Film-forming material on filler for removing nitrogen from wastewater

A membrane material and denitrification technology, applied in the direction of biological water/sewage treatment, water/sludge/sewage treatment, sustainable biological treatment, etc., can solve the problems of water pollution, low removal rate, low ammonia nitrogen removal capacity, etc. Achieve the effect of improving the removal rate, strong removal ability and enhanced fracture resistance

Active Publication Date: 2010-03-17
JIANGSU SUJING GROUP
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Problems solved by technology

[0002] At present, the water quality in my country's coastal waters is seriously polluted, and the main pollution factor is ammonia nitrogen. The ammonia nitrogen in the water mainly comes from the nitrogen-containing wastewater discharged from industry and domestic sewage. In wastewater or sewage treatment, the filler formed by the existing film-hanging materials, such as The combined fillers formed by permanent fillers and semi-soft fillers are generally not specially designed for the removal of ammonia nitrogen in wastewater, so the removal ability of ammonia nitrogen in wastewater is low and the removal rate is not high

Method used

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Embodiment Construction

[0016] 下面进一步阐述本发明。

[0017] 一种废水脱氮填料上的挂膜材料,该挂膜材料包括聚酰胺、粘结在聚酰胺上的纳米级硅酸盐类无机物质,纳米级硅酸盐类无机物质在挂膜材料中占的比例为1%-20%(重量百分比)。本实施例中,以挂膜材料上吸附的微生物的分子式和组成为蓝本,根据微生物分子式C 60 h 87 o 23 N 12 P、C 18 h 19 o 9 N、C 11 h 29 o 7 N和C 5 h 7 o 2 N来确定各种元素的百分比例,从而最终确定合成聚酰胺的单体。合成聚酰胺的单体可选用环内酰胺或氨基酸或二元胺和二元酸类物质,环内酰胺可选用丁内酰胺或己内酰胺,二元胺可为己二胺或对苯二胺,二元酸可为己二酸或对苯二甲酸,氨基酸可为7-氨基庚酸。下面具体阐述聚酰胺的制备方法:

[0018] 方法一:采用溶液法通过己二胺和己二酸合成聚酰胺:

[0019] 将称量好的己二胺2mol溶解于200ml去离子水中,将称量好的己二酸2mol加入到干燥洁净的三口烧瓶中,将三口烧瓶置于45℃~55℃的恒温水浴槽中。在搅拌条件下,将己二胺溶液逐渐加入到三口烧瓶中,补加去离子水,使得反应体系总量为1000ml,最后加入已经称量好的催化剂亚磷酸钠,亚磷酸钠占总重量的百分比为0.1%,同时进行搅拌,搅拌速度为80r / min,反应5h,将反应物置于空气中冷却时很快有结晶盐析出,将制得的盐再进行聚合反应。具体来说,将制成的盐和一定量的去离子水加入高压聚合釜中,通入氮气吹扫1~5min,开始逐渐升温并开始搅拌,温度升至50℃-60℃时搅拌转速调至200~400r / min.在120℃左右停留约40min,之后在1h内升温至200℃左右,在200℃左右停留40min,之后在30min内将温度升至210~220℃,此时釜内压力约为260psi(大约为1792.7kPa),反应完毕后,在1h内将压力降为常压,在氮气保护下趁热将釜内产物取出,可观察到产物为白色或者微黄色,将产物置于100℃真空干燥箱中干燥12h以上,即得到聚酰胺。

[0020] 方法二:通过己内酰胺合成聚酰胺:

[0021] 将一定量的己内酰胺加入反应器中,加热熔融,待熔体温度达130℃时,开启真空泵减压蒸馏10-20min(要求体系压力在1.33kPa以内),加入催化...

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Abstract

The invention discloses film-forming material on filler for removing nitrogen from wastewater, which comprises polyamide and silicate which is nanometer inorganic substance, wherein the silicate is adhered to the polyamide. The silicate accounts for 1-2 percent of the film-forming material by weight. The filler for removing nitrogen from wastewater formed by the film-forming material can obviouslyimprove the removal rate of ammonia nitrogen and nitrate nitrogen in the wastewater and has strong ability of removing the nitrogen in the wastewater. Because the silicate which is the nanometer inorganic substance is adhered to the polyamide which is the organic substance, the strength of the film-forming material formed by the polyamide and the silicate is improved, and the breaking resistanceis strengthened, thus the film-forming material can not be broken when in use, and the nitrogen removing effect of the filler can not be affected.

Description

technical field [0001] 本发明涉及一种废水脱氮填料上的挂膜材料。 Background technique [0002] 目前我国近海岸海域水质污染严重,主要污染因子是氨氮,水体中氨氮主要来源于工业排放的含氮废水和生活污水,在废水或者污水处理中,现有的挂膜材料形成的填料,如软性填料和半软性填料形成的组合填料,一般都不是专门针对去除废水中的氨氮设计的,因此对废水中氨氮的去除能力较低,去除率不高。 Contents of the invention [0003] 本发明的目的是提供一种废水脱氮填料上聚酰胺类有机与无机杂化形成的挂膜材料,应用该材料可提高废水中氨氮的去除率。 [0004] 为达到上述目的,本发明采用的技术方案是:一种废水脱氮填料上的挂膜材料,该挂膜材料包括聚酰胺、粘结在所述聚酰胺上的纳米级硅酸盐类无机物质,所述纳米级硅酸盐类无机物质在所述挂膜材料中占的比例为1%-20%(重量百分比)。 [0005] 所述聚酰胺由环内酰胺或氨基酸或二元胺和二元酸的反应物聚合而成。 [0006] 所述的环内酰胺为丁内酰胺或己内酰胺。 [0007] 所述的二元胺为己二胺或对苯二胺,所述的二元酸为己二酸或对苯二甲酸。 [0008] 所述的氨基酸为7-氨基庚酸。 [0009] 所述纳米级硅酸盐类无机物质可选用硅藻土、蒙脱土、海泡石粉、沸石或高岭土中的一种或者其任意组合的混合物。 [0010] 下面将“背景技术”中的组合填料与应用本发明挂膜材料的填料进行实验对比,处理综合化工废水,表1为组合填料与聚酰胺有机与无机杂化填料的处理氨氮数据的对比,表2为组合填料与聚酰胺类有机与无机杂化填料处理硝态氮数据的对比,如下所示: [0011] Table 1 [0012] Influent ammonia nitrogen concentration (mg / l) 33 46 57.5 62.5 64 70 Combined packing out of water NH...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C02F3/30C02F3/10C02F3/34
CPCY02W10/10
Inventor 刘景明王红专徐岩刘慧徐春浩乔淑媛
Owner JIANGSU SUJING GROUP
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