Fe2O3 particles as superior catalysts for low temperature selective catalytic reduction of NO with NH3

Fe203 particle catalysts were experimentally studied in the low temperature selective catalytic reduction （SCR） of NO with NH3. The effects of reaction temperature, oxygen concentration, [NH3]/[NO] molar ratio and residence time on SCR activity were studied. It was found that Fe203 catalysts had high activity for the SCR of NO with NH3 in a broad temperature range of 150-270℃, and more than 95% NO conversion was obtained at 180℃ when the molar ratio [NH3]/[NO] = 1, the residence time was 0.48 seconds and 02 volume fraction was 3%. In addition, the effect of SO2 on SCR catalytic activity was also investigated at the temperature of 180℃. The results showed that deactivation of the Fe2O3 particles occurred due to the presence of SO2 and the NO conversion decreased from 99.2% to 58% in 240 min, since SO2 gradually decreased the catalytic activity of the catalysts. In addition, X-ray diffraction, Thermogravimetric analysis and Fourier transform infrared spectroscopy were used to characterize the fresh and deactivated Fe2O3 catalysts. The results showed that the deactivation caused by SO2 was due to the formation of metal sulfates and ammonium sulfates on the catalyst surface during the de-NO reaction, which could cause pore plugging and result in suppression of the catalytic activity.     

Adsorption of Cr(Ⅲ) from acidic solutions by crop straw derived biochars

Cr（Ⅲ） adsorption by biochars generated from peanut, soybean, canola and rice straws is investigated with batch methods. Adsorption of Cr（Ⅲ） increased as pH rose from 2.5 to 5.0. Adsorption of Cr（Ⅲ） led to peak position shifts in the FFIR-PAS spectra of the biochars and made zeta potential values less negative, suggesting the formation of surface complexes between Cr^3＋ and functional groups on the biochars. The adsorption capacity of Cr（Ⅲ） followed the order： peanut straw char 〉 soybean straw char 〉 canola straw char 〉 rice straw char, which was consistent with the content of acidic functional groups on the biochars. The increase in Cr^3＋ hydrolysis as the pH rose was one of the main reasons for the increased adsorption of Cr（Ⅲ） by the biochars at higher pH values. Cr（llI） can be adsorbed by the biochars through electrostatic attraction between negative surfaces and Cr^3＋, but the relative contribution of electrostatic adsorption was less than 5%. Therefore, Cr（Ⅲ） was mainly adsorbed by the biochars through specific adsorption. The Langumir and Freundlich equations fitted the adsorption isotherms well and can therefore be used to describe the adsorption behavior of Cr（Ⅲ） by the crop straw biochars. The crop straw biochars have great adsorption capacities for Cr（Ⅲ） under acidic conditions and can be used as adsorbents to remove Cr（Ⅲ） from acidic wastewaters.     

改性聚氨酯载体用于高氨氮废水处理的研究

利用聚丁二酰亚胺对聚氨酯泡沫体进行化学改性处理,研究改性载体固定化微生物处理高氨氮模拟废水的效果。结果表明:当聚氨酯单元与聚丁二酰亚胺单元摩尔比为10∶1时,对泡沫进行改性后聚氨酯泡沫载体亲水性能良好,且具有较高的微生物负载量。改性后泡沫体上具有化学活性的官能团增加,有利于通过载体结合法固定化微生物细胞;,改性后的聚氨酯泡沫体作为微生物固定化载体用于模拟废水处理时,对主要污染指标呈现良好的污染物去除效果。     

不同裂解条件对生物炭稳定性的影响

在300⁵00℃温度下热裂解水稻秸秆、玉米秸秆制备生物炭,并采用红外光谱(FTIR)和元素分析的方法,以生物炭表面官能团和元素组成为主要考察指标,研究了不同裂解温度、不同保留时间对生物炭稳定性的影响。生物炭红外光谱图结果显示,生物质原材料经过裂解炭化过程,原材料分子结构中所含醚键(C-O-C)、羰基(C=O)等基团消失。随着裂解温度升高,生物炭中甲基(-CH3)和亚甲基(-CH2)也逐渐消失,而芳环结构增加,生物炭芳香化程度增强。延长生物炭制备过程中的保留时间亦有相同结果。生物炭元素组成的结果显示,裂解温度升高及保留时间延长均能使生物炭的H/C比下降,同时裂解温度对生物炭H/C的影响更加显著。相比水稻秸秆生物炭,玉米秸秆生物炭的芳环骨架更加明显,芳香化程度更高。     

硝酸改性活性炭特征及其催化臭氧氧化性能

采用硝酸氧化对颗粒活性炭进行改性处理,研究了硝酸改性后活性炭结构和表面化学性质,及其对酸性大红3R的吸附能力和催化臭氧氧化去除效果的影响。结果表明,硝酸改性后,活性炭比表面积减小,微孔孔容减小,中孔孔容增大。活性炭表面以羧基为主的酸性含氧官能团随着硝酸改性浓度提高而显著增加,并对其吸附能力和催化臭氧氧化能力产生显著影响。硝酸改性活性炭吸附能力在碱性条件下由于表面酸性官能团和酸性大红3R之间的静电作用而有所降低;在酸性条件下由于二者的色散作用而增强。表面酸性官能团在碱性条件下参与臭氧分解,产生·OH,增强了硝酸改性活性炭对酸性大红3R的催化臭氧氧化去除效果。     

利用改性粉煤灰处理造纸废水的研究

我国是世界上最大的产煤国和耗煤国,燃煤占了我国能源结构的70％,处置粉煤灰用的储灰场占据了大量的土地同时消耗了大量的水,目前我国粉煤灰的利用率只有30％.随着造纸厂的增多,造纸黑液对水体的污染也日益加重.     

基于ImageJ评价泥炭岩心存储对色相与彩度的影响

利用ImageJ软件对2008年在红原泥炭地开展钻探时的泥炭岩心照片和2009年分样时的岩心照片进行表面色彩分析.对比分析发现,存储以前和存储以后泥炭岩心的表面色彩发生改变,表现在样品存储后基于RGB色彩体系的三元色值和灰度值均有降低(变暗),且各色值变化幅度降低.就各色值在剖面上的变化特征而言,样品存储前和存储后的变...     

非离子表面活性剂对污泥调理脱水效果的影响

现有污泥脱水技术仅使污泥含水率降到80%左右,难以满足日益严格的污泥处置要求.以污泥比阻（SRF）、脱水率为考察指标,比较了两大类非离子型表面活性剂（辛基酚聚氧乙烯醚OPEO型和烷基糖苷APG）对剩余污泥的脱水效果,并对原泥及调理后污泥进行了显微观察.结果表明,非离子表面活性剂可使污泥絮体粒径变小,不规则程度降低,改善了污泥的脱水性能,而且烷基糖苷APG脱水效果优于OPEO型.APG投加量为0.05%干固体时,污泥比阻即可降低到原泥的42%,脱水率可达到93%.以烷基糖苷APG为调理剂进行板框脱水实验,结果表明,当APG投加量为0.05%干固体时,脱水泥饼含水率比原泥脱水泥饼含水率低约10%,脱水率可达到97%.本研究为APG应用于污泥脱水,改善污泥脱水性能提供一些参考.     

Fe/Al改性膨润土对铬酸根的吸附性能研究

利用膨润土原矿提取了粒径小于2μm的膨润土胶体,经过钠质化处理后分别用聚羟基铁和聚羟基铝进行改性,然后用一次平衡法研究了改性膨润土对水体中铬酸根的吸附性能.结果表明,与原矿相比,改性膨润土对铬酸根的吸附量有了不同程度的提高,铁改性膨润土对铬酸根的吸附量大于铝改性者.CrO42-的吸附平衡浓度为0.5 mmol·L-1时,Mt-1(Fe)、Mt-2(Fe)和Mt-3(Al)对铬酸根的吸附量分别为271.0 mmol·kg-1、114.0 mmol·kg-1和16.1 mmol·kg-1.改性膨润土对铬酸根的吸附量随离子强度的增加而增大,随体系pH值的增加而减小.铬酸根在改性膨润土表面的吸附以专性吸附机制为主,静电吸附所占比例很小,一般不超过30%.这些研究结果可为开发新型水处理剂提供理论指导.     

有机化改性海泡石对六六六吸附性能的探讨

分别采用阴阳离子表面活性剂对海泡石进行有机化改性处理,并对改性海泡石进行了吸附六六六实验.结果表明,未经有机化改性的海泡石对六六六各异构体去除能力由小到大依次为:γ-六六六(12.66%)、δ-六六六(12.79%)、α六六六(17.35%)、β-六六六(33.57%).经DOSO3Na有机化改性的海泡石对六六六各异构体的去除能力由小到大依次为:β-六六六、γ δ-六六六、α-六六六.经CTMAB有机化改性的海泡石对六六六各异构体的去除能力由小到大依次为:β-六六六、α-六六六、γ δ-六六六.有机化改性海泡石使体系中β-六六六大幅度增加,可能为有机化海泡石催化α、γ、δ各异构体向β异构体转化.