CN105884138A - 一种抗生素污水处理方法及装置 - Google Patents
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Abstract
本发明涉及一种抗生素污水处理方法及装置,方法为:(1)预处理,经过酸化和絮凝,使得废水中大量难降解有机物沉淀或者转化为易降解有机物;(2)厌氧‑好氧处理;(3)深度处理,进行二次沉淀。此外,本发明提供了一种专用于抗生素污水预处理中的絮凝剂和用于好氧处理的悬挂式曝气器。本发明对抗生素污水的处理效率高,COD的去除率高达96.7%。
Description
技术领域
本发明涉及一种抗生素污水处理方法及装置,属于环境治理领域。
背景技术
抗生素工业有机废水主要是经过提炼后的废发酵液,包括蒸馏回收溶媒后的残留液,离子交换吸附后的废液以及染菌倒灌的废液等。废水中含有高浓度有机物和悬浮固体,一般不含重金属和剧毒的化学物质,单化学需氧量很高,排入江河后将严重号氧,破坏天然水质的自静能力,引起水质变黑,传播病菌。废水处理方法可分为物化法和生化法。
目前大多的抗生素废水处理多是采用常规的深井曝气或厌氧发酵等生物处理工艺降解废水的处理主要采用生物法(厌氧、缺氧和好氧),也有的采用化学絮凝与生物法相结合的工艺。
发明内容
本发明提供了一种抗生素污水处理方法及装置,本发明处理抗生素污水效率高,节约成本,简单实用。
一种抗生素污水处理方法,具体步骤如下:
(1)预处理
将抗生素污水导入酸碱调节池内进行酸化处理,利用石灰石调节污水的pH,pH为4.5-5;调节后的污水进入沉淀一池,向池内加入絮凝剂,并用碱液调节pH至中性,在沉淀一池中初沉8小时,初沉后上清液自流进入厌氧流化床,沉淀物定期排至污泥浓缩池;
(2)厌氧-好氧处理
污水经过厌氧流化床后好氧池,好氧池采用接触氧化方式,好氧池中添加营养物质面粉,添加营养物质的量与污水的质量体积比为0.5:1000;
(3)深度处理
污水在好氧池处理后的水进入沉淀二池,向池内加入絮凝剂,沉淀10小时后,上清液自动流出,即抗生素污水处理结束。
本发明中,所述絮凝剂由以下原料组成:
羧甲基纤维素钠、2mol/L CaCl2溶液、壳聚糖、淀粉和聚合硫酸铝。
各原料按重量份计:羧甲基纤维素钠5-10份、2mol/L
CaCl2溶液70-120份、壳聚糖3-10份、淀粉10-15份、聚合硫酸铝1-3份。
优选的,各原料按重量份计:羧甲基纤维素钠7份、2mol/L CaCl2溶液105份、壳聚糖7份、淀粉12份、聚合硫酸铝2份。
本发明中,好氧池上设有悬挂式曝气器,曝气器由漂浮曝气道、供气软管和曝气头组成,所述漂浮曝气道底部设有多个孔,所述供气软管置于漂浮曝气道内,对应漂浮曝气道的孔的位置,供气软管设有分支管,在供气软管与分支管相接处设有滤网,分支管经过孔由漂浮曝气道的内部伸向外部,延伸至污水中,所述供气软管顶端设有曝气头,氧气经过供气软管到达分支管,然后进入曝气头,通过曝气头,氧气进入污水中。优选的,所述分支管伸出孔的长度为为好氧池中水的深度的1/3;所述曝气头为球形,材质为玻璃。
本发明与现有技术相比具有以下优点:
本发明对抗生素污水的处理效率高,COD的去除率高达96.7%。本发明中的絮凝剂,具有非常好的絮凝效果,对后期污水的处理,COD的去除起到了至关重要的作用,此外,本发明中悬挂式曝气器结构简单、实用,操作方便,且不易损坏,节约了成本,提高了好氧部分对COD的去除率。
附图说明
图1为本发明中悬挂式曝气器的结构示意图。
1.漂浮曝气道、2.供气软管、3.曝气头、4.孔、5.分支管、6滤网。
具体实施方式
下面结合具体实施例来进一步描述本发明,本发明的优点和特点将会随着描述而更为清楚。但实施例仅是范例性的,并不对本发明的范围构成任何限制。本领域技术人员应该理解的是,在不偏离本发明的精神和范围下可以对本发明技术方案的细节和形式进行修改或替换,但这些修改和替换均落入本发明的保护范围内。
实施例1 一种抗生素污水处理方法,具体步骤如下:
(1)预处理
将抗生素污水导入酸碱调节池内进行酸化处理,利用石灰石调节污水的pH,pH为4.5-5;调节后的污水进入沉淀一池,向池内加入絮凝剂,并用碱液调节pH至中性,在沉淀一池中初沉8小时,初沉后上清液自流进入厌氧流化床,沉淀物定期排至污泥浓缩池;
(2)厌氧-好氧处理
污水经过厌氧流化床后好氧池,好氧池采用接触氧化方式,好氧池中添加营养物质面粉,添加营养物质的量与污水的质量体积比为0.5:1000;
(3)深度处理
污水在好氧池处理后的水进入沉淀二池,向池内加入絮凝剂,沉淀10小时后,上清液自动流出,即抗生素污水处理结束。
实施例2 一种用于实施例1中的絮凝剂
絮凝剂中各原料按重量份计:羧甲基纤维素钠7份、2mol/L CaCl2溶液105份、壳聚糖7份、淀粉12份、聚合硫酸铝2份。
实施例3
在实施例1的基础上,所述好氧池上设有悬挂式曝气器,曝气器由漂浮曝气道1、供气软管2和曝气头3组成,所述漂浮曝气道1底部设有多个孔4,所述供气软管2置于漂浮曝气道1内,对应漂浮曝气道1的孔4的位置,供气软管2设有分支管5,在供气软管2与分支管5相接处设有滤网6,分支管5经过孔4由漂浮曝气道1的内部伸向外部,延伸至污水中,所述供气软管2顶端设有曝气头3,曝气头3为球形,材质为玻璃,氧气经过供气软管2到达分支管5,然后进入曝气头3,通过曝气头3,氧气进入污水中,分支管5伸出孔4的长度为为好氧池中水的深度的1/3。
经检测,本发明用于抗生素污水处理,COD的去除率高达96.7%。
Claims (8)
1.一种抗生素污水处理方法,其特征在于,抗生素污水处理具体步骤如下:
(1)预处理
将抗生素污水导入酸碱调节池内进行酸化处理,利用石灰石调节污水的pH,pH为4.5-5;调节后的污水进入沉淀一池,向池内加入絮凝剂,并用碱液调节pH至中性,在沉淀一池中初沉8小时,初沉后上清液自流进入厌氧流化床,沉淀物定期排至污泥浓缩池;
(2)厌氧-好氧处理
污水经过厌氧流化床后好氧池,好氧池采用接触氧化方式,好氧池中添加营养物质面粉,添加营养物质的量与污水的质量体积比为0.5:1000;
(3)深度处理
污水在好氧池处理后的水进入沉淀二池,向池内加入絮凝剂,沉淀10小时后,上清液自动流出,即抗生素污水处理结束。
2.根据权利要求1所述抗生素污水处理方法,其特征在于,所述絮凝剂由以下原料组成:
羧甲基纤维素钠、2mol/L CaCl2溶液、壳聚糖、淀粉和聚合硫酸铝。
3.根据权利要求2所述抗生素污水处理方法,其特征在于,所述絮凝剂中各原料按重量份计:羧甲基纤维素钠5-10份、2mol/L CaCl2溶液70-120份、壳聚糖3-10份、淀粉10-15份、聚合硫酸铝1-3份。
4.根据权利要求3所述抗生素污水处理方法,其特征在于,所述絮凝剂中各原料按重量份计:羧甲基纤维素钠7份、2mol/L CaCl2溶液105份、壳聚糖7份、淀粉12份、聚合硫酸铝2份。
5.如权利要求1所述抗生素污水处理方法中好氧池上设有悬挂式曝气器,曝气器由漂浮曝气道、供气软管和曝气头组成,所述漂浮曝气道底部设有多个孔,所述供气软管置于漂浮曝气道内,对应漂浮曝气道的孔的位置,供气软管设有分支管,在供气软管与分支管相接处设有滤网,分支管经过孔由漂浮曝气道的内部伸向外部,延伸至污水中,所述供气软管顶端设有曝气头。
6.根据权利要求5所述悬挂式曝气器,其特征在于,所述分支管伸出孔的长度为为好氧池中水的深度的1/3。
7.根据权利要求5所述悬挂式曝气器,其特征在于,所述曝气头为球形。
8.根据权利要求7所述悬挂式曝气器,其特征在于,所述曝气头材质为玻璃。
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