Combination electrode hydro-thermal synthesis method for removing arsenic in water based on electro-adsorption and arsenic removing method thereof

Abstract

The invention provides a combination electrode hydro-thermal synthesis method for removing arsenic in water based on electro-adsorption. The combination electrode hydro-thermal synthesis method specifically comprises the following steps of: soaking active carbon fibers in dilute nitric acid or a sodium hydroxide solution for 1-24h for activation, and then washing with water; next, putting the activated active carbon fibers in a high-temperature reaction kettle, adding 2mmol of manganese salt, 0.01-0.4mmol of iron salt, 1-4mmol of K2S2O8, 2-8mL of concentrated sulfuric acid and 60-90mL of distilled water to the high-temperature reaction kettle per 1 gram, and mixing evenly; and finally, sealing the high-temperature reaction kettle, reacting at a constant temperature ranging from 90 to 150 DEG C for 2-24h, cooling to the room temperature and then washing with distilled water, and drying in an oven. The method of preparing the combination electrode provided by the invention is simple and feasible, overcomes the shortcoming that the existing drinking water trace heavy metal element treatment technology is complex and has no choice, provides excellent technical guarantee for the body health of people and has good application value.

Description

technical field [0001] The invention relates to a method for removing arsenic in water, in particular to a method for removing arsenic in water by electric adsorption of a novel electrode. Background technique [0002] At present, heavy metal pollution in water has attracted widespread attention. Water is indispensable for human survival. Drinking water directly affects the human body. Therefore, the quality of drinking water directly affects the health of human beings. Since the beginning of the 20th century, arsenic has been widely used in chemical and pesticide industries, and the pollution of arsenic has become more and more serious. A large amount of arsenic is discharged into the environment through waste gas, waste residue, and waste water, causing air, water, and soil pollution. Air pollutants enter rivers and lakes along with precipitation, thereby causing drinking water pollution. At present, the commonly used methods for removing heavy metals include chemical pr...