应用化学 ›› 2017, Vol. 34 ›› Issue (8): 946-954.DOI: 10.11944/j.issn.1000-0518.2017.08.160474

• 研究论文 • 上一篇    下一篇

太阳光照射浮石负载二氧化钛降解氨氮废水

彭炳先a*(),王小力a,刘锐涵b,周爱红c   

  1. a江西师范大学化学化工学院 南昌 330022
    b江西省永丰县沿陂中学 江西 吉安 331504
    c江西地源排水水质检测有限责任公司 南昌 330025
  • 收稿日期:2016-11-24 接受日期:2017-02-12 出版日期:2017-07-25 发布日期:2017-07-26
  • 通讯作者: 彭炳先
  • 基金资助:
    江西省科技计划项目(20141BBG70008)和江西省自然科学基金(20142BAB203020)资助

Degradation of Ammonia-Nitrogen in Wastewater by TiO2/Pumice Photocatalyst under Solar Light

PENG Bingxiana*(),WANG Xiaolia,LIU Ruihanb,ZHOU Aihongc   

  1. aCollege of Chemistry and Chemical Engineering,Jiangxi Normal University,Nanchang 330022,China
    bYanbei Middle School of Yongfeng County,Ji'an,Jiangxi 331504,China
    cJiangxi Diyuan Drainage and Water Quality Detection Company Limited,Nanchang 330025,China
  • Received:2016-11-24 Accepted:2017-02-12 Published:2017-07-25 Online:2017-07-26
  • Contact: PENG Bingxian
  • Supported by:
    Supported by Scientific and Technological Plan Project of Jiangxi Province(No.20141BBG70008), Natural Science Foundation of Jiangxi Province(No.20142BAB203020)

摘要:

采用溶胶-凝胶法制备了TiO2,并使TiO2负载在浮石上制备TiO2/浮石光催化剂。 用X射线荧光光谱(XRF)、电镜扫子显微描(SEM)和傅里叶红外光谱(FT-IR)表征浮石、TiO2及TiO2/浮石。 在太阳光照射下,用TiO2/浮石处理模拟氨氮废水,以废水中氨氮降解率为标准,考察影响氨氮降解因素。结果表明,TiO2成功固定在浮石表面,负载率为3.71%;废水中氨氮降解率随太阳光照射时间、废水pH值、催化剂TiO2/浮石含量增加而增大。 当初始氨氮浓度为500 mg/L、太阳照射180 min、废水pH=11、催化剂TiO2/浮石剂量为20 g/L时,氨氮降解率达82.0%,氨氮除去率86.8%,降解产物中未发现污染成分NO-2和NO-3产生。催化剂再生/催化3次,每次再生后氨氮降解率约下降10.0%。 该方法快速、简单、低消耗和产生二次污染少,能有效地降解废水中的氨氮。

关键词: 太阳光, 光催化, 二氧化钛/浮石, 降解, 氨氮

Abstract:

Photocatalytic degradation of ammonia-nitrogen in simulated wastewater was investigated by the TiO2/pumice photocatalyst under solar light. TiO2 prepared by the sol-gel method was used as the photocatalyst and immobilized on porous pumice granules. To optimize the photocatalytic reaction, the effect of the initial concentration of ammonia-nitrogen, pH, reaction time and catalyst loading on the ammonia-nitrogen degradation rate were investigated in an aerated reactor. Also, the morphology and chemical structure properties of the prepared catalysts were characterized by scanning electron microscopy(SEM), X-ray fluorescence spectrometer(XRF) and Fourier transform infrared spectroscopy(FT-IR) analyses. The experimental results indicate that the coating ratio of TiO2 on pumice is 3.71%; the ammonia-nitrogen degradation rate is increased by increasing the pH value, time of solar light irradiation and dose of TiO2/pumice. After solar light irradiation for 180 min, a high degradation rate of 82.0% and a removal rate of 86.8% are achieved under 500 mg/L ammonia-nitrogen, pH 11 and 30 g/L TiO2/pumice. Moreover, the NO-2 and NO-3 pollutes are not found in degradation products. The photocatalyst can be reused at least three consecutive times with about 10.0% decrease on the ammonia-nitrogen degradation rate. The results suggest that the photocatalytic purification by photocatalysis is a rapid, low consumed and effective method for the degradation of ammonia-nitrogen in wastewater.

Key words: solar light, photocatalyst, TiO2/pumice, degradation, ammonia-nitrogen