湖蓝5B、弱酸性艳蓝A和活性嫩黄K-4S染料模拟染色废水的深度降解,降解率均高于98%,且具有良好的循环使用稳定性,化学需氧量(COD)和生化需氧量(BOD)降解率均高于70%,深度降解后的COD、BOD值能满足纺织染整工业水污染物排放限值要求。

电解法处理染色废水

染色废水如何处理,是一个不容易解决的问题。国内外尚没有一个成熟的方法。现有的水处理技术,虽有多种,但用于毛纺织厂的染色废水处理仍不理想。比如: 活性污泥法,虽然能除去大量有机物,但对色度很难消除,因为染料结构复杂,很难被微生物氧化。硅藻土混凝沉淀法,虽能除去一部分色度,但耗酸量大,而且产生大量泥渣,不易处置。次氯酸钠光氧化法,虽能去除色度,但不能除去六价铬,反而起副作用,废水中又加了大量氯,对鱼类和植物造成危害。臭氧法,设备复杂,不易制造。电解法处理染色废水。

江苏挂牌督办金坛市第二污水处理厂等8家环境违法企业

江苏省政府将对近期检查发现的金坛市第二污水处理厂、吴江市运东邱舍水处理有限公司、无锡市锡山区东北塘农坝村染色废水处理中心等8家严重违法排污企业实行省级挂牌督办和责任追究。将太湖污染治理进一步落到实处。本次督办限期治理和停产整治期为今年6月和7月。

装饰木业企业清洁生产研究

剖析了重组装饰材产品为主的装饰木业企业的清洁生产工艺过程。在大型重组装饰材企业废水处理实践的基础上,提出重点抓好重组装饰材企业废水处理,宜采用多种工艺组合的三级处理工艺和深度处理技术相结合的方案;应实行绿色加工与绿色化工的生态优先原则,充分利用原料中的所有成分,注重开发先进的清洁生产新工艺;要建立专业工业区,以实现原料资源综合利用的闭路循环。

用水泥炉灰去除水溶液中的阴离子染料

水泥炉灰(CKD),能很有效地从水溶液中和染色车间废水中去除阴离子染料。所研究的一批吸收参数包括CKD用量、接触时间、摇动频率、染料溶液浓度和组成。去除染料的效率不仅完全取决于染料的种类、浓度和混合比,而且还取决于CKD用量、接触时间和搅拌率。

Combined treatment of dyeing wastewater by a new sequential bi-cycling biological fluidized bed

A new wastewater treatment equipment, the bi-external recycling biological fluidized bed (BRBFB), which is an effective equipment, was investigated. Anaerobic digestion, aerobic aeration and settlement processes with a fixed sequential procedure were compacted into this reactor. By five different treatment courses, the optimization of the combined operation procedure in the system was determined to be a 12-hour cycle including an inflow process, a 4 h anaerobic digestion process, a 4 h aerobic aeration process, a 2 h settlement process and a 2 h recess process including effluent discharge process. By utilizing BRBFB to treat a synthetic dyeing wastewater, 90% of COD_ Cr is removed for a higher-concentration water (COD_ Cr 1 000-1 200 mg/L), and 82% of COD_ Cr is removed for a lower-concentration water (COD_ Cr 400-600 mg/L). Near 100% color is removal and discharging standards for industry wastewater are achieved.

DECOMPOSITION OF BLACK LIQUOR BY ULTRASOUND PROCESS

Ultrasound (US)-induced cavitation is an effective way in oxidizing organic contaminants in wastewater either as the independent operation unit or in combination with other oxidation methods. In this paper, black liquor and filtrate after acidifying and settling were sonicated. The effect of working parameters on ultrasonic degradation of black liquor, such as different combination methods, frequency, power supply, initial concentration, pH, duration time, ionic strength and catalyst were studied. The results were as follows: (1) At the conditions of 40kHz, 100W, 4h, pH at 6 and temperature 30?℃, utilizing US/US-H2O2/US-Fenton, weak-orange filtrate turned to colloid with the increase of time and little sediment produced after settling. Especially filtrate came to be milk white collides and upper water approached to nearly achromatic by US-Fenton. Compared with the US, US-H2O2/US-Fenton COD (Chemical oxidation demand) removal ratio can increase 15%, 30% respectively. Because of more hydroxyl radicals produced in the reaction process; (2) At the condition of 100W and 4h, the degradation efficiency of black liquor was better at 40kHz over at 20kHz. Moreover black liquor can be biodegraded easily. Those based on that the big molecule of contaminants in aqueous solution can be changed into the little molecule with ultrasound (3) At the condition of 40kHz and 4h, the COD removal ratio of black liquor was more higher at 60W than at 80W, while the removal ratio of COD at 60W was nearly close to the ratio at 100W; (4) The initial concentration of black liquor influenced the effect of sonochemical degradation; (5) The variation of pH had no effect on degradation; (6) The longer the duration time, the greater the removal ratio of COD. But this ratio increased slowly after 4h; (7) Adding 0.2g/L NaCl to change the ionic strength of the black liquor, the COD removal ratio can increase 10%; (8) The degradation rates increased by the coexistent catalysts of TiO2, Co2+ and Ag+.