Abstract: A method for purifying and sterilizing water using nano catalytic microelectrolysis and an apparatus therefore including three units of a nano catalytic microelectrolysis device, a sand filtration and a precise filtration are provided. 1/20 to ? of raw water is delivered into the nano catalytic microelectrolysis. 19/20 to ? of raw water is directly delivered into a neutralization tank to be mixed with nano catalytic microelectrolysis water to kill microorganism, algae and plankton and force suspended solids, colloid, charged particles and etc. to form into relatively large particles which are removed by the precise filtration unit; heavy metal ions gather at a cathode of the microelectrolysis to form cathode sediment to be removed; organic compounds are oxidatively decomposed by strongly oxidative substances produced by the microelectrolysis; phosphate ions move towards a cathode polarization layer and act with divalent cations on a cathode surface to produce phosphate precipitate to be removed.

Abstract: A purifying device and a process for deeply treating printing and dyeing wastewater are provided. The device includes a nanometer catalytic microelectrolysis system, a membrane filtration and separation system and a a membrane washing regeneration system. The method includes the following steps of: drawing the printing and dyeing wastewater by a first water pump (12), pumping a first part of the wastewater into a nanometer catalytic microelectrolysis tank (13) to perform catalysis microelectrolysis, and a second part of the wastewater into a neutralization tank (16) to mix with the water from the nanometer catalytic microelectrolysis tank (13) to precipitate, filtering the wastewater by a sand filtration tank (17), and then pumping the wastewater into an adsorption and filteration device of granular active carbon (18) for adsorption and filtration. The process has lower cost and higher energy efficiency, and can realize recycled water to be reused.

Abstract: A tanning wastewater treatment and reuse apparatus includes a coarse filter, a regulation pool, a hydraulic sieve, a desulfurization pool, a first nanocatalytic electrolyzer, a flocculation pool, a first settling pool, a flotation device, a biochemical pool, a second settling pool, a second nanocatalytic electrolyzer, a fine filter, and a compressor. Also provided is a tanning wastewater treatment and reuse method includes the steps of desulfurization, first nanocatalytic electrolysis, flocculation, biochemical treatment, second catalytic electrolysis, and filtration. The invention allows high CODCr removal rate, reduced chemical agent consumption, reduced sludge formation, thorough treatment, and high water reuse rate.

Abstract: A printing and dyeing wastewater treatment and reuse apparatus includes a coarse filter, a regulation pool, a hydraulic sieve, a desulfurization pool, a nanocatalytic electrolyzer, a flocculation pool, a flocculation tank, a settling pool, a flotation device, a biochemical pool, a secondary settling pool, a secondary nanocatalytic electrolyzer, a fine filter, a compressor, a nanomembrane assembly, and a recycling pool. Also provided is a printing and dyeing wastewater treatment and reuse method including steps of desulfurization, nanocatalytic electrolysis, flocculation, biochemical treatment, secondary catalytic electrolysis, filtration, and separation by membrane. The invention allows high CODCr removal rate, reduced chemical agent consumption, reduced sludge formation, thorough treatment, and high water reuse rate.

Abstract: A nanocatalytic electrolysis and flocculation apparatus includes a housing, a water inlet on the housing, an impurities baffle in the housing, a water baffle in the housing, a drainage chamber defined by the impurities baffle and one side of the housing, a first gap between a bottom of the impurities baffle and a bottom of the housing, a water outlet on the drainage chamber, an impurities chamber defined by the water baffle and an other side of the housing, a second gap between a top of the water baffle and a top of housing, an impurities discharge port on the impurities chamber, a hydrogen discharge port on top of the housing, at least one electrolytic cell between the impurities baffle and the water baffle, an electrode in each electrolytic cell, a gas liquid separation chamber in the housing, and a drainage port on the bottom of the housing.

Abstract: A tanning wastewater treatment and reuse apparatus includes a coarse filter, a regulation pool, a hydraulic sieve, a desulfurization pool, a first nanocatalytic electrolyzer, a flocculation pool, a first settling pool, a flotation device, a biochemical pool, a second settling pool, a second nanocatalytic electrolyzer, a fine filter, and a compressor. Also provided is a tanning wastewater treatment and reuse method includes the steps of desulfurization, first nanocatalytic electrolysis, flocculation, biochemical treatment, second catalytic electrolysis, and filtration. The invention allows high CODCr removal rate, reduced chemical agent consumption, reduced sludge formation, thorough treatment, and high water reuse rate.

Abstract: A printing and dyeing wastewater treatment and reuse apparatus includes a coarse filter, a regulation pool, a hydraulic sieve, a desulfurization pool, a nanocatalytic electrolyzer, a flocculation pool, a flocculation tank, a settling pool, a flotation device, a biochemical pool, a secondary settling pool, a secondary nanocatalytic electrolyzer, a fine filter, a compressor, a nanomembrane assembly, and a recycling pool. Also provided is a printing and dyeing wastewater treatment and reuse method including steps of desulfurization, nanocatalytic electrolysis, flocculation, biochemical treatment, secondary catalytic electrolysis, filtration, and separation by membrane. The invention allows high CODCr removal rate, reduced chemical agent consumption, reduced sludge formation, thorough treatment, and high water reuse rate.