CN106006823B - 一种基于木薯渣的印染废水处理剂 - Google Patents
一种基于木薯渣的印染废水处理剂 Download PDFInfo
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
- C02F1/281—Treatment of water, waste water, or sewage by sorption using inorganic sorbents
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
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- C—CHEMISTRY; METALLURGY
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- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/28—Treatment of water, waste water, or sewage by sorption
- C02F1/286—Treatment of water, waste water, or sewage by sorption using natural organic sorbents or derivatives thereof
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2103/00—Nature of the water, waste water, sewage or sludge to be treated
- C02F2103/30—Nature of the water, waste water, sewage or sludge to be treated from the textile industry
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- Removal Of Specific Substances (AREA)
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Abstract
一种基于木薯渣的印染废水处理剂,按重量份数计,包括如下组分:木薯渣80~120份、活性炭20~30份、高岭土30~50份、石灰20~30份、钡盐1~5份、硅胶10~15份、聚氧化铝20~30份、亚硫酸钙10~15份、聚丙烯酸钠5~10份、2‑丙烯酸蔗糖酯1~5份。本发明处理污染物范围广,效果良好,成本低,性能稳定,沉淀效果好,出水水质好,处理成本低;污水中加入该药剂后,悬浮物立刻絮凝,沉淀快速,处理后的污水能够达到排放标准,絮团强度高,疏水性能好。
Description
技术领域
本发明涉及一种废水处理剂,具体是一种基于木薯渣的印染废水处理剂。
背景技术
印染行业是纺织工业用水量较大的行业,水作为媒介参与整个染整加工过程。印染废水水量大,色度高,成分复杂,废水中含有染料、浆料、助剂、油剂、酸碱,纤维杂质及无机盐等,染料结构中硝基和胺基化合物及铜、铬、锌、砷等重金属元素具有较大的生物毒性,严重污染环境。印染废水含大量的有机污染物,排入水体将消耗溶解氧,破坏水生态平衡,危及鱼类和其它水生生物的生存。沉于水底的有机物,会因厌氧分解而产生硫化氢等有害气体,恶化环境。印染废水的色泽深,严重影响受纳水体外观。造成水体有色的主要因素是染料。目前全世界染料年总生产量在60万吨以上,其中50%以上用于纺织品染色;而在纺织品印染加工中,有10%~20%的染料作为废物排出。印染废水的色度尤为严重,用一般的生化法难以去除。有色水体还会影响日光的透射,不利于水生物的生长。在使用化学氧化法去除色度时,虽然能使水溶性染料的发色基被破坏而褪色,但其残余物的影响仍然存在。印染废水大部分偏碱性,进入农田,会使土地盐碱化。
发明内容
为了解决上述问题,本发明提供一种基于木薯渣的能够有效净化印染废水的处理剂。
技术方案如下:
一种基于木薯渣的印染废水处理剂,按重量份数计,包括如下组分:
木薯渣80~120份、活性炭20~30份、高岭土30~50份、石灰20~30份、钡盐1~5份、硅胶10~15份、聚氧化铝20~30份、亚硫酸钙10~15份、聚丙烯酸钠5~10份、2-丙烯酸蔗糖酯1~5份。
所述钡盐为碳酸钡、氯化钡或硫酸钡的一种或几种组合。
所述高岭土为白硼钙石草酸乙酯复合改性高岭土,其制备方法包括如下步骤:
(1)配料:按重量份之比为白硼钙石:草酸乙酯:高岭土=5~10:20~30:40~50称取各组分备用;
(2)混料:将高岭土和白硼钙石混合均匀,再加入草酸乙酯搅拌均匀;
(3)反应:将混料倒入高温高压反应釜,向反应釜中充惰性气体排尽空气,调节反应釜中压力为2~2.5Mpa,温度为260~300℃,并将反应釜置于超声场中,超声场的频率为30~35KHz,功率密度为0.45~0.5w/cm2;
(4)干燥:反应15~30mim后,自然冷却至75~85℃,将物料从反应釜中倒出并摊开到75~85℃的烘箱中,使得未反应的草酸乙酯挥发干净,再磨粉至粒度小于100微米,即得。
有益效果如下:
本发明通过上述组分复配,含有多种活性基团,发挥协同作用,与重金属发生络合、螯合、吸附、交换等物理化学反应,能够捕获水体中的多种金属离子。适用于城市污水、含油污水、印染废水、造纸废水、化工等领域,处理污染物范围广,效果良好,成本低,性能稳定,沉淀效果好,出水水质好,处理成本低;污水中加入该药剂后,悬浮物立刻絮凝,沉淀快速,处理后的污水能够达到排放标准,絮团强度高,疏水性能好。
具体实施方式
下面通过实施例对本发明的技术方案作进一步阐述。
实施例1
一种基于木薯渣的印染废水处理剂,按重量份数计,包括如下组分:
木薯渣100份、活性炭25份、白硼钙石草酸乙酯改性高岭土40份、石灰25份、硫酸钡3份、硅胶12份、聚氧化铝25份、亚硫酸钙12份、聚丙烯酸钠8份、2-丙烯酸蔗糖酯3份。
所述白硼钙石草酸乙酯复合改性高岭土的制备方法包括如下步骤:
(1)配料:分别称取白硼钙石160g、草酸乙酯500g、高岭土900g备用;
(2)混料:将高岭土和白硼钙石混合均匀,再加入草酸乙酯搅拌均匀;
(3)反应:将混料倒入高温高压反应釜,向反应釜中充惰性气体排尽空气,调节反应釜中压力为2.2Mpa,温度为280℃,并将反应釜置于超声场中,超声场的频率为32KHz,功率密度为0.48w/cm2;
(4)干燥:反应过程保持反应釜内不断搅拌,反应20mim后,自然冷却至80℃,将物料从反应釜中倒出并摊开到80℃的烘箱中,使得未反应的草酸乙酯挥发干净,再磨粉至粒度小于100微米,即得。
改性高岭土的吸附效果试验
为了验证实施例1所得改性高岭土的吸附效果,利用实施例1所得产品进行了吸附对比试验,分别称取氯化铅、氯化锌、氯化铜和氯化铬配制成溶液,按照表1中所列的条件进行试验,以吸附量为指标考察实施例1所得产品和原土的吸附效果。
表1吸附对比试验的条件和结果
由表1可以看出,经本发明所述方法改性后的高岭土对Pb2+、Zn2+、Cu2+和Cr3+的吸附量均有所增加,表明经本发明所述方法改性后,高岭土的吸附性能比原土有所增强,取得了显著的进步。
废水处理剂效果试验
分别取1斤实施例1所述废水处理剂、某市售净水剂、聚氧化铝、高岭土原土加入到30升在某印染工厂采样的印染废水中,污水品质相同,在室温下搅拌4小时后静置1小时,分别检测处理前的废水和处理后上层清水的COD、BOD5、SS、总氮、总磷、氨氮、PH、色度以及金属离子含量,结果见表2和表3:
表2污水处理前后质量指标检测结果(一)
表3污水处理前后质量指标检测结果(二)
由表2和表3可以看出,废水样品经过四种处理剂处理的结果对比说明,废水样品经过本发明所述废水处理剂处理,能达到三类水质的标准,高于其他对比处理剂的效果。
实施例2
一种基于木薯渣的印染废水处理剂,按重量份数计,包括如下组分:
木薯渣80份、活性炭20份、高岭土30份、石灰20份、碳酸钡1份、硅胶10份、聚氧化铝20份、亚硫酸钙10份、聚丙烯酸钠5份、2-丙烯酸蔗糖酯1份。
所述高岭土为白硼钙石草酸乙酯复合改性高岭土,其制备方法包括如下步骤:
(1)配料:按重量份之比为白硼钙石:草酸乙酯:高岭土=5:20:40称取各组分备用;
(2)混料:将高岭土和白硼钙石混合均匀,再加入草酸乙酯搅拌均匀;
(3)反应:将混料倒入高温高压反应釜,向反应釜中充惰性气体排尽空气,调节反应釜中压力为2Mpa,温度为260℃,并将反应釜置于超声场中,超声场的频率为30KHz,功率密度为0.45w/cm2;
(4)干燥:反应15mim后,自然冷却至75℃,将物料从反应釜中倒出并摊开到75℃的烘箱中,使得未反应的草酸乙酯挥发干净,即得。
实施例3
一种基于木薯渣的印染废水处理剂,按重量份数计,包括如下组分:
木薯渣120份、活性炭30份、白硼钙石草酸乙酯改性高岭土50份、石灰30份、钡盐5份、硅胶15份、聚氧化铝30份、亚硫酸钙15份、聚丙烯酸钠10份、2-丙烯酸蔗糖酯5份。
所述钡盐为碳酸钡、氯化钡或硫酸钡的一种或几种组合。
所述高岭土为白硼钙石草酸乙酯复合改性高岭土,其制备方法包括如下步骤:
(1)配料:按重量份之比为白硼钙石:草酸乙酯:高岭土=10:30:50称取各组分备用;
(2)混料:将高岭土和白硼钙石混合均匀,再加入草酸乙酯搅拌均匀;
(3)反应:将混料倒入高温高压反应釜,向反应釜中充惰性气体排尽空气,调节反应釜中压力为2.5Mpa,温度为200℃,并将反应釜置于超声场中,超声场的频率为35KHz,功率密度为0.5w/cm2;
(4)干燥:反应30mim后,自然冷却至85℃,将物料从反应釜中倒出并摊开到85℃的烘箱中,使得未反应的草酸乙酯挥发干净,即得。
Claims (2)
1.一种基于木薯渣的印染废水处理剂,其特征在于,按重量份数计,包括如下组分:
木薯渣80~120份、活性炭20~30份、白硼钙石草酸乙酯复合改性高岭土30~50份、石灰20~30份、钡盐1~5份、硅胶10~15份、聚氧化铝20~30份、亚硫酸钙10~15份、聚丙烯酸钠5~10份、2-丙烯酸蔗糖酯1~5份;
所述白硼钙石草酸乙酯复合改性高岭土的制备方法包括如下步骤:
(1)配料:按重量份之比为白硼钙石 : 草酸乙酯 : 高岭土=5~10 : 20~30 : 40~50称取各组分备用;
(2)混料:将高岭土和白硼钙石混合均匀,再加入草酸乙酯搅拌均匀;
(3)反应:将混料倒入高温高压反应釜,向反应釜中充惰性气体排尽空气,调节反应釜中压力为2~2.5Mpa,温度为260~300℃,并将反应釜置于超声场中,超声场的频率为30~35KHz,功率密度为0.45~0.5w/cm2;
(4)干燥:反应15~30mim后,自然冷却至75~85℃,将物料从反应釜中倒出并摊开到75~85℃的烘箱中,使得未反应的草酸乙酯挥发干净,再磨粉至粒度小于100微米,即得。
2.如权利要求1所述的基于木薯渣的印染废水处理剂,其特征在于,所述钡盐为碳酸钡、氯化钡或硫酸钡中的一种或几种组合。
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