Experimental study on the effect of fly ash content in cemented paste backfill on its anti-sulfate erosion

ABSTRACT

In order to study the effect of fly ash content in cemented paste backfill (CPB) on its anti-sulfate erosion, the apparent phenomenon, strength development, and hydration products change the law of CPB with different fly ash content under long-term soaking of 5% sodium sulfate solution were studied by the macrotest and microanalysis, in addition, the mechanism of CPB anti-sulfate attack was analyzed by combining with a scanning electron microscope (SEM). The results indicated that the effect of sulfate environment on the strength of fly ash cemented paste backfill (FCPB) was mainly determined by the hydration products in the FCPB at different soaking times. In the early soaking stage, the formation of ettringite (AFt) in FCPB could improve its compactness, which was conducive to improving the strength of FCPB. In the late soaking stage, there were ettringite-type erosion damage and gypsum erosion-type damage internal of the FCPB with low content fly ash, resulting in microfracture, cracking of the FCPB, and reducing the strength. CPB with an appropriate content of fly ash could improve the internal structure of the FCPB to achieve the purpose of anti-sulfate erosion.     

溶胶凝胶法制备铜催化剂及其稳定性的研究

介绍了利用溶胶凝胶方法制备铜系催化剂，并考察了制备过程中各个工艺参数对铜系催化剂稳定性的影响。通过优化催化剂的设计和制备方法，可有效地改善Cu^2＋的溶出问题，使该类催化剂具有广阔的应用前景。     

污染治理中的微波诱导催化技术

归纳了微波诱导催化技术在大气羡染控制、水污染控制、固体废弃物处理与处置等污染治理中的应用状况及应用实例，阐述了微波诱导催化技术的基本原理，提出了微波诱导催化技术在实践应用环节中存在的问题及解决措施，展望了微波诱导催化技术在污染治理领域中的应用前景。     

催化湿式氧化法处理吡虫啉农药废水

自制了Cu／Mn，Cu／Ce，Cu／Ni，Ce／Mn，Ce／Ag等催化剂，经过性能比较，选择催化活性较高且金属溶出量较小的Cu／Ni作催化剂。用催化湿式氧化法处理吡虫啉农药废水，考察了各种因素对处理效果的影响。实验结果表明：在进水pH为6．93、Cu／Ni加入量为4．0g、反应温度为190oC、氧分压为1．6MPa、反应时间为120min的条件下，COD去除率为95％；处理后废水的BOD5／COD从0．093增至0．590，可生化性明显改善。     

催化还原SO2为单质硫技术的研究进展

催化还原法脱硫是一种能够直接回收单质硫的烟气脱硫(FGD)技术,近年来倍受关注.尽管催化还原法脱硫技术所采用的催化剂的种类繁多,但是该技术所采用的还原剂的种类却相对较少.以H2、C、CH4、NH3和CO 5种还原剂为分类标准,综述了催化还原SO2为单质硫技术的主要研究成果;讨论了相关催化剂的性质和催化反应机理;分析了不同还原脱硫技术的优缺点.最后,论述了催化还原法脱硫有待解决的关键问题与发展趋势.     

矾土尾矿载体双活性组分甲苯催化燃烧催化性能研究

利用矾土尾矿制备催化剂载体,采用浸渍法将双活性组分氧化物载于催化剂载体,研究甲苯催化燃烧性能.结果表明,当Cu、Mn物质的量比为1∶2、负载量为14％、焙烧温度为500℃、焙烧2h时CuMn/ZrO2整体催化剂催化活性高,起燃温度为210℃,完全燃烧温度为230℃,有效降低了甲苯催化燃烧的起燃温度和完全燃烧温度.     

三相生物流化床处理低C/N污水的亚硝化过程控制研究

将短程硝化与生物流化床相结合,采用低碳氮比的人工合成污水进行启动,考察进水COD、氨氮、DO、p H对硝化和亚硝化过程的影响。研究表明,较短的水力停留时间(HRT)和较少的接种污泥量有利于生物膜的生长,能够成功实现生物流化床的快速启动。高进水氨氮浓度有助于反应器实现亚硝酸盐的积累,但是这种积累并不稳定。当反应器中p H为7.5~8.1,ρ(DO)为1.5~2.5 mg/L时,最大亚硝化率达到75%左右,氨氮去除率达85%以上。出水NO-2-N和NO-3-N浓度随进水COD浓度的增加而减少;当进水COD浓度为50 mg/L时,出水硝酸盐浓度急剧减少,亚硝酸盐浓度有所降低,反应器发生同步硝化反硝化脱氮现象。     

CuSnZr三元催化剂应用于NTP强化催化脱硫过程的特性

为高效地在低温下处理大量低浓度电解铝烟气, 采用浸渍法制备了Sn Zr型金属氧化物并添加Cu作为助剂的催化剂, 并首次测试了它在低温等离子体(NTP)技术上的脱硫效果, 结果表明负载了20wt% Cu老化温度为40℃的催化剂表现出最佳的脱硫性能.并对强化之后的催化剂进行了表征, 与新鲜的催化剂对比, X射线衍射分析(XRD)结果表明放电对催化剂晶型基本不产生影响; 扫描电子显微镜(SEM), 氮吸附和脱吸(BET)表明放电会使催化剂的吸附脱附能力与孔道结构有较大提升; X射线光电子光谱(XPS)也表明放电会使催化剂表面元素价态变化, 从而使其氧化还原性能改变, 反应路径发生偏向; 催化剂性能理论计算表明铜含量的上升会导致催化剂能带结构改变, 更好利用于激发气体.     

An Experimental Study on the Treating River Sewage with New Bioreactor

A new bioreactor on the basis of a dynamic fluidized bed was designed, which combines advantages of the fluidized bed and a biological contactor. The experiments of start up, normal operation and parameter adjustment are carried out. The results show that the bioreactor can be quickly started up in the condition that the fill is 50%, the hydraulic retention time is 72 min, aerate speed is 2.5 m3/h, rotation-cage rotated speed is 1.5 r/min, and the removal rates of chemical oxygen demand （CODcr） and Ammonia nitrogen （NH3-N） are 75.34% and 80.98% respectively. The influence of the operation parameter on removal rates of the bioreactor is analyzed, and an appropriate operation parameter is provided.     

Photodegradation of amoxicillin by catalyzed Fe3+/H2O2 process

Three oxidation processes of UV-Fe³⁺(EDTA)/H₂O₂ (UV: ultraviolet light; EDTA: ethylenediaminetetraacetic acid), UV-Fe³⁺/H₂O₂ and Fe³⁺/H₂O₂ were simultaneously investigated for the degradation of amoxicillin at pH 7.0. The results indicated that, 100% amoxicillin degradation and 81.9% chemical oxygen demand (COD_Cr) removal could be achieved in the UV-Fe³⁺ (EDTA)/H₂O₂ process. The treatment efficiency of amoxicillin and COD_Cr removal were found to decrease to 59.0% and 43.0% in the UV-Fe³⁺/H₂O₂ process; 39.6% and 31.3% in the Fe³⁺/H₂O₂ process. Moreover, the results of biodegradability (biological oxygen demand (BOD₅)/COD_Cr ratio) revealed that the UV-Fe³⁺ (EDTA)/H₂O₂ process was a promising strategy to degrade amoxicillin as the biodegradability of the effluent was improved to 0.45, compared with the cases of UV-Fe³⁺/H₂O₂ (0.25) and Fe³⁺/H₂O₂ (0.10) processes. Therefore, it could be deduced that EDTA and UV light performed synergetic catalytic effect on the Fe³⁺/H₂O₂ process, enhancing the treatment efficiency. The degradation mechanisms were also investigated via UV-Vis spectra, and high performance liquid chromatography-mass spectra. The degradation pathway of amoxicillin was further proposed.