The method for purifying liquids purifies a saline liquid, e.g., salt water, using a plurality of first phase reverse osmosis (RO) units and at least one final phase reverse osmosis unit. The plurality of first phase reverse osmosis units are arranged in series. At least some of the concentrate in a
The method for purifying liquids purifies a saline liquid, e.g., salt water, using a plurality of first phase reverse osmosis (RO) units and at least one final phase reverse osmosis unit. The plurality of first phase reverse osmosis units are arranged in series. At least some of the concentrate in a last reverse osmosis unit of the series is recycled back to the permeate or output side of that unit to provide a mixed permeate. The mixed permeate is then passed successively to the permeate side of each preceding reverse osmosis unit in the series. This increases the salt content of the liquid in the permeate side of each phase, thus reducing the concentration differential across reverse osmosis membranes of the first phase reverse osmosis units.
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1. A method for purifying liquids, comprising the following steps: (a) performing a first phase liquid purification including providing a plurality of first phase reverse osmosis units, the first phase reverse osmosis units arranged in series with one another from a first reverse osmosis unit to a l
1. A method for purifying liquids, comprising the following steps: (a) performing a first phase liquid purification including providing a plurality of first phase reverse osmosis units, the first phase reverse osmosis units arranged in series with one another from a first reverse osmosis unit to a last reverse osmosis unit, each of the first phase reverse osmosis units having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of each of the first phase reverse osmosis units communicating with the concentrate side of the next reverse osmosis unit in succession, the permeate side of each of the first phase reverse osmosis units communicating with the permeate side of the preceding reverse osmosis unit in succession;(b) providing a nanofiltration OR electrodialysis device communicating with at least the concentrate side of the first reverse osmosis unit of the first phase reverse osmosis units;(c) providing a metals and solids recovery device communicating with the nanofiltration OR electrodialysis device;(d) providing a solvent recovery device communicating with the metals and solids recovery device; and(e) processing liquid through the nanofiltration OR electrodialysis device, the metals and solids recovery device, and the solvent recovery device,wherein the nanofiltration OR electrodialysis device, the metals and solids recovery device, and the solvent recovery device are disposed in series with one another;(f) performing a final phase liquid purification including providing at least one final phase reverse osmosis unit, the final phase reverse osmosis unit having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of the final phase reverse osmosis unit communicating with the permeate side of the first reverse osmosis unit in the series of first phase reverse osmosis units;wherein the first phase liquid purification includes successively receiving a feed stream of saline liquid in the concentrate side of the first phase reverse osmosis units, forcing pure water from the concentrate side into the permeate side of the reverse osmosis units by reverse osmosis, transferring at least a portion of concentrate from the concentrate side of the last reverse osmosis unit into the permeate side of the last reverse osmosis unit to form a mixed permeate, and successively receiving a mixed permeate in the permeate side of the reverse osmosis units preceding the last reverse osmosis unit; andthe final phase reverse osmosis includes receiving a feed stream of mixed permeate in the concentrate side of the final phase reverse osmosis unit, forcing pure water from the concentrate side of the final phase reverse osmosis unit into the permeate side of the final phase reverse osmosis unit, and releasing the pure water from the permeate side of the final phase reverse osmosis unit to provide purified liquid. 2. The method for purifying liquids according to claim 1, further including the steps of: providing a liquid treatment device between the concentrate sides of adjacent first phase reverse osmosis units; andsupplying a feed stream of saline liquid to the liquid treatment device,wherein the liquid treatment device includes at least one treatment device selected from the group consisting of a filtration system, a chemical seeding system, a chemical injection system, and a nanofiltration OR electrodialysis system. 3. The method for purifying liquids according to claim 1, wherein the reverse osmosis membrane in each of the first phase reverse osmosis units is a low rejection membrane and the reverse osmosis membrane of the final phase reverse osmosis unit is a high rejection membrane. 4. The method for purifying liquids according to claim 1, further including the steps of: providing an evaporator and/or crystallizer device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units; andpassing at least a portion of concentrate from the concentrate side of the last reverse osmosis unit to the evaporator and/or crystallizer device. 5. The method for purifying liquids according to claim 1, further including the step of providing a magnesium hydroxide recovery device communicating with the concentrate side of the last reverse osmosis unit. 6. A method for purifying liquids, comprising the following steps: (a) performing a first phase liquid purification including providing a plurality of first phase reverse osmosis units, the first phase reverse osmosis units arranged in series with one another from a first reverse osmosis unit to a last reverse osmosis unit, each of the first phase reverse osmosis units having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of each of the first phase reverse osmosis units communicating with the concentrate side of the next reverse osmosis unit in succession, the permeate side of each of the first phase reverse osmosis units communicating with the permeate side of the preceding reverse osmosis unit in succession;(b) providing a nanofiltration OR electrodialysis device communicating with at least the concentrate side of the first reverse osmosis unit of the first phase reverse osmosis units;(c) providing a metals and solids recovery device communicating with the nanofiltration OR electrodialysis device;(d) providing a solvent recovery device communicating with the metals and solids recovery device and(e) processing liquid through the nanofiltration OR electrodialysis device, the metals and solids recovery device, and the solvent recovery devicewherein the nanofiltration OR electrodialysis device, the metals and solids recovery device, and the solvent recovery device are disposed in series;(f) performing a final phase liquid purification including providing at least one final phase reverse osmosis unit, the final phase reverse osmosis unit having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of the final phase reverse osmosis unit communicating with the permeate side of the first reverse osmosis unit of the first phase reverse osmosis units; and(g) further providing at least one liquid treatment device, the at least one liquid treatment device communicating with the concentrate side of adjacent first phase reverse osmosis units; whereinthe first phase liquid purification includes supplying a feed stream of saline liquid to one or more of the liquid treatment devices to form a treated feed stream, supplying the treated feed stream to the concentrate side of the respective first phase reverse osmosis units, forcing pure water from the concentrate side into the permeate side of the reverse osmosis units by reverse osmosis, transferring at least a portion of the concentrate in the concentrate side of the last reverse osmosis unit into the permeate side of the last reverse osmosis unit to form a mixed permeate, and successively receiving a mixed permeate in the permeate side of the reverse osmosis units preceding the last reverse osmosis unit; and thefinal phase reverse osmosis includes receiving a feed stream of mixed permeate in the concentrate side of the final phase reverse osmosis unit, forcing pure water from the concentrate side into the permeate side of the final phase reverse osmosis unit, and releasing the pure water from the permeate side of the final phase reverse osmosis unit to provide purified liquid. 7. The method for purifying liquids according to claim 6, wherein the reverse osmosis membrane in each of the first phase reverse osmosis units is a low rejection membrane and the reverse osmosis membrane of the final phase reverse osmosis unit is a high rejection membrane. 8. The method for purifying liquids according to claim 6, further including the steps of: (a) providing an evaporator and/or crystallizer device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units; and(b) passing at least a portion of concentrate from the concentrate side of the last reverse osmosis unit to the evaporator and/or crystallizer device. 9. The method for purifying liquids according to claim 6, further including the steps of: (a) providing an evaporator and/or crystallizer device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units; and(b) passing at least a portion of concentrate from the concentrate side of the last reverse osmosis unit to the evaporator and/or crystallizer device. 10. The method for purifying liquids according to claim 6, further including the step of providing a magnesium hydroxide recovery device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units. 11. A system for purifying liquids, comprising: (a) a plurality of first phase reverse osmosis units, the first phase reverse osmosis units arranged in series with one another from a first reverse osmosis unit to a last reverse osmosis unit, each of the first phase reverse osmosis units having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of each of the first phase reverse osmosis units communicating with the concentrate side of the next reverse osmosis unit in succession, the permeate side of each of the first phase reverse osmosis units communicating with the permeate side of the preceding reverse osmosis unit in succession;(b) a nanofiltration OR electrodialysis device communicating with at least the concentrate side of the first reverse osmosis unit;(c) a metals and solids recovery device communicating with the nanofiltration OR electrodialysis device; and(d) a solvent recovery device communicating with the metals and solids recovery device,wherein the nanofiltration OR electrodialysis device, the metals and solids recovery device, and the solvent recovery device are disposed in series;(e) at least one final phase reverse osmosis unit, the final phase reverse osmosis unit having a concentrate side, a permeate side, and a reverse osmosis membrane separating the concentrate side from the permeate side, the concentrate side of the final phase reverse osmosis unit communicating with the permeate side of the first reverse osmosis unit of the first phase reverse osmosis units. 12. The system for purifying liquids according to claim 11, wherein the reverse osmosis membrane in each of the first phase reverse osmosis units is a low rejection membrane and the reverse osmosis membrane of the final phase reverse osmosis unit is a high rejection membrane. 13. The system for purifying liquids according to claim 11, further comprising: an evaporator and/or crystallizer device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units. 14. The system for purifying liquids according to claim 11, further comprising: an evaporator and/or crystallizer device communicating with the concentrate side of the last reverse osmosis unit of the first phase reverse osmosis units.
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이 특허에 인용된 특허 (8)
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