KR20010106873A - The method of using insoluable precipitate of polyaluminum chloride to a process of making polyaluminum chroride - Google Patents
The method of using insoluable precipitate of polyaluminum chloride to a process of making polyaluminum chroride Download PDFInfo
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Abstract
응용수, 공업용수, 산업폐수처리시 응집제로 사용되는 폴리염화알루미늄의 저정시나 사용시 불용성 수산화알루미늄을 재활용하는 방법에 관한 것으로 불용성 수산화알루미늄과 가성소다를 반응시켜 알루민산염을 얻고 이를 폴리염화알루미늄 제조과정에 첨가 반응시키므로서 응집유효성분인 산화알루미늄(Al2O3)를 증가시키므로서 폐수처리량을 늘릴 수 있으며 동시에 응집성능 및 제품의 안정성을 좌우하는 염기도 조절기능을 갖게하므로서 불용성 수산화알루미늄을 폴리염화알루미늄 응집제의 제조에 이용하는 방법에 관한것임.A method for the storage of polyaluminum chloride, which is used as a flocculant in the treatment of applied water, industrial water, and industrial wastewater, and a method for recycling insoluble aluminum hydroxide during use.The reaction is obtained by reacting insoluble aluminum hydroxide with caustic soda to obtain aluminate. By increasing the amount of aluminum oxide (Al 2 O 3 ), which is the active ingredient of coagulation, by increasing the amount of wastewater treatment, it is possible to increase the amount of wastewater treatment. Regarding the method used to prepare aluminum chloride flocculant.
Description
본 발명은 응집제로 사용되는 폴리염화알루미늄의 저장 또는 사용중에 침전물로 발생되는 불용성의 수산화 알루미늄을 폴리염화 알루미늄의 제조에 이용하는 방법에 관한 것으로 다시 말하면 거의 폐기물로 폐기되는 불용성의 수산화 알루미늄을 재활용하는 방법에 관한것이라 할 수 있다.The present invention relates to a method of using insoluble aluminum hydroxide generated as a precipitate during the storage or use of polyaluminum chloride used as a flocculant in the production of polyaluminum chloride, that is, to recycle insoluble aluminum hydroxide which is almost disposed of as waste. It's about.
폴리염화알루미늄은 종래 응집제로서 가장 널리 사용했던 황산알루미늄을 대체할 수 있는 다기능 고분자 응집제로서 강력한 응집성능에 의한 탁월한응집효과와 각종 폐수처리에 대한 폭넓은 적응성, 경제성 및 작업능율성이 인정되어 최근에는 가장 폭넓게 사용되고 있다.Polyaluminum chloride is a multifunctional polymer flocculant that can replace the most widely used aluminum sulfate as a flocculant, and has recently been recognized for its excellent coagulation effect due to its strong cohesiveness and its wide adaptability, economical efficiency and workability for various wastewater treatments. Most widely used.
그러나 폴리염화알루미늄을 산업폐수처리용으로 사용시 제품의 성능, 안정성을 향상시킬 목적으로 탄산나트륨, 가성소다와 같은 염기도 조절제를 첨가하는가 하면 가수분해가 되지 않는 범위에서 중축합촉진제 또는 증감제로서 황산이온을 적당량 혼합시킨 함황산기 폴리염화알루미늄으로도 사용한다.However, when polyaluminum chloride is used for industrial wastewater treatment, basicity regulators such as sodium carbonate and caustic soda are added to improve the performance and stability of the product, while sulfate ion is used as a polycondensation accelerator or sensitizer in a range that does not hydrolyze. It is also used as a polyaluminum chloride-containing polysulfate group.
그럼에도 불구하고 PAC의 저장중이나 사용시에 백색의 불용성인 수산화알루미늄의 많은량이 침전분리되므로서 응집성능을 열화시키거나 이송관을 폐쇄시키는 문제점을 발생시킬 뿐만 아니라 이와 같은 침전물은 수분함량이 높아 폐기처분이나 재활용에도 애로가 있다.Nevertheless, a large amount of white insoluble aluminum hydroxide during sedimentation or storage during use of PAC not only causes deterioration of cohesive performance or closure of the conveying pipe, but also a high content of sediment such as waste. Recycling is also a problem.
종래 침전물인 수산화알루미늄 재활용의 일예로는 재생 황산알루미늄 제조시에 이용되고 있으나 다량의 염화수소 개스 발생으로 공해 문제를 유발시키므로서 최근에는 거의 이용되지 않고 대부분 폐기처분하고 있는 실정이다.An example of recycled aluminum hydroxide, which is a conventional precipitate, is used in the production of recycled aluminum sulfate, but due to the generation of a large amount of hydrogen chloride gas, causing pollution problems, it is rarely used recently and is disposed of mostly.
본 발명은 폴리염화알루미늄의 저장이나 사용중에 발생되는 불용성 수산화알루미늄을 새로운 방법으로 유용하게 재활용하는 방법을 제공함에 있으며 구체적으로는 침전물인 불용성의 수산화 알루미늄을 알카리와 반응시켜 알루민산염을 얻고 이를 폴리염화알루미늄 제조시에 첨가 반응시키므로서 폴리염화알루미늄의 우수한 응집효과는 물론 염기도 조절기능 및 응집보조기능을 갖도록 폴리염화알루미늄의 제조방법에 이용하는 방법과 나아가서 종래 염기도 조절기능으로 첨가되는 탄산나트륨 가성소다 등을 경제적으로 대체할 수 있는 방법이라고도 할 수 있다.The present invention provides a method for the useful recycling of insoluble aluminum hydroxide generated during the storage or use of polyaluminum chloride in a new method, specifically, insoluble aluminum hydroxide as a precipitate to react with alkali to obtain aluminate By adding and reacting during the production of aluminum chloride, the method used in the production method of polyaluminum chloride to have the excellent coagulation effect, polybasicity control function and coagulation aid function, and furthermore, sodium carbonate caustic soda which is added by conventional basicity control function. It can also be called an economical alternative.
본 발명은 폴리염화알루미늄 응집제로 부터 발생되는 불용성수산화 알루미늄을 폴리염화알루미늄 응집제 제조에 이용하는 방법으로 이를 구체적으로 설명하면 먼저 불용성의 수산화알루미늄의 가성소다를 가열 반응시켜 여과하여 아루민산염을 얻고 이를 염산과 수산화알루미늄을 반응시킨 여과하지 않는 반응물에 첨가하여 용해시킨다음 여과하고 비중 조절함을 특징으로 하는 폴리염화알루미늄의 불용성 침전물을 폴리염화알루미늄 응집제의 제조에 이용하는 방법이라 할 수 있다.The present invention is a method of using an insoluble aluminum hydroxide generated from a polyaluminum chloride flocculant to prepare a polyaluminum chloride flocculant. Specifically, the present invention is first filtered by heating a caustic soda of insoluble aluminum hydroxide to obtain aluminate and hydrochloric acid. And an insoluble precipitate of polyaluminum chloride, which is added to a non-filtered reactant reacted with aluminum hydroxide and dissolved, followed by filtration and specific gravity control, to produce a polyaluminum chloride flocculant.
위에서 불용성 수산화알루미늄과 가성소다의 반응중량비는 2 : 1이고, 반응온도는 110-130℃로 유지하고, 반응시간은 3-5시간으로 반응량의 차이에 따라 약간의 차이가 나며 염산과 수산화알루미늄의 반응 중량비는 7 : 4이고 염산과 수산화알루미늄 반응물에 알루민산소다의 첨가량은 염산과 수산화알루미늄의 반응량 총량에 대하여 18-20wt%비로 첨가하며 염산 및 수산화알루미늄의 반응온도는 150℃를 유지하고 압력 3-3kg/㎠ 하에서 12시간 반응시킨다.The reaction weight ratio of insoluble aluminum hydroxide and caustic soda is 2: 1, the reaction temperature is maintained at 110-130 ℃, the reaction time is 3-5 hours, depending on the difference in the reaction amount is slightly different, hydrochloric acid and aluminum hydroxide The reaction weight ratio of is 7: 4 and the addition of sodium aluminate to the reactants of hydrochloric acid and aluminum hydroxide is added at a ratio of 18-20 wt% to the total amount of hydrochloric acid and aluminum hydroxide, and the reaction temperature of hydrochloric acid and aluminum hydroxide is maintained at 150 ° C. The reaction is carried out under pressure 3-3kg / cm 2 for 12 hours.
여기에서 각 반응물의 반응량의 비는 거의 당량비이므로 반응후 미량의 불순물 이외에는 미반응물이 거의 생성되지 않는다.Herein, the ratio of the reaction amount of each reactant is almost equivalent ratio, so that the unreacted material is hardly generated except for a small amount of impurities after the reaction.
위의 염산과 수산화알루미늄 반응에서 생성된 폴리염화알루미늄에 알루민산염을 첨가 반응시키므로서 응집제의 응집효과의 상승은 물론 응집제의 염기도 조절기능을 갖게된다.By adding aluminate to the polyaluminum chloride produced by the hydrochloric acid and aluminum hydroxide reaction, the coagulation effect of the coagulant is increased as well as the base of the coagulant has a control function.
아루민산나트륨의 기능 및 작용을 알아보면,If you look at the function and action of sodium aluminate,
응집(중성영역에서)다음과 같이 반응식(1)과 같이 되어 다공성 수산화알루미늄을 생성 수중의 부유고형물을 흡착침전 분리하고,Agglomeration (in the neutral region) As shown in the following reaction formula (1), porous aluminum hydroxide is produced.
NaAl2→ Na++ Al(OH)3↓ ----- C3(1)NaAl 2 → Na + + Al (OH) 3 ↓ ----- C 3 (1)
또 PH 조정제로서의 작용은 응집제(전해질)에 알카리원을 공급 가수분해를 초진시키며 폴리염화알루미늄 염기도 조절로 알루민산염은 폴리염화알루미늄을 중화시켜 염기도 조정이 용이하다.In addition, the function of the pH regulator is to supply an alkali source to the flocculant (electrolyte) to initiate hydrolysis, and the aluminate neutralizes the polyaluminum chloride to control the basicity by adjusting the polyaluminum chloride basicity.
이 염기도는 제품의 응집성능 및 저장성능을 지배하는 중요한 팩타이다.This basicity is an important factor governing the cohesive and storage performance of the product.
상기 본 발명의 기술구성을 명확히 하고 효과를 알아보기 위해 실시예를 들기로 한다.In order to clarify the technical configuration of the present invention and find out the effect will be given an embodiment.
실시예(1)Example (1)
반응용기에 수산화나트륨(50wt%) 2톤을 넣고 침전물(불용성 수산화물) 1톤을 첨가 온도 120℃로 유지된 상태에서 교반하면서 3-5시간 반응시켜 여과하여 알루민산소다를 얻었다.2 tons of sodium hydroxide (50 wt%) was added to the reaction vessel, and 1 ton of precipitate (insoluble hydroxide) was reacted for 3-5 hours with stirring while maintaining the addition temperature at 120 ° C to obtain sodium aluminate.
이때 제품분석을 한결과 산화알루미늄 7.2%, 비중 1.24이었다.Product analysis showed that aluminum oxide was 7.2% and specific gravity 1.24.
한편 염산 3.5톤을 그라스라이닝 반응용기에 수산화알루미늄 2톤과 동시에 넣은 후 가열하여 온도 150℃로 유지하고 압력 3-4kg/㎠하에서 12시간 반응시킨후 여과전 반응물에 먼저 제조된 알루민산소다 100kg을 첨가하고 용해 여과하고 비중조절하여 폴리염화알루미늄 응집제를 얻었다.Meanwhile, 3.5 tonnes of hydrochloric acid was added to a glass lining reaction vessel together with 2 tonnes of aluminum hydroxide, heated to maintain a temperature of 150 ° C., and reacted for 12 hours at a pressure of 3-4 kg / cm 2. Addition, dissolution filtration and specific gravity control yielded a polyaluminum chloride flocculant.
이 생성물의 분석결과는 산화알루미늄 10.2%, 비중 1.22이다.The result of analysis of this product was 10.2% of aluminum oxide and 1.22 specific gravity.
실시예(1)에서 제조된 폴리염화알루미늄 응집제의 효과를 알아보기 위해서 실시예(2)를 들기로 한다.In order to examine the effect of the polyaluminum chloride flocculant prepared in Example (1), Example (2) is taken.
실시예(2)Example (2)
증류수에 카오리나이트를 현탄시키고 정치후 일정량의 인공탁수인 조제수를 얻었다.Kaolinite was suspended in distilled water and a fixed amount of artificial turbid water was obtained after standing.
탁도 5NT나, 알카리도 50mg/l, PH7.2이었다.The turbidity was 5 NT, the alkalinity was 50 mg / l, and PH7.2.
500ml 비이커에 조제수를 취하여 실시예(1)에서 얻은 응집제를 첨가 후 150rpm으로 1분, 45rpm으로 15분, 정치 30분후 처리수 수질분석 및 처리결과를 다른 응집제와 비교하여 표(2)를 얻었다.After adding the coagulant obtained in Example (1) to the 500 ml beaker and adding the coagulant obtained in Example (1), the treated water quality analysis and treatment results were compared with other coagulants after 1 minute at 150 rpm, 15 minutes at 45 rpm, and the results were obtained in Table (2). .
폴리염화알루미늄 제조시에 알루민산소다를 첨가하므로서 응집유효성분 Al2O3량을 증가시키므로서 처리폐수량을 늘릴 수 있을 뿐만 아니라 거의가 수입에 의존하고 있는 수산화알루미늄을 절약할 수 있고 또한 종래 염기도 조절 목적으로 폴리염화알루미늄에 첨가 사용하는 탄산나트륨이나 가성소다를 첨가하지 않으므로 생산비를 대폭줄일 수 있으며 더욱이 폐기 처분에 있어서도 과량의 침출수의 발생으로 문제가 되고 있는 불용성 수산화알루미늄을 폴리염화알루미늄 제조과정에 이용하므로서 폐기물의 처리비용 및 공해방지 차원에서도 큰 잇점을 갖고 있는 발명이라 할 수 있다.By adding sodium aluminate in the production of polyaluminum chloride, the amount of waste active ingredient Al 2 O 3 can be increased, thereby increasing the amount of wastewater treated, and also saving aluminum hydroxide, which is mostly dependent on imports, and also controlling the conventional base. Since it does not add sodium carbonate or caustic soda, which is added to polyaluminum chloride for the purpose, the production cost can be greatly reduced. Moreover, insoluble aluminum hydroxide, which is a problem due to the generation of excess leachate in disposal, is used for the polyaluminum chloride manufacturing process. The invention has great advantages in terms of waste disposal cost and pollution prevention.
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100430750B1 (en) * | 2001-07-18 | 2004-05-10 | 동명화학공업 주식회사 | The method of reusing aluminium hydroxide precipitated from poly aluminium chloride |
CN100519418C (en) * | 2006-01-26 | 2009-07-29 | 中国科学院生态环境研究中心 | High purity nano polyaluminum sol industrialized preparation method |
CN105967298A (en) * | 2016-07-26 | 2016-09-28 | 广西驰胜农业科技有限公司 | Method for preparing polyaluminum chloride |
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