The present disclosure relates to water treatment systems utilizing non-thermal plasma processes integrated with advanced oxidation processes for the rapid degradation and removal of per-and polyfluorinated compounds (PFAS) and other toxic organic contaminants. This approach addresses the chemical stability and mass-transfer limitations of toxic organic compounds including PFAS by generating reactive species at the gas-liquid interface and employing oxidative radicals in the bulk liquid. The solution enables thorough defluorination and minimizes harmful byproducts, with optional surfactant addition and gas injection to enhance transport and reaction efficiency. Principal uses include scalable and energy-efficient remediation of toxic organic compounds contaminated water in municipal, industrial, and environmental applications.

A filter for a liquid purifier, comprising: a filter housing having an inlet to receive water and an outlet to discharge the water, and a filter module provided in the filter housing, and configured to purify water introduced through the inlet, and to provide the purified water to the outlet, wherein the filter module includes a carbon block having a hollow tube shape by mixing activated carbon, a binder, ferric hydroxide, and titanium oxide, and the binder is mixed at a ratio of 13% to 23% by weight.

The present disclosure relates to the field of resource-oriented utilization technologies for wastewater salt muds and more particular to a resource-oriented utilization method for a high-salt salt mud containing sodium chloride and sodium sulfate. The method includes: performing two stages of oxidation, i.e. Fenton-like treatment and chlorine dioxide treatment, in sequence on a salt mud solution, and then replacing a sodium salt with an ammonium salt to prepare a pure alkali and a mixed ammonium salt. In the method, multi-stage oxidation process is performed to effectively use ingredients such as sodium chloride and sodium sulfate so as to thoroughly eliminate organic matters and heavy metals in the high-salt salt mud, and achieve resource-oriented utilization of the salt mud, thus saving burial treatment costs, and producing good economic benefits as well as good environmental benefits.