CN111151223A - 一种大气治理粉尘颗粒的绿色净化材料 - Google Patents
一种大气治理粉尘颗粒的绿色净化材料 Download PDFInfo
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Abstract
本发明公开了一种大气治理粉尘颗粒的绿色净化材料,其原料按重量分包括:活性炭粉15‑25份、硅藻泥18‑36份、沸石12‑22份、负离子复合添加剂2‑4份、空心玻璃微珠5‑7份、硅酸钙6‑8份、蛭石3‑5份、珍珠岩2‑4份、消泡剂0.7‑1.1份、增效剂0.6‑0.8份和去离子水80‑100份,本发明涉及绿色净化材料技术领域。该大气治理粉尘颗粒的绿色净化材料,通过添加活性炭粉、硅藻泥、沸石和负离子复合添加剂,利用硅藻泥和沸石孔隙率达85%以上,具有调节湿度、吸附有毒气体的作用,并利用活性炭粉具有超强的吸附功能,对有毒气体进行吸附,配合负离子复合添加剂释放负离子,进而对有害气体、细菌及微生物通过包覆沉降、中和等过程,达到净化空气和抑菌抗菌之目的。
Description
技术领域
本发明涉及绿色净化材料技术领域,具体为一种大气治理粉尘颗粒的绿色净化材料。
背景技术
大气环境也就是指生物赖以生存的空气的物理、化学和生物学特性。人类生活或工农业生产排出的氨、二氧化硫、一氧化碳、氮化物与氟化物等有害气体可改变原有空气的组成,并引起污染,造成全球气候变化,破坏生态平衡。大气环境和人类生存密切相关,大气环境的每一个因素几乎都可影响人类,人毕竟不能脱离大气环境而独立存在,大气环境的好坏是人类健康活动的有力保证。因此,我们要实施可持续发展,关注民生,加大大气环境污染的治理力度,重新给人们一个鸟语花香、空气清新的环境。
大气污染防治的内容非常丰富,具有综合性和系统性,对粉尘颗粒的治理较为常见,现有的绿色净化材料,采用的吸附性材料较为单一,并且含有大量有机物,本身就含有大量的甲醛,环保、净化空气等性能不好,并且材料本身耐高温性能较差,为此,我们提出了一种大气治理粉尘颗粒的绿色净化材料。
发明内容
(一)解决的技术问题
针对现有技术的不足,本发明提供了一种大气治理粉尘颗粒的绿色净化材料,解决了现有的绿色净化材料,采用的吸附性材料较为单一,本身含有大量甲醛,环保、净化空气等性能不好,材料本身耐高温性能较差的问题。
(二)技术方案
为实现以上目的,本发明通过以下技术方案予以实现:一种大气治理粉尘颗粒的绿色净化材料,其原料按重量分包括:活性炭粉15-25份、硅藻泥18-36份、沸石12-22份、负离子复合添加剂2-4份、空心玻璃微珠5-7份、硅酸钙6-8份、蛭石3-5份、珍珠岩2-4份、消泡剂0.7-1.1份、增效剂0.6-0.8份和去离子水80-100份。
优选的,其原料按重量分包括:活性炭粉15份、硅藻泥18份、沸石12份、负离子复合添加剂2份、空心玻璃微珠5份、硅酸钙6份、蛭石3份、珍珠岩2份、消泡剂0.7份、增效剂0.6和去离子水80份。
优选的,其原料按重量分包括:活性炭粉20份、硅藻泥27份、沸石17份、负离子复合添加剂3份、空心玻璃微珠6份、硅酸钙7份、蛭石4份、珍珠岩3份、消泡剂0.9份、增效剂0.7份和去离子水90份。
优选的,其原料按重量分包括:活性炭粉25份、硅藻泥36份、沸石22份、负离子复合添加剂4份、空心玻璃微珠7份、硅酸钙8份、蛭石5份、珍珠岩4份、消泡剂1.1份、增效剂0.8份和去离子水100份。
优选的,所述负离子复合添加剂为由正硅酸乙酯包覆电激化纳米电气石形成的壳核结构颗粒,其中壳层为正硅酸乙酯膜层,核层为电激化纳米电气石。
优选的,所述消泡剂为聚二甲基硅氧烷。
优选的,所述增效剂为二乙胺基三氟化硫。
优选的,大气治理粉尘颗粒的绿色净化材料,其制备方法具体包括以下步骤:
S1、原料称量:按照重量组份称取活性炭粉、硅藻泥、沸石、负离子复合添加剂、空心玻璃微珠、硅酸钙、蛭石、珍珠岩、消泡剂、增效剂和去离子水,选取备用;
S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用;
S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至600~800转/min,搅拌时间为20~30min,等待混合溶液搅拌均匀并且形成胶状溶液;
S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至300~400转/min,搅拌时间为10~15min,等待混合溶液搅拌均匀即可;
S5、浓缩、凝固:将S4中得到的混合溶液加热浓缩,加热温度控制在80-100℃,然后进行过滤,并收集滤液,再将滤液进行凝固,即可得到绿色净化材料。
(三)有益效果
本发明提供了一种大气治理粉尘颗粒的绿色净化材料。与现有技术相比,具备以下有益效果:
(1)、该大气治理粉尘颗粒的绿色净化材料,通过在其原料按重量分包括:活性炭粉15-25份、硅藻泥18-36份、沸石12-22份、负离子复合添加剂2-4份、空心玻璃微珠5-7份、硅酸钙6-8份、蛭石3-5份、珍珠岩2-4份、消泡剂0.7-1.1份、增效剂0.6-0.8份和去离子水80-100份,S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至600~800转/min,搅拌时间为20~30min,等待混合溶液搅拌均匀并且形成胶状溶液;S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至300~400转/min,搅拌时间为10~15min,等待混合溶液搅拌均匀即可,通过添加活性炭粉、硅藻泥、沸石和负离子复合添加剂,利用硅藻泥和沸石孔隙率达85%以上,比表面积大,吸水能力强,具有调节湿度、吸附有毒气体的作用,并利用活性炭粉具有超强的吸附功能,对有毒气体进行吸附,配合负离子复合添加剂释放负离子,进而对有害气体、细菌及微生物通过包覆沉降、中和等过程,达到净化空气和抑菌抗菌之目的。
(2)、该大气治理粉尘颗粒的绿色净化材料,通过在其原料按重量分包括:活性炭粉15-25份、硅藻泥18-36份、沸石12-22份、负离子复合添加剂2-4份、空心玻璃微珠5-7份、硅酸钙6-8份、蛭石3-5份、珍珠岩2-4份、消泡剂0.7-1.1份、增效剂0.6-0.8份和去离子水80-100份,S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用,通过添加空心玻璃微珠和硅酸钙,利用空心玻璃微珠和硅酸钙材料的熔点高、热导系数小等特点,制得的涂料导热性能差,具有很好的防火性能。
(3)、该大气治理粉尘颗粒的绿色净化材料,通过在其原料按重量分包括:活性炭粉15-25份、硅藻泥18-36份、沸石12-22份、负离子复合添加剂2-4份、空心玻璃微珠5-7份、硅酸钙6-8份、蛭石3-5份、珍珠岩2-4份、消泡剂0.7-1.1份、增效剂0.6-0.8份和去离子水80-100份,S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用,通过添加蛭石和珍珠岩,采用综合性能较佳的有机高分子材料并进行优化组合,提高了组合物的阻燃性能。
附图说明
图1为本发明的内部结构主视图;
图2为本发明的市场与实施例粉尘颗粒吸附量对比图表;
图3为本发明的实施例粉尘颗粒吸附量对比图表。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
请参阅图1-3,本发明实施例提供一种技术方案:一种大气治理粉尘颗粒的绿色净化材料,具体包括以下实施例:
实施例1
其原料按重量分包括:活性炭粉15份、硅藻泥18份、沸石12份、负离子复合添加剂2份、空心玻璃微珠5份、硅酸钙6份、蛭石3份、珍珠岩2份、消泡剂0.7份、增效剂0.6和去离子水80份。
本发明中,大气治理粉尘颗粒的绿色净化材料,其制备方法具体包括以下步骤:
S1、原料称量:按照重量组份称取活性炭粉、硅藻泥、沸石、负离子复合添加剂、空心玻璃微珠、硅酸钙、蛭石、珍珠岩、消泡剂、增效剂和去离子水,选取备用;
S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用;
S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至600转/min,搅拌时间为20min,等待混合溶液搅拌均匀并且形成胶状溶液,负离子复合添加剂为由正硅酸乙酯包覆电激化纳米电气石形成的壳核结构颗粒,其中壳层为正硅酸乙酯膜层,核层为电激化纳米电气石;
S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至300转/min,搅拌时间为10min,等待混合溶液搅拌均匀即可,消泡剂为聚二甲基硅氧烷,增效剂为二乙胺基三氟化硫;
S5、浓缩、凝固:将S4中得到的混合溶液加热浓缩,加热温度控制在80℃,然后进行过滤,并收集滤液,再将滤液进行凝固,即可得到绿色净化材料。
实施例2
其原料按重量分包括:活性炭粉20份、硅藻泥27份、沸石17份、负离子复合添加剂3份、空心玻璃微珠6份、硅酸钙7份、蛭石4份、珍珠岩3份、消泡剂0.9份、增效剂0.7份和去离子水90份。
本发明中,大气治理粉尘颗粒的绿色净化材料,其制备方法具体包括以下步骤:
S1、原料称量:按照重量组份称取活性炭粉、硅藻泥、沸石、负离子复合添加剂、空心玻璃微珠、硅酸钙、蛭石、珍珠岩、消泡剂、增效剂和去离子水,选取备用;
S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用;
S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至700转/min,搅拌时间为25min,等待混合溶液搅拌均匀并且形成胶状溶液,负离子复合添加剂为由正硅酸乙酯包覆电激化纳米电气石形成的壳核结构颗粒,其中壳层为正硅酸乙酯膜层,核层为电激化纳米电气石;
S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至350转/min,搅拌时间为13min,等待混合溶液搅拌均匀即可,消泡剂为聚二甲基硅氧烷,增效剂为二乙胺基三氟化硫;
S5、浓缩、凝固:将S4中得到的混合溶液加热浓缩,加热温度控制在90℃,然后进行过滤,并收集滤液,再将滤液进行凝固,即可得到绿色净化材料。
实施例3
其原料按重量分包括:活性炭粉25份、硅藻泥36份、沸石22份、负离子复合添加剂4份、空心玻璃微珠7份、硅酸钙8份、蛭石5份、珍珠岩4份、消泡剂1.1份、增效剂0.8份和去离子水100份。
本发明中,大气治理粉尘颗粒的绿色净化材料,其制备方法具体包括以下步骤:
S1、原料称量:按照重量组份称取活性炭粉、硅藻泥、沸石、负离子复合添加剂、空心玻璃微珠、硅酸钙、蛭石、珍珠岩、消泡剂、增效剂和去离子水,选取备用;
S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用;
S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至800转/min,搅拌时间为30min,等待混合溶液搅拌均匀并且形成胶状溶液,负离子复合添加剂为由正硅酸乙酯包覆电激化纳米电气石形成的壳核结构颗粒,其中壳层为正硅酸乙酯膜层,核层为电激化纳米电气石;
S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至400转/min,搅拌时间为15min,等待混合溶液搅拌均匀即可,消泡剂为聚二甲基硅氧烷,增效剂为二乙胺基三氟化硫;
S5、浓缩、凝固:将S4中得到的混合溶液加热浓缩,加热温度控制在100℃,然后进行过滤,并收集滤液,再将滤液进行凝固,即可得到绿色净化材料。
对比实验
某绿色净化材料的生产厂家,分别选取实施例1-3中制备的绿色净化材料和市场绿色净化材料进行粉尘颗粒吸附对比实验,由图2可知,实施例1-3中制备的绿色净化材料粉尘颗粒吸附量为97.5mg/m3,市场制备的绿色净化材料粉尘颗粒吸附量为67.3mg/m3,本发明制备的绿色净化材料粉尘颗粒吸附效果远优于市场绿色净化材料粉尘颗粒吸附效果,由图3可知,实施例2制备的绿色净化材料粉尘颗粒吸附效果最好,为优选方案;其余两种皆可。
综上所述,通过添加活性炭粉、硅藻泥、沸石和负离子复合添加剂,利用硅藻泥和沸石孔隙率达85%以上,比表面积大,吸水能力强,具有调节湿度、吸附有毒气体的作用,并利用活性炭粉具有超强的吸附功能,对有毒气体进行吸附,配合负离子复合添加剂释放负离子,进而对有害气体、细菌及微生物通过包覆沉降、中和等过程,达到净化空气和抑菌抗菌之目的。
需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (8)
1.一种大气治理粉尘颗粒的绿色净化材料,其特征在于:其原料按重量分包括:活性炭粉15-25份、硅藻泥18-36份、沸石12-22份、负离子复合添加剂2-4份、空心玻璃微珠5-7份、硅酸钙6-8份、蛭石3-5份、珍珠岩2-4份、消泡剂0.7-1.1份、增效剂0.6-0.8份和去离子水80-100份。
2.根据权利要求1所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:其原料按重量分包括:活性炭粉15份、硅藻泥18份、沸石12份、负离子复合添加剂2份、空心玻璃微珠5份、硅酸钙6份、蛭石3份、珍珠岩2份、消泡剂0.7份、增效剂0.6和去离子水80份。
3.根据权利要求1所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:其原料按重量分包括:活性炭粉20份、硅藻泥27份、沸石17份、负离子复合添加剂3份、空心玻璃微珠6份、硅酸钙7份、蛭石4份、珍珠岩3份、消泡剂0.9份、增效剂0.7份和去离子水90份。
4.根据权利要求1所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:其原料按重量分包括:活性炭粉25份、硅藻泥36份、沸石22份、负离子复合添加剂4份、空心玻璃微珠7份、硅酸钙8份、蛭石5份、珍珠岩4份、消泡剂1.1份、增效剂0.8份和去离子水100份。
5.根据权利要求1-4所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:所述负离子复合添加剂为由正硅酸乙酯包覆电激化纳米电气石形成的壳核结构颗粒,其中壳层为正硅酸乙酯膜层,核层为电激化纳米电气石。
6.根据权利要求1-4所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:所述消泡剂为聚二甲基硅氧烷。
7.根据权利要求1-4所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:所述增效剂为二乙胺基三氟化硫。
8.根据权利要求1-7任意一项所述的一种大气治理粉尘颗粒的绿色净化材料,其特征在于:其制备方法具体包括以下步骤:
S1、原料称量:按照重量组份称取活性炭粉、硅藻泥、沸石、负离子复合添加剂、空心玻璃微珠、硅酸钙、蛭石、珍珠岩、消泡剂、增效剂和去离子水,选取备用;
S2、研磨成粉:将沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩加入研磨机中,利用研磨机将其研磨成粉,然后取出沸石、空心玻璃微珠、硅酸钙、蛭石和珍珠岩的粉末,并加入去离子水,再进行混合搅拌并研磨,研磨成浆料备用;
S3、原料混合:将S2中研磨成的浆料备倒入搅拌釜中,然后在搅拌釜中依次添加活性炭粉、硅藻泥和负离子复合添加剂,将搅拌釜转速调节至600~800转/min,搅拌时间为20~30min,等待混合溶液搅拌均匀并且形成胶状溶液;
S4、原料优化:在S3中搅拌釜形成的胶状溶液中,依次添加消泡剂和增效剂,将搅拌釜转速调节至300~400转/min,搅拌时间为10~15min,等待混合溶液搅拌均匀即可;
S5、浓缩、凝固:将S4中得到的混合溶液加热浓缩,加热温度控制在80-100℃,然后进行过滤,并收集滤液,再将滤液进行凝固,即可得到绿色净化材料。
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