分析测试学报
分析測試學報
분석측시학보
JOURNAL OF INSTRUMENTAL ANALYSIS
2014年
9期
1078-1082
,共5页
磷富集%水体%太湖%31P核磁共振技术
燐富集%水體%太湖%31P覈磁共振技術
린부집%수체%태호%31P핵자공진기술
concentration of phosphorus%water%Lake Taihu%31 P nuclear magnetic resonance(31P-NMR)
铝盐富集法是应用31 P核磁共振技术(31 P Nuclear magnetic resonance,31 P-NMR)分析水体溶解态磷组成的前处理方法。为将该方法更好地应用于太湖水体溶解态磷的研究中,针对铝盐添加时水体的pH 值、铝盐的添加量、提取剂的选择、水样体积等进行研究。结果表明,铝盐的添加量不仅和水体中溶解态总磷的浓度有关,也与富集水的体积相关;铝盐添加过程中,水体pH值会影响有机磷的去除率;太湖水体溶解态磷富集的最优方法是取过滤后的湖水20 L,添加3 g AlCl3·6H2 O并充分搅拌,且水体pH值保持6.0,静置过夜后,除去上覆水,收集含磷絮状物并离心,最后用0.5 mol/L NaOH+0.1 mol/L EDTA进行提取。
鋁鹽富集法是應用31 P覈磁共振技術(31 P Nuclear magnetic resonance,31 P-NMR)分析水體溶解態燐組成的前處理方法。為將該方法更好地應用于太湖水體溶解態燐的研究中,針對鋁鹽添加時水體的pH 值、鋁鹽的添加量、提取劑的選擇、水樣體積等進行研究。結果錶明,鋁鹽的添加量不僅和水體中溶解態總燐的濃度有關,也與富集水的體積相關;鋁鹽添加過程中,水體pH值會影響有機燐的去除率;太湖水體溶解態燐富集的最優方法是取過濾後的湖水20 L,添加3 g AlCl3·6H2 O併充分攪拌,且水體pH值保持6.0,靜置過夜後,除去上覆水,收集含燐絮狀物併離心,最後用0.5 mol/L NaOH+0.1 mol/L EDTA進行提取。
려염부집법시응용31 P핵자공진기술(31 P Nuclear magnetic resonance,31 P-NMR)분석수체용해태린조성적전처리방법。위장해방법경호지응용우태호수체용해태린적연구중,침대려염첨가시수체적pH 치、려염적첨가량、제취제적선택、수양체적등진행연구。결과표명,려염적첨가량불부화수체중용해태총린적농도유관,야여부집수적체적상관;려염첨가과정중,수체pH치회영향유궤린적거제솔;태호수체용해태린부집적최우방법시취과려후적호수20 L,첨가3 g AlCl3·6H2 O병충분교반,차수체pH치보지6.0,정치과야후,제거상복수,수집함린서상물병리심,최후용0.5 mol/L NaOH+0.1 mol/L EDTA진행제취。
Phosphorus concentration with aluminum( Al)compound is a pretreatment method for the dissolved phosphorus analysis by 31 P-NMR. In order to apply this method to concentrating phosphor-us in freshwater of Lake Taihu,experiment conditions of this method were analyzed,including pH of water during Al precipitating dissolved phosphorus,amount of Al compound,volume of water and type of extractant. The results showed that the amount of Al compound needed in the phosphorus en-richment is related to not only the phosphorus concentration in freshwater,but also the volume of wa-ter. The best experiment conditions and procedures to concentrate phosphorus for 31 P-NMR analysis were selecting 20 L filtration water from Lake Taihu,and adding 3 g AlCl3 ·6H2O in the water (keeping pH value of 6. 0). After overnight,Al floc containing phosphorus was collected and then redissolved in 0. 5 mol·L-1 NaOH+0. 1 mol·L-1 EDTA.
