A micro electrolysis reactor, which comprises a water inlet and outlet of the reservoir, the pool wall is coated with acid corrosion resistant coating layer is arranged on the lower part of the supporting bar in the pool, at the bottom of the pool is arranged on the aeration pipe. The 50 microelectrode filled with ~ 200 mesh holes to ensure corrosion bag permeability in both cloth and the cloth made by the microelectrode, by ceramsite, silica, titanium dioxide, carbon powder and iron powder composition, the total proportion of about 1. The utility model uses conventional waste water storage structure, to solve the problem of the industry have long plagued the microelectrode deposition of wastewater treatment, greatly improving the wastewater treatment with micro electrolysis reaction efficiency and electrode material service life, but also conducive to the replacement of microelectrode materials. At the same time, the existing waste water reservoir is easy to reform, less investment and quick to effect, and greatly reduces the stirring strength in the treatment process, and reduces the operation and maintenance costs of equipment.
【技术实现步骤摘要】
本技术涉及一种用于废水处理的微电电解反应装置,特别是指一种包括微电 极包和盛装微电极包的反应池的微电解反应器。
技术介绍
微电解技术自上世纪七十年代由前苏联科学家技术以来,理论研究日臻成 熟,但由于其所用微电极材料为铁、碳粉末,极易沉积造成微电池短路等原因,长期未实现 工业实用。本技术人提出的新型微电极材料(CN200910038783. 1)设计方案,在微电极 材料构成中加入了透气轻质陶粒,可克服微电极易沉积的弊病,使微电极技术的工业应用 首先在工业废水处理中得以实现。但在实际应用中,将该微电极材料直接投放入反应池中 并经过一段时间使用后,由于微电极材料各组分比重不同,即使施予强烈搅拌,仍会出现分 层沉积现象并造成电极短路,使微电解反应的效率大受影响,且搅拌桨也易磨损。
技术实现思路
本技术需解决的问题是提供一种解决微电极材料易沉积问题的微电解反应器。根据上述需解决的问题设计了一种微电解反应器,包括废水蓄水池,该池内壁上 涂敷有耐酸抗蚀涂料层,在所述蓄水池下部设有出水口,在该出水口的上方设有用于支撑 微电极的隔栅,在该出水口下方的蓄水池底上设有曝气管网,所述曝气管网通...
【技术保护点】
1.一种微电解反应器,包括废水蓄水池(1),该池内壁上涂敷有耐酸抗蚀涂料层,其特征是:在所述蓄水池下部设有出水口(6),在该出水口的上方设有用于支撑微电极的隔栅(2),在该出水口下方的蓄水池底上设有曝气管网(3),所述曝气管网通过通气管(4)与鼓风机连通。
【技术特征摘要】
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