摘要
围绕高效处理氨氮废水设计了由粉煤灰制备沸石分子筛及其吸附脱除水中氨氮的综合实验,主要包含以粉煤灰为原料合成Na A型分子筛、氨氮吸附性能测试及其吸附机理研究。通过条件优化,确定最优LTA沸石制备参数为碱熔温度60℃、碱灰比1∶1.2、晶化凝胶硅铝比(Si/Al)0.50。利用XRD、SEM、EDS、N_(2)物理吸附和热重等手段对一系列条件合成的沸石进行表征,确定了其分子式并发现上述最优条件合成的Na A沸石呈立方状,大小均匀,尺寸随着硅铝比的增加而不断增大。沸石的Si/Al=1,外比表面积可达22 m^(2)·g^(−1),该样品对氨氮的饱和吸附能力高达18.59 mg·g^(–1),去除率可达58%,并通过吸附动力学实验深入探究吸附机理。该综合实验涉及物理化学、材料化学、仪器分析等课程知识,有助于锻炼学生的实验操作能力、培养学生创造性思维,同时为粉煤灰基LTA沸石材料的制备、结构表征及性能评价等方面提供一定的参考。
[Objective]Ammonia nitrogen in wastewater and fly ash is harmful to aquatic life and human health,conflicting with the sustainable development concept of preserving“Lucid waters and lush mountains are invaluable assets”.This study presents the design and synthesis of a fly ash-based zeolite molecular sieve with good ammonia nitrogen adsorption performance,which was applied to the treatment of ammonia nitrogen wastewater.[Methods]This approach embodies the“green chemistry”principle by“treating waste with waste”,thereby promoting the coordinated development of economic and environmental benefits.Fly ash primarily comprises silicon oxide and alumina,which are essential raw materials for zeolite molecular synthesis.Focusing on efficiently treating ammonia nitrogen wastewater,we conducted comprehensive experiments to prepare zeolite from fly ash and assess its performance in removing ammonia nitrogen from water.The methodology included the synthesis of sodium aluminosilicate(NaA)zeolite using fly ash as a raw material,testing its ammonia nitrogen adsorption performance,and analyzing the adsorption mechanism.The optimizations led to the optimum preparation parameters for Zeolite A(LTA),featuring a calcination temperature of 600℃and alkali/oxide(silica and alumina)ratio of 1∶1.2 for fly ash pretreatment,and a Si/Al ratio of 0.50 in the synthesis gel.A series of different products were characterized,using X-ray diffraction,scanning electron microscopy,electron dispersive spectroscopy,nitrogen physisorption,and thermogravimetry to confirm their structure and molecular formula.The NaA zeolite synthesized under the above optimal conditions displayed cubic morphologies with uniform sizes,which increased with the Si/Al ratios.[Results]The Si/Al ratio of the synthesized LTA was 1,and the external specific surface area was found to be up to 22 m^(2)·g^(−1).The saturated adsorption capacity for ammonia nitrogen was also measured to be as high as 18.59 mg·g^(−1),with a removal efficiency of 58%.The adsorptio
作者
汤岑
赵文汝
闻杨
杨怡均
杨凯霞
应美玩
TANG Cen;ZHAO Wenru;WEN Yang;YANG Yijun;YANG Kaixia;YING Meiwan(Pharmaceutical Experimental Teaching Demonstration Center,Zhejiang Normal University,Jinhua 321004,China)
出处
《实验技术与管理》
CAS
北大核心
2024年第7期61-68,共8页
Experimental Technology and Management
关键词
LTA沸石合成
氨氮废水
粉煤灰
吸附机理
综合实验
LTA synthesis
ammonia nitrogen wastewater
fly ash
adsorption mechanism
comprehensive experiment
