化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
1期
228-232,252
,共6页
王文华%张晓青%邱金泉%成玉%张雨山%王静
王文華%張曉青%邱金泉%成玉%張雨山%王靜
왕문화%장효청%구금천%성옥%장우산%왕정
磷酸铵镁%污海水%低浓度氨氮%去除效果%沉淀结晶物
燐痠銨鎂%汙海水%低濃度氨氮%去除效果%沉澱結晶物
린산안미%오해수%저농도안담%거제효과%침정결정물
magnesium ammonium phosphate%contaminated seawater%low concentrated ammonia nitrogen%removal efficiency%deposit crystals
大量氮磷营养物质排入海湾,引起了富营养化、赤潮等一系列海洋污染问题,污海水中氮磷处理技术研究已引起人们的重视。磷酸铵镁化学沉淀法具有可同时脱除氨氮和磷酸盐,但还未应用于低浓度氨氮废水的处理,尤其是污海水中氨氮的处理。本文采用磷酸铵镁(MAP)化学沉淀法对污海水中氨氮进行处理实验研究,利用污海水中大量存在的 Mg2+,以 Na2HPO4作为沉淀剂,探讨了初始反应体系 pH 值、PO43-/NH4+投配比、反应时间等因素对氨氮脱除效果的影响。结合沉淀结晶物XRD和SEM分析,确定了MAP沉淀法处理污海水中氨氮的最佳反应条件:初始反应体系pH值为9.5~10.5,PO43-/NH4+投配比为1.1/1,反应时间为40 min。实验结果表明,在最佳反应条件下,随着氨氮初始浓度的增大,氨氮去除率逐渐增大,当进水氨氮浓度为12 mg/L时,氨氮去除率达到42.80%。
大量氮燐營養物質排入海灣,引起瞭富營養化、赤潮等一繫列海洋汙染問題,汙海水中氮燐處理技術研究已引起人們的重視。燐痠銨鎂化學沉澱法具有可同時脫除氨氮和燐痠鹽,但還未應用于低濃度氨氮廢水的處理,尤其是汙海水中氨氮的處理。本文採用燐痠銨鎂(MAP)化學沉澱法對汙海水中氨氮進行處理實驗研究,利用汙海水中大量存在的 Mg2+,以 Na2HPO4作為沉澱劑,探討瞭初始反應體繫 pH 值、PO43-/NH4+投配比、反應時間等因素對氨氮脫除效果的影響。結閤沉澱結晶物XRD和SEM分析,確定瞭MAP沉澱法處理汙海水中氨氮的最佳反應條件:初始反應體繫pH值為9.5~10.5,PO43-/NH4+投配比為1.1/1,反應時間為40 min。實驗結果錶明,在最佳反應條件下,隨著氨氮初始濃度的增大,氨氮去除率逐漸增大,噹進水氨氮濃度為12 mg/L時,氨氮去除率達到42.80%。
대량담린영양물질배입해만,인기료부영양화、적조등일계렬해양오염문제,오해수중담린처리기술연구이인기인문적중시。린산안미화학침정법구유가동시탈제안담화린산염,단환미응용우저농도안담폐수적처리,우기시오해수중안담적처리。본문채용린산안미(MAP)화학침정법대오해수중안담진행처리실험연구,이용오해수중대량존재적 Mg2+,이 Na2HPO4작위침정제,탐토료초시반응체계 pH 치、PO43-/NH4+투배비、반응시간등인소대안담탈제효과적영향。결합침정결정물XRD화SEM분석,학정료MAP침정법처리오해수중안담적최가반응조건:초시반응체계pH치위9.5~10.5,PO43-/NH4+투배비위1.1/1,반응시간위40 min。실험결과표명,재최가반응조건하,수착안담초시농도적증대,안담거제솔축점증대,당진수안담농도위12 mg/L시,안담거제솔체도42.80%。
Nitrogen (N) and phosphorus (P) are continuously discharged into the ocean,causing serious marine pollution problems,such as eutrophication and red tide. Much attention has been paid to removal N and P from contaminated seawater. Magnesium ammonium phosphate (MAP) precipitation method has the advantages of removal ammonia nitrogen and phosphate simultaneously,but it has not been used in low concentrated ammonia nitrogen wastewater treatment,especially in contaminated seawater treatment. In this research,MAP precipitation method was used to removal ammonia nitrogen in contaminated seawater. Mg2+ ion in seawater and Na2HPO4 were utilized as the precipitants. The influencing factors on ammonia nitrogen removal efficiency,such as pH,molar ratio of PO43-/NH4+and reaction time were investigated. Combined with XRD and SEM analysis of the deposit crystals,the optimal reaction conditions of ammonia nitrogen removal in contaminated seawater by MAP precipitation method were determined as the following:pH value,9.5-10.5;PO43-/NH4+molar ratio, 1.1/1;reaction time,40 min. The experimental results showed that under the optimal reaction conditions, increase of initial ammonia nitrogen concentration reduced ammonia nitrogen removal rate. The ammonia nitrogen removal rate was 42.80%when initial ammonia nitrogen concentration was 12 mg/L.
