WO2014208936A1 - 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법 및 그 재생장치 - Google Patents
정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법 및 그 재생장치 Download PDFInfo
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- WO2014208936A1 WO2014208936A1 PCT/KR2014/005468 KR2014005468W WO2014208936A1 WO 2014208936 A1 WO2014208936 A1 WO 2014208936A1 KR 2014005468 W KR2014005468 W KR 2014005468W WO 2014208936 A1 WO2014208936 A1 WO 2014208936A1
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- ammonium bicarbonate
- bicarbonate solution
- forward osmosis
- unit
- solution
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/002—Forward osmosis or direct osmosis
- B01D61/005—Osmotic agents; Draw solutions
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/002—Forward osmosis or direct osmosis
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/002—Forward osmosis or direct osmosis
- B01D61/0022—Apparatus therefor
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/44—Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
- C02F1/445—Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis by forward osmosis
Definitions
- the present invention relates to the regeneration of ammonium bicarbonate (NH 4 HCO 3 ) used as an osmotic liquid in a forward osmosis type water treatment apparatus, and more specifically, used in seawater desalination or the amount of wastewater.
- ammonium bicarbonate NH 4 HCO 3
- a reproduction method and a reproduction device thereof are examples of ammonium bicarbonate (NH 4 HCO 3 ) used as an osmotic liquid in a forward osmosis type water treatment apparatus, and more specifically, used in seawater desalination or the amount of wastewater.
- a method of separating water from seawater, wastewater, and contaminated water using forward osmosis has an advantage of less energy consumption than a method of separating water by an evaporation method.
- an environmentally friendly ammonium bicarbonate solution can be used as the osmotic liquid used at this time.
- a separation column may be used as a method of regenerating an ammonium bicarbonate solution.
- the carbon dioxide and ammonia are evaporated by the heat source at the bottom to be discharged to the upper portion of the separation tower, and a condenser is required to capture carbon dioxide and ammonia separated to the separation tower.
- the generator gas since the generator gas is an inducing solute component for fresh water, it must be recovered as a solution. In this process, a process of lowering the temperature to condensate is essential. Therefore, when constructing a large-scale desalination system, the removal of solid salts or the maintenance of piping temperature becomes more difficult. Therefore, the formation of solid salts is a serious problem.
- US Patent Publication No. 2009/0308727 discloses a method for recovering carbon dioxide and ammonia using a compressor.
- a considerable amount of ammonium carbonate is produced, continuous operation is impossible, and the continuous operation requires dilution with a large amount of water, resulting in high consumption of generated water and high consumption of electricity for compressor operation.
- the present invention has been made to solve the above problems, and an object of the present invention is to provide a method for regenerating ammonium bicarbonate solution and a regenerating apparatus capable of continuously regenerating ammonium bicarbonate solution while preventing salt precipitation in the electroosmotic water treatment system. .
- Ammonium bicarbonate solution regeneration method of the forward osmosis method water treatment apparatus the ammonium bicarbonate (NH 4 HCO 3 ) solution used as the osmotic solution in the water treatment apparatus to which the forward osmosis method is applied
- the step of separating the carbon dioxide and ammonia by introducing a portion of the mixed solution of the water separated by the forward osmosis in the forward osmosis and mixed with the ammonium bicarbonate solution used as the osmosis solution into the evaporation unit and then heated ; Absorbing carbon dioxide and ammonia evaporated from the evaporation unit by introducing the remainder of the mixed solution into one or a plurality of absorption units; Concentrating the ammonium bicarbonate solution having absorbed carbon dioxide and ammonia in the absorber into one or more concentrated portions; And cooling the ammonium bicarbonate solution concentrated in the concentrating unit and regenerating and supplying at least a part of the forward osmosis
- the ammonium bicarbonate solution regeneration method may further include refluxing a part of the ammonium bicarbonate solution concentrated in the concentrating unit, and then refluxing a portion of the ammonium bicarbonate solution.
- the ammonium bicarbonate solution regeneration method may further include heat-exchanging the mixed solution supplied to the evaporator and the product water discharged after the carbon dioxide and ammonia are separated from the mixed solution supplied to the evaporator.
- the concentration of ammonium bicarbonate in the mixed solution is preferably 3 to 5% by weight.
- the amount of the mixed solution supplied to the absorber is preferably 0.5 to 4 times the amount of the mixed solution supplied to the evaporator.
- the ammonium bicarbonate concentration of the osmosis solution flowing into the forward osmosis part is preferably 5 to 20% by weight.
- an evaporation unit for separating carbon dioxide and ammonia by heating a portion of the mixed solution in which the prepared water and the ammonium bicarbonate solution used as the osmotic solution are mixed; One or more absorbing portions for absorbing carbon dioxide and ammonia evaporated from the evaporating portion by introducing the rest of the mixed solution; One or a plurality of concentrating portions for introducing and concentrating an ammonium bicarbonate solution absorbing carbon dioxide and ammonia from the absorbing portion; And an ammonium bicarbonate solution regeneration apparatus of the forward osmosis-type water treatment apparatus including a regeneration supply unit for cooling the ammonium bicarbonate solution concentrated in the concentration section, at least a part of the forward osmosis solution
- the evaporation unit, the concentrating unit and the absorbing unit may be provided in series with one or a plurality of combinations sequentially arranged upward in the form of a tower.
- the regeneration device of the ammonium bicarbonate solution may further include a heat exchanger for heat-exchanging the mixed solution supplied to the evaporator and the product water discharged after the carbon dioxide and ammonia are separated from the mixed solution supplied to the evaporator.
- the regeneration device of the ammonium bicarbonate solution may further include one or a plurality of reflux parts for cooling a part of the ammonium bicarbonate solution concentrated in the concentration part and then refluxing a part to the concentration part.
- the regeneration device of the ammonium bicarbonate solution may further include a washing unit which is disposed above the absorbing unit and washes using the supplied washing water.
- FIG. 1 is a flowchart illustrating a regeneration method of an ammonium bicarbonate solution according to an embodiment of the present invention
- FIG. 2 is a block diagram showing a regeneration device of the ammonium bicarbonate solution that can implement the regeneration method of the ammonium bicarbonate solution shown in FIG.
- FIG. 3 is a configuration diagram showing a modification in which a plurality of absorption parts and a concentration part are provided in the regeneration device of the ammonium bicarbonate solution shown in FIG. 2.
- FIG. 1 is a flowchart illustrating a regeneration method of an ammonium bicarbonate solution according to an embodiment of the present invention
- FIG. 2 is a block diagram illustrating a regeneration device of an ammonium bicarbonate solution capable of implementing the regeneration method of the ammonium bicarbonate solution shown in FIG. 1. .
- the forward osmosis type water treatment apparatus of the present invention is provided with a forward osmosis unit 10 having a semipermeable membrane boundary therein.
- the treated water (1) such as seawater, wastewater, contaminated water and the like are separated and introduced into the semipermeable membrane
- the water contained in the treated water (1) is subjected to ammonium bicarbonate solution by osmosis due to the concentration difference. It is moved to and mixed, and the treated water 1a from which water is removed by the concentration difference is removed to the outside.
- the method for regenerating an ammonium bicarbonate solution is a method for regenerating an ammonium bicarbonate solution used as an osmotic liquid as described above.
- the regeneration method of the ammonium bicarbonate solution includes a separation step (S10), an absorption step (S20), a concentration step (S30), and a regeneration supply step (S40).
- the separation step (S10) the water separated by the forward osmosis phenomenon in the forward osmosis unit 10, evaporated a portion (2a) of the mixed solution (2) mixed with the ammonium bicarbonate solution used as the osmotic solution It is a process of separating and evaporating carbon dioxide and ammonia by heating after flowing into the unit 110.
- the heater 180 heats the mixed solution 2a introduced into the evaporator 110.
- the product water 4 in which carbon dioxide and ammonia are separated and evaporated from the mixed solution 2a is discharged to the outside.
- the mixed solution (2a) and the generated water (4) supplied to the evaporator 110 (S60) energy consumed in the heater 180 Can be reduced.
- the absorption step (S20) is a process of absorbing carbon dioxide and ammonia evaporated from the evaporator 110 by introducing the remainder 2b of the mixed solution 2 into the absorber 120.
- the amount of the mixed solution 2b supplied to the absorber 120 is preferably 0.5 to 4 times the amount of the mixed solution 2a supplied to the evaporator 110, and the height of the absorber 120 is increased.
- the number of moles of carbon dioxide and ammonia evaporated in the mixed solution 2a introduced into the evaporator 110 may vary depending on the ammonium carbonate concentration of the osmosis solution.
- the concentration step (S30) is a step of concentrating by introducing the ammonium bicarbonate solution absorbing carbon dioxide and ammonia in the absorption unit 120 to the concentration unit 130.
- the regeneration supply step (S40) by cooling the ammonium bicarbonate solution (3) concentrated in the concentration unit 130, to supply at least a portion (3a) to the osmotic liquid of the forward osmosis unit 10 It is a process.
- the ammonia and carbon dioxide lost together with the generated water (4) and the exhaust gas (6) is a very small amount, and the corresponding ammonium carbonate salt, ammonia and carbon dioxide can be replenished through the appropriate location of the osmotic liquid regeneration process.
- the remaining portion 3b of the concentrated ammonium bicarbonate solution 3 may be refluxed to the concentration unit 130 (S50) to concentrate the ammonium bicarbonate solution 3b to the required concentration.
- the temperature of the ammonium bicarbonate solution 3 refluxed to the concentration unit 130 is preferably set to minimize the energy consumed in the cooler 141.
- the concentration of ammonium bicarbonate in the mixed solution 2 mixed with the prepared ammonium bicarbonate solution is preferably 3 to 5% by weight.
- the concentration of ammonium bicarbonate in the mixed solution (2) may vary depending on the salt concentration in seawater, the concentration of contaminants in the treated water (1) and the capacity of the forward osmosis unit (10).
- ammonium bicarbonate concentration of the osmosis solution flowing into the forward osmosis part 10 is preferably 5 to 20% by weight. If the ammonium bicarbonate concentration of the osmotic liquid is lower than 5% by weight, the amount of water obtained from the forward osmosis part 10 is less, and if the concentration is higher than 20% by weight, ammonium carbonate salts may precipitate and operation may be difficult. to be.
- FIG. 3 illustrates a modified example in which the absorbing part 120 and the concentrating part 130 are provided. Shown. However, FIG. 3 is merely an example, and the absorbing unit 120 and the concentrating unit 130 may be provided as three or more, respectively, as necessary.
- the absorbing unit 120 and the concentrating unit 130 as shown in the first and second absorbing unit 121, 122 arranged to cross each other in response to the temperature of the available cooling water of the cooler (142,143).
- the first and second concentration parts 131 and 132 are arranged to cross each other in response to the temperature of the available cooling water of the cooler (142,143).
- the regeneration apparatus of the ammonium bicarbonate solution of the present invention includes an evaporator 110, an absorber 120, a concentrator 130, and a regeneration supply unit 140.
- the evaporator 110 heats a portion 2a of the mixed solution 2 in which the water separated by the forward osmosis in the forward osmosis unit 10 and the ammonium bicarbonate solution used as the osmotic solution are mixed. Separate carbon dioxide and ammonia. At this time, the product water 4 in which carbon dioxide and ammonia are separated and evaporated from the mixed solution 2a is discharged to the outside.
- the heater 180 is provided with a heat exchanger 150 for heat-exchanging the mixed solution 2a and the generated water 4 supplied to the evaporator 110. Can reduce the energy consumed by
- the absorber 120 absorbs carbon dioxide and ammonia evaporated from the evaporator 110 by introducing the remainder 2b of the mixed solution 2.
- the concentrator 130 concentrates by introducing an ammonium bicarbonate solution in which carbon dioxide and ammonia are absorbed by the absorber 120.
- the regeneration supply unit 140 cools the ammonium bicarbonate solution 3 concentrated in the concentration unit 130, and supplies at least a portion 3a to the osmotic liquid of the forward osmosis unit 10. At this time, the remaining portion (3b) of the concentrated ammonium bicarbonate solution (3) is provided with a reflux portion 160 to reflux to the concentration section 130, it is possible to concentrate the ammonium bicarbonate solution (3b) to the required concentration have.
- the absorber 120 and the concentrator 130 may be provided in plural numbers, respectively.
- the evaporator 110, the concentrator 130 and the absorber 120 may be disposed sequentially in the form of a tower ( ⁇ ).
- ⁇ a tower
- in consideration of the installation space, investment cost, etc. may be installed in series so that a plurality of combinations of the evaporator 110, the concentrator 130, and the absorber 120 are sequentially arranged upward.
- the washing unit 170 may be disposed above the absorbing unit 120.
- the washing unit 170 performs the washing using the supplied washing water (5).
- the water discharged from the washing unit 170 may flow into the absorbing unit 120 or may be discharged to the outside.
- an evaporation unit having a tower shape capable of separating and concentrating an ammonium bicarbonate solution used as an osmotic liquid ( 110), the absorbing unit 120 and the concentration unit 130 it is possible to continuously reproduce the ammonium bicarbonate solution used as the osmotic liquid while preventing the generation of salt during the process.
Abstract
Description
온 도(℃) | 0 | 10 | 20 | 30 |
NH3HCO3 농 도(wt%) | 10.6 | 13.6 | 17.3 | 21.2 |
Claims (11)
- 정삼투압(Forward osmosis) 방식을 적용한 수처리 장치에서 삼투액으로 사용한 중탄산암모늄(Ammonium bicarbonate; NH4HCO3) 용액을 재생하기 위한 것으로서,상기 정삼투압부(10)에서 정삼투 현상에 의해 분리된 물과, 상기 삼투액으로 사용된 중탄산암모늄 용액이 혼합된 혼합용액(2) 중 일부(2a)를 증발부(110)로 유입시킨 후 가열하여 이산화탄소와 암모니아를 분리하는 단계(S10);상기 혼합용액(2)의 나머지(2b)를 하나 또는 복수개의 흡수부(120)로 유입시켜 상기 증발부(110)에서 증발하는 이산화탄소와 암모니아를 흡수하는 단계(S20);상기 흡수부(120)에서 이산화탄소와 암모니아를 흡수한 중탄산암모늄 용액을 하나 또는 복수개의 농축부(130)로 유입시켜 농축하는 단계(S30); 및상기 농축부(130)에서 농축된 중탄산암모늄 용액(3)을 냉각시켜, 적어도 일부(3a)를 상기 정삼투압부(10)의 삼투액으로 재생 공급하는 단계(S40)를 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 청구항 1에 있어서,상기 농축부(130)에서 농축된 중탄산암모늄 용액(3)을 냉각시킨 후, 일부(3b)를 상기 농축부(130)로 환류시키는 단계(S50)를 더 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 청구항 1에 있어서,상기 증발부(110)로 공급되는 혼합용액(2a)과, 상기 증발부(110)로 공급된 혼합용액(2a)으로부터 이산화탄소와 암모니아가 분리된 후 배출되는 생성수(4)를 열교환시키는 단계(S60)를 더 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 청구항 1 내지 청구항 3 중 어느 한 항에 있어서,상기 혼합용액(2)에서 중탄산암모늄의 농도는 3 내지 5 중량%인 것을 특징으로 하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 청구항 1 내지 청구항 3 중 어느 한 항에 있어서,상기 흡수부(120)로 공급되는 혼합용액(2b)의 양은 상기 증발부(110)로 공급되는 혼합용액(2a) 양의 0.5 내지 4배인 것을 특징으로 하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 청구항 1 내지 청구항 3 중 어느 한 항에 있어서,상기 정삼투압부(10)로 유입되는 삼투액의 중탄산암모늄 농도는 5 내지 20 중량%인 것을 특징으로 하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생방법.
- 정삼투압(Forward osmosis) 방식을 적용한 수처리 장치에서 삼투액으로 사용한 중탄산암모늄(Ammonium bicarbonate) 용액을 재생하기 위한 것으로서,정삼투압부(10)에서 정삼투 현상에 의해 분리된 물과, 상기 삼투액으로 사용된 중탄산암모늄 용액이 혼합된 혼합용액(2) 중 일부(2a)를 가열하여 이산화탄소와 암모니아를 분리하는 증발부(110);상기 혼합용액(2)의 나머지(2b)를 유입시켜 상기 증발부(110)에서 증발하는 이산화탄소와 암모니아를 흡수하는 하나 또는 복수개의 흡수부(120);상기 흡수부(120)에서 이산화탄소와 암모니아를 흡수한 중탄산암모늄 용액을 유입시켜 농축하는 하나 또는 복수개의 농축부(130); 및상기 농축부(130)에서 농축된 중탄산암모늄 용액(3)을 냉각시켜, 적어도 일부(3a)를 상기 정삼투압부(10)의 삼투액으로 재생 공급하는 재생공급부(140)를 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생장치(100).
- 청구항 7에 있어서,상기 흡수부(120)는, 탑(塔)의 형태로 순차 상향 배치된 일 조합이 하나 또는 복수개가 직렬로 설치된 것을 특징으로 하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생장치(100).
- 청구항 7 또는 청구항 8에 있어서,상기 증발부(110)로 공급되는 혼합용액(2a)과, 상기 증발부(110)로 공급된 혼합용액(2a)으로부터 이산화탄소와 암모니아가 분리된 후 배출되는 생성수(4)를 열교환시키는 열교환부(150)를 더 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생장치(100).
- 청구항 7 또는 청구항 8에 있어서,상기 농축부(130)에서 농축된 중탄산암모늄 용액(3)을 냉각시킨 후, 일부(3b)를 상기 농축부(130)로 환류시키는 하나 또는 복수개의 환류부(160)를 더 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생장치(100).
- 청구항 7 또는 청구항 8에 있어서,상기 흡수부(120)의 상측에 배치되어 공급된 세척수(5)를 이용해 세척을 하는 세척부(170)를 더 포함하는 정삼투압 방식 수처리 장치에서 중탄산암모늄 용액의 재생장치(100).
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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US14/436,482 US20160051932A1 (en) | 2013-06-24 | 2014-06-20 | Method for regenerating ammonium bicarbonate solution in forward osmotic pressure type water treatment apparatus and regeneration apparatus therefor |
JP2015550343A JP2016506299A (ja) | 2013-06-24 | 2014-06-20 | 正浸透圧方式の水処理装置における重炭酸アンモニウム溶液の再生方法およびその再生装置 |
EP14817268.7A EP3015159A1 (en) | 2013-06-24 | 2014-06-20 | Method for regenerating ammonium bicarbonate solution in forward osmotic pressure type water treatment apparatus and regeneration apparatus therefor |
CA2916426A CA2916426A1 (en) | 2013-06-24 | 2014-06-20 | Method for regenerating ammonium bicarbonate solution in forward osmotic pressure type water treatment apparatus and regeneration apparatus therefor |
PH12015502776A PH12015502776A1 (en) | 2013-06-24 | 2015-12-14 | Method for regenerating ammonium bicarbonate solution in forward osmotic pressure type water treatment apparatus and regeneration apparatus therefor |
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KR1020130072351 | 2013-06-24 | ||
KR10-2013-0072351 | 2013-06-24 |
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CA (1) | CA2916426A1 (ko) |
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KR101854623B1 (ko) * | 2016-06-15 | 2018-05-04 | 베니트엠 주식회사 | 중탄산암모늄 용액의 재생 방법 |
CA3037695A1 (en) * | 2016-09-20 | 2018-03-29 | Nrgtek Inc. | Hydro-osmotic systems processes |
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Also Published As
Publication number | Publication date |
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JP2016506299A (ja) | 2016-03-03 |
EP3015159A1 (en) | 2016-05-04 |
US20160051932A1 (en) | 2016-02-25 |
PH12015502776A1 (en) | 2016-03-21 |
CA2916426A1 (en) | 2014-12-31 |
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