中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
9期
2217-2222
,共6页
骆其金%谌建宇%王振兴%罗隽%庞志华%林方敏
駱其金%諶建宇%王振興%囉雋%龐誌華%林方敏
락기금%심건우%왕진흥%라준%방지화%림방민
回收酸碱%粉煤灰合成沸石%氨氮
迴收痠堿%粉煤灰閤成沸石%氨氮
회수산감%분매회합성비석%안담
recovery of waste acid and waste alkali%zeolites synthesized from fly ash%ammonium
针对粉煤灰合成沸石合成成本较高及废酸碱外排污染环境的问题,对粉煤灰合成人工沸石工艺中废酸碱回收的可行性及其对合成沸石产品性能的影响进行了试验研究,研究设置3个废酸碱回收利用比例条件(1:1,2:1,3:1),其他合成条件与初始粉煤灰合成沸石完全相同.利用SEM、XRD、BET等技术对合成产品进行表征,结果表明回收酸合成沸石(WAC-ZFA)、回收碱合成沸石(WAL-ZFA)表面存在大量孔隙结构,XRD 图谱也存在尖锐的沸石衍射峰,表征结果与粉煤灰合成沸石(ZFA)相似;在 BET 方面,与 ZFA 相比,WAC-ZFA 有所下降,而WAL-ZFA 明显增大;废碱回收比例对合成沸石除氨的效果影响不大,而废酸回收比例对合成沸石除氨的效果影响较明显,综合考虑,建议在实际生产中废酸回收比例宜≤1:1,废碱回收比例宜≤3:1.
針對粉煤灰閤成沸石閤成成本較高及廢痠堿外排汙染環境的問題,對粉煤灰閤成人工沸石工藝中廢痠堿迴收的可行性及其對閤成沸石產品性能的影響進行瞭試驗研究,研究設置3箇廢痠堿迴收利用比例條件(1:1,2:1,3:1),其他閤成條件與初始粉煤灰閤成沸石完全相同.利用SEM、XRD、BET等技術對閤成產品進行錶徵,結果錶明迴收痠閤成沸石(WAC-ZFA)、迴收堿閤成沸石(WAL-ZFA)錶麵存在大量孔隙結構,XRD 圖譜也存在尖銳的沸石衍射峰,錶徵結果與粉煤灰閤成沸石(ZFA)相似;在 BET 方麵,與 ZFA 相比,WAC-ZFA 有所下降,而WAL-ZFA 明顯增大;廢堿迴收比例對閤成沸石除氨的效果影響不大,而廢痠迴收比例對閤成沸石除氨的效果影響較明顯,綜閤攷慮,建議在實際生產中廢痠迴收比例宜≤1:1,廢堿迴收比例宜≤3:1.
침대분매회합성비석합성성본교고급폐산감외배오염배경적문제,대분매회합성인공비석공예중폐산감회수적가행성급기대합성비석산품성능적영향진행료시험연구,연구설치3개폐산감회수이용비례조건(1:1,2:1,3:1),기타합성조건여초시분매회합성비석완전상동.이용SEM、XRD、BET등기술대합성산품진행표정,결과표명회수산합성비석(WAC-ZFA)、회수감합성비석(WAL-ZFA)표면존재대량공극결구,XRD 도보야존재첨예적비석연사봉,표정결과여분매회합성비석(ZFA)상사;재 BET 방면,여 ZFA 상비,WAC-ZFA 유소하강,이WAL-ZFA 명현증대;폐감회수비례대합성비석제안적효과영향불대,이폐산회수비례대합성비석제안적효과영향교명현,종합고필,건의재실제생산중폐산회수비례의≤1:1,폐감회수비례의≤3:1.
In order to reduce the production cost and control the environmental pollution caused by waste acid and alkali discharge, the process experiments of waste acid and alkali recycling and the relevant impacts on the properties of zeolites synthesized from fly ash were carried out. Under the similar experimental conditions, three recycling ratio 1:1,2:1,3:1were tested The physical-chemical characteristics of products was analyzed through SEM, XRD and BET. The results show that waste acid-zeolites synthesized from fly ash (WAC-ZFA) and waste alkali-zeolites synthesized from fly ash (WAL-ZFA) has the similar physical-chemical properties of zeolites synthesized from fly ash (ZFA), sharp diffraction peaks and a large number of pore structure characterization on the surface observed as well. Compared with ZFA, the BET of WAC-ZFA is slightly lowered, but WAL-ZFA increased obviously. The waste acid&alkali recycling ratio have different effects on the removal of ammonia. Based on these results, the recovery ratio of waste acid and alkali should be less than 1:1and 3:1 respectively.
