초록 ▼

A two-step chemical precipitation process involving hydroxide precipitation and sulfide precipitation combined with “field separation” technology such as magnetic separation, dissolved air flotation, vortex separation or expanded plastics flotation, effectively removes chelated and non-chelated heav

A two-step chemical precipitation process involving hydroxide precipitation and sulfide precipitation combined with “field separation” technology such as magnetic separation, dissolved air flotation, vortex separation or expanded plastics flotation, effectively removes chelated and non-chelated heavy metal precipitates and other fine particles from water. In the first-step, the non-chelated heavy metals are precipitated as hydroxides and removed from the water by a conventional liquid/solids separator such as an inclined plate clarifier to remove a large percentage of the dissolved heavy metals. The cleaned water is then treated in a second precipitation step to remove the residual heavy metals to meet discharge limits. In the second precipitation step, any metal precipitant more effective than hydroxide for metal precipitation can be used. The invention improves metal removal, lowers cost because fewer chemicals are used, produces less sludge, and reduces the discharge of toxic metals and metal precipitants to the environment.

대표청구항 ▼

1. A water treatment method comprising the following steps:(a) Precipitating heavy metals by adding lime, limestone, caustic, magnesium hydroxide, soda ash or any other material that will precipitate the heavy metals as hydroxides or carbonates; (b) Removing the precipitated heavy metal formed in st

1. A water treatment method comprising the following steps:(a) Precipitating heavy metals by adding lime, limestone, caustic, magnesium hydroxide, soda ash or any other material that will precipitate the heavy metals as hydroxides or carbonates; (b) Removing the precipitated heavy metal formed in step (a) by gravity clarification methods or by field separation methods selected from the group consisting of magnetic separation, dissolved air flotation, vortex separation, expanded plastic flotation or any other method that uses field forces rather than filtration to remove particles from the water; (c) Precipitating the residual heavy metals remaining in solution after steps 1(a) and 1(b) by using organic sulfides, inorganic sulfides, sodium borohydride, ferrous, or any other chemical that can precipitate more metals from the water than hydroxide and carbonate chemicals; and (d) Removing the heavy metals precipitated in step 1(c) by field separation methods selected from the group consisting of gravity clarification, magnetic separation, dissolved air flotation, vortex separation, expanded plastic flotation or any other method that uses field forces rather than filtration to remove particles from the water wherein at least one of said removal steps (b) or (d) is performed by magnetic separation using a bonding agent comprising an organic flocculating polymer to attach magnetic seed material to non-magnetic particles and/or metal precipitated particles, so as to allow the bonded particles to be removed from the water by magnetic forces, and wherein the steps of using a bonding agent to attach the magnetic seed material to the particles to be removed and the step of removal of the magnetic seed material with the particles to be removed attached thereto are performed in the same vessel. 2. The method of claim 1 where the magnetic seed material is magnetite (Fe3O4).3. The method of claim 1 comprising the further step of separating the metal precipitates or fine particles from the magnetic seed material, for reuse of the magnetic seed material by using mechanical force, heat, biological treatment, ultrasonic force, pH alteration or chemical force.4. The method of claim 1 wherein the heavy metals to be removed from water include cadmium, chromium, copper, lead, mercury, nickel, zinc and combinations thereof.5. The method of claim 1 wherein the particles to be removed from water include precipitates, clay, silt, organic material and combinations thereof having a particle size of less than 200 microns.6. The method of claim 1 wherein the waters to be thus treated include industrial wastewater, municipal wastewater, potable water, makeup water, groundwater, surface water, stormwater, and combinations thereof.7. A water treatment method comprising the following steps:(a) Precipitating heavy metals by adding lime, limestone, caustic, magnesium hydroxide, soda ash or any other material that will precipitate the heavy metals as hydroxides or carbonates; (b) Removing the precipitated heavy metal formed in step (a) by gravity clarification methods or by field separation methods selected form the group consisting of magnetic separation, dissolved air flotation, vortex separation, expanded plastic flotation or any other method that uses field forces rather than filtration to remove particles from the water; (c) Precipitating the residual heavy metal remaining in solution after steps 1(a) and 1(b) by using organic sulfides, inorganic suifides, sodium borohydride, ferrous, or any other chemical that can precipitate more metals from the water than hydroxide and carbonate chemicals; and (d) Removing the heavy metals precipitated in step 1(c) by field separation methods selected from the group consisting of gravity clarification, magnetic separation, dissolved air flotation, vortex separation, expanded plastic flotation or any other method that uses field forces rather than filtration to remove the particles from the water (e) wherein a bonding agent comprising an organic flocculating agent is employed to attach metal precipitates or other fine particles to expanded plastic with a density less than water, so that the attached particles can be removed by flotation forces. 8. The method of claim 7, wherein the expanded plastic is expanded polystyrene.9. The method of claim 7, comprising the further step of separating the expanded plastic from the metal precipitates or fine particles for reuse by application of mechanical forces, heat, biological treatment, ultrasonic, pH alteration, or chemical forces.10. The method of claim 7 wherein the heavy metals to be removed from water include cadmium, chromium, copper, lead, mercury, nickel, zinc and combinations thereof.11. The method of claim 7 wherein the particles to be removed from water include precipitates, clay, silt, organic material and combinations thereof having a particle size of less than 200 microns.12. The method of claim 7 wherein the waters to be thus treated include industrial wastewater, municipal wastewater, potable water, makeup water, groundwater, surface water, stormwater, and combinations thereof.