{"id":64231,"date":"2018-09-09T04:58:37","date_gmt":"2018-09-09T08:58:37","guid":{"rendered":"http:\/\/stg.savethewater.org\/?p=64231"},"modified":"2022-03-24T17:49:03","modified_gmt":"2022-03-24T21:49:03","slug":"electroflocculation-cheap-safe-and-effective-way-to-treat-polluted-water","status":"publish","type":"post","link":"https:\/\/savethewater.org\/electroflocculation-cheap-safe-and-effective-way-to-treat-polluted-water\/","title":{"rendered":"Electroflocculation: Cheap, Safe, and Effective Way to Treat Polluted Water"},"content":{"rendered":"

By April Day, Publishing Director for Save The Water\u2122 | September 9, 2018<\/p>\n

Electroflocculation: What is it? A Way to Treat Water with Few Chemicals.<\/h2>\n

Electroflocculation is a process that uses electricity to remove contaminants from wastewater.1<\/span> The name has two parts, electricity and flocculation. The \u201cflocculation\u201d part means the process of creating \u201cflocs.\u201d \u201cFlocs\u201d are masses made by an aggregation of fine particles.2<\/span> Now, let\u2019s turn to the electricity part. First, we need to understand the basics of an electric cell. For an electric cell in electroflocculation, we need at least three things: wastewater and two electrodes, namely, a cathode and an anode. Unlike the conventional electric cell, in electroflocculation, the cathode is inert, meaning that it does not react with the solution.<\/p>\n

Usually, electrodes are pieces of metal, namely, a cathode which changes from a positively charged metal ion into a non-charged metal and an anode.3<\/span> In electroflocculation, however, for the cathode, two water molecules (H2O) and two negatively charged electrons, \u201creduce\u201d into two negatively charged hydroxide molecules (2OH-) and a hydrogen (H2) molecule. The other metal, the anode, say aluminum (Al), changes from a metal with electrons (Al-3e) to a metal ion with a positive charge (Al3+). The process at the anode is known as \u201coxidizing.\u201d When the anode, here, the aluminum, oxidizes, it releases electrons. The metal that oxidizes also disappears.4<\/span> The electrons released from the anode do not have a place to attach so these electrons attract the contaminants in the wastewater to themselves, forming bubbles at the cathode.5<\/span><\/p>\n

These charged ions attract pollutants without changing the water\u2019s pH. These pollutants \u201cflocculate,\u201d forming larger masses that separate from the water, either gathering at the bottom or floating to the top in gas bubbles.6,7<\/span> The pollutants are then easily removable from the water.6<\/span><\/p>\n

This process uses the anode until it does not do its job anymore, so it must be replaced.<\/p>\n

We Need a Safe, Effective, and Cheap Way to Treat Water So We Can Use It.<\/h2>\n

Wastewater or untreated water can contain different contaminants that make it unsafe for people to use, such as:<\/p>\n