CN116685408A - 低温处理生活垃圾的方法 - Google Patents
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- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/46—Treatment of water, waste water, or sewage by electrochemical methods
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- F23G5/00—Incineration of waste; Incinerator constructions; Details, accessories or control therefor
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Abstract
本发明涉及生活垃圾管理方法,尤其涉及通过等离子体化学破坏方法处理垃圾的方法。本发明旨在通过提供一种在与环境温度相当的低温处理下破坏生活垃圾的方法来获得拓宽技术方案范围的技术效果。该技术效果通过破坏方法获得,其中家用废物经由输入口进料到反应器中,并且大气空气进入反应器中受到限制。反应器以封闭腔的形式提供,其内表面完全或部分导电并接地。电极突出到反应器中,并且该电极与接地表面隔离。向电极提供高压脉冲。脉冲导致在电极和反应器的导电表面之间的间隙中形成电晕放电流。
Description
技术领域
本发明涉及生活垃圾管理方法,尤其涉及通过等离子体化学破坏方法处理垃圾的方法。
背景技术
存在一种在专利RU2741004(在2021年1月22日公布)的装置中实施的固体有机废物处理的已知方法,其中固体有机废物通过蒸气等离子体气化转化并产生合成气来处理。通过高温等离子体反应器进行处理,其中水蒸气用作等离子体支撑气体,反应区域的温度为约1600至2000°。
这种方法的缺点是必须进行大量的加热,而且对固体有机生活垃圾的处理不彻底,因为处理后产生的合成气也需要进行处理。此外,生活垃圾中的非有机物质也不能用这种方法处理。
发明内容
本发明的目的是通过提供一种在与环境温度相当的低处理温度下破坏生活垃圾的方法,达到扩大技术解决方案范围的技术效果。
该技术效果通过破坏方法获得,其中生活垃圾经由输入开口进料到反应器中,并且大气空气进入反应器中受到限制。反应器以封闭腔的形式提供,其内表面完全或部分导电并接地。电极突出到反应器中,并且该电极与接地表面隔离。向电极提供高压脉冲。脉冲导致在电极和反应器的导电表面之间的间隙中形成电晕放电流。
根据文献[1],在每个脉冲处在电极尖端附近形成大量流子。流子开始倍增并向反应器腔的接地导电表面扩散,逐渐填充电极间间隙并形成电晕放电。电晕放电流的等离子体对负载废物中包含的水施加影响,因此由于水分子H2O→OH·+H·的解体而导致自由基的形成。此外,其它活性物质由于电晕放电而在反应器中形成:О3、О2(a1Δ)、H2O2、ОН、O(3P)、NO、HNO2和HNO3。电晕放电还引起紫外(UV)辐射。上述活性物质和UV辐射破坏生活垃圾中包含的任何有机和无机物质,从而提供其完全破坏并形成无害的气态反应产物,即水和二氧化碳。生活垃圾的非有机物质被酸破坏。有机物质在水中的氧化过程是链式反应[2]。低速率链式反应可由大气氧和臭氧引发。高速链式反应由OH·自由基引发。换句话说,通过该方法提供了包含在废物中的有机和无机物质的等离子体化学破坏。
在该方法的一个实施例中,反应器腔内表面的导电部分预先被一层含水液体覆盖,这有助于在反应器内形成活性颗粒。
优选地,电极与反应腔内表面或覆盖该部分的含水液体的表面的导电部分中的至少一个之间的间隙的尺寸设置在5至50毫米的范围内。
优选地,家用废物以定量的方式进料到反应器中。
优选地,生活垃圾剂量以压缩形式进料到反应器中,并且限制大气空气进入反应器。
优选地,与大气压力相比,反应器内的压力降低0.1至1.0Pa。
在该方法的一个实施方案中,在反应器输出处形成真空以降低反应器内的压力。
附图说明
图1示出了实施要求保护的方法的反应器的垂直横截面,其中使用以下附图标记:
1.具有内腔的反应器主体;
2.输入口;
3、输出口;
4.反应器腔内表面;
5.反应器腔内表面的导电部分;
6.尖端电极;
7.隔离构件;
8高压脉冲源;
9.电极端;
10.电抗器导电底部;
11.用于定量进料待处理废物的装置;
12.具有在反应器输出处提供降压的抽气风扇的静电过滤器。
具体实施方式
该方法通过使用具有接地的导电底部(10)的封闭主体(1)的形式的反应器来实现。具有尖端(9)的电极(6)突出到主体(1)中。尖端(9)与主体(1)的导电底部(10)隔离并且指向它。一部分压缩废物从装置(11)供给,用于经由主体(1)的输入口(2)定量供给待处理的废物,同时限制大气空气进入主体(1)。从源(8)向电极(6)提供高压脉冲。如从文献[1]中已知的,每个脉冲都会在电极(6)的尖端(9)附近产生大量的流子。流子开始向主体(1)的导电底部(10)倍增和扩散,逐渐填充电极间间隙并形成流子电晕放电。电晕放电的等离子体对负载废物中包含的水产生影响,并在破坏水分子时引起自由基的形成:H2O→OH·+H·。此外,其它活性物质由于电晕放电而在反应器中形成:О3、О2(a1Δ)、H2O2、ОН、O(3P)、NO、HNO2和HNO3。等离子体中电子的几乎全部能量都用于通过解离、激活电子状态和创造残留在反应器中的气体的旋转和振荡水平来形成指定的活性粒子,从而形成了流子电晕放电,所以没有发生大量的气体加热。上述活性物质和UV辐射破坏待处理废物中包含的任何有机和无机物质,从而完全破坏其并形成无害的气态反应产物,即水和二氧化碳。废物的非有机物被酸破坏。有机物质在水中的氧化过程是链式反应[2]。低速率链式反应可由大气氧和臭氧引发。高速链式反应由OH·自由基引发。换句话说,在装置中提供了废物中包含的有机和无机物质的等离子体化学破坏。主体(1)的温度和经由输出口(3)离开它的气体接近环境温度。事实上,整个电脉冲能量被消耗来形成活性颗粒,这显著加速了生活垃圾氧化的自然反应。破坏的气态产物进入反应器的输出口(3)。
因此,通过提供在接近环境温度的温度下对生活垃圾中的有机和非有机物质进行等离子体化学销毁的方法,达到了特定的技术效果。
参考文献
[1]АристоваН.А.,ПискаревИ.М.,ИвановскийА.В.,СелемирВ.Д.,СпировГ.М.,ШлепкинС.И.Инициированиехимическихреакцийподдействиемэлектрическогоразрядавсистеметвердыйдиэлектрик-газ-жидкость//Журналфизическойхимии.2004.Т.78.№7.С.1326–1331.(Aristova N.A.,Piskarev I.M.,Ivanovskiy A.V.,Selemir V.D.,Spirov G.M.,Shlepkin S.I.在电介质-气体-液体配置中通过放电启动化学反应//物理化学杂质,2004,Vol.78,#7,第1326–1331页.)
[2]ПискаревИ.М.Окислительно-восстановительныепроцессывводе,инициированныеэлектрическимразрядомнадееповерхностью//Журналобщейхимии.2001.Т.71.Вып.10.С.1622.(Piskarev I.M.水面以上放电引发的水中氧化-还原过程//普通化学杂志,2001,Vol.71,Issue 10,第1622页.)
Claims (8)
1.一种低温处理生活垃圾的方法,其特征在于,将生活垃圾通过输入口送入反应器,限制大气进入反应器;反应器呈密闭空腔的形式,其内表面全部或部分导电接地;电极伸入反应器,该电极与接地表面隔离,向电极提供高压脉冲,脉冲使得电极与反应器导电面之间的间隙形成电晕放电流。
2.根据权利要求1所述的低温处理生活垃圾的方法,其特征在于,所述反应器的空腔内表面的导电部分预先被一层含水液体覆盖。
3.根据权利要求1所述的低温处理生活垃圾的方法,其特征在于,所述电极与所述空腔内表面的至少一个导电部分之间的间隙的尺寸在5至50毫米的范围内。
4.根据权利要求2所述的低温处理生活垃圾的方法,其特征在于,所述电极与覆盖所述空腔内表面的导电部分的所述含水液体的表面之间的间隙的尺寸在5至50毫米的范围内。
5.根据权利要求1-4中任一项所述的低温处理生活垃圾的方法,其特征在于,所述生活垃圾以定量的方式进料到所述反应器中。
6.根据权利要求5所述的低温处理生活垃圾的方法,其特征在于,所述生活垃圾以压缩形式进料到所述反应器中,并且限制大气空气进入所述反应器。
7.根据权利要求1-6中任一项所述的低温处理生活垃圾的方法,其特征在于,所述反应器内的压力比大气压力降低0.1-1.0Pa。
8.根据权利要求7所述的低温处理生活垃圾的方法,其特征在于,在所述反应器的输出口处形成真空。
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CN202280007782.4A Pending CN116963847A (zh) | 2021-12-30 | 2022-09-21 | 废物处理装置的反应器 |
CN202280007773.5A Pending CN116802435A (zh) | 2021-12-30 | 2022-11-11 | 可移动火化炉 |
CN202280007761.2A Pending CN116963848A (zh) | 2021-12-30 | 2022-11-14 | 破坏低含水量的有机废物的方法 |
CN202280007771.6A Pending CN116685408A (zh) | 2021-12-30 | 2022-11-14 | 低温处理生活垃圾的方法 |
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CN202280007773.5A Pending CN116802435A (zh) | 2021-12-30 | 2022-11-11 | 可移动火化炉 |
CN202280007761.2A Pending CN116963848A (zh) | 2021-12-30 | 2022-11-14 | 破坏低含水量的有机废物的方法 |
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EP4230320A1 (en) | 2023-08-23 |
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US11859814B2 (en) | 2024-01-02 |
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US11850642B2 (en) | 2023-12-26 |
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