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粉煤灰负载壳聚糖去除水中低浓度磷的研究 总被引:1,自引:0,他引:1
磷是富营养化限制因子,同时,中国主要能源是煤,每年会产生大量的粉煤灰废弃物;壳聚糖广泛存在于自然界,在水处理中的应用前景广阔。利用粉煤灰负载壳聚糖处理水中的磷既可以减少水中的污染物质,成本低,耗能少,又可以使固体废物得到有效的利用。实验中,以粉煤灰负载壳聚糖作为吸附剂,对磷酸盐的吸附进行了实验研究。讨论了废水的pH值、吸附平衡时间、吸附剂的投加量和吸附温度等各个因素对磷酸盐去除率的影响。研究表明:在粉煤灰负载壳聚糖的投加量为6 g/L、废水浓度为3 mg/L、吸附温度为30℃、吸附时间为30 min的条件下,P的去除率可达90%左右。 相似文献
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微波酸活化粉煤灰吸附酸性大红染料废水实验研究 总被引:3,自引:0,他引:3
以微波酸活化改性后的粉煤灰为吸附剂,对酸性大红染料废水进行吸附脱色处理,考察了吸附时间、pH值、吸附剂投加量等对吸附脱色效果的影响。在酸性大红染料溶液初始浓度为100 mg/L、pH=5、活化粉煤灰投加量为10 g/L吸附1 h时,活化粉煤灰对酸性大红的脱色效果较好,去除率可达96%。对实验数据进行相关数学模型拟合,结果表明微波酸活化改性后的粉煤灰吸附去除酸性大红的等温吸附平衡符合Langmuir吸附等温式,改性前后的吸附过程动力学符合准二级吸附动力学模型,线性相关系数良好。 相似文献
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采用三维电极体系对十二烷基苯磺酸钠(SDBS)模拟生活污水进行了降解。考察了分别以阳离子表面活性剂、阴离子表面活性剂和非离子表面活性剂改性高岭土为粒子电极的电催化氧化效果,并探讨了实验过程中吸附与电解的协同作用。实验证明阳离子表面活性剂(十六烷基三甲基溴化铵,CTAB)改性时降解效果最好。在CTAB浓度为0.2 g/L,粒子电极投加量为13 g,SDBS浓度为300 mg/L,不调节pH(pH=9),电流密度50 mA/cm2,Na2SO4投加量2 g时,SDBS去除率和COD去除率分别为92.31%和84.41%。同时还用环境扫描电镜和物理吸附仪对CTAB改性前后的高岭土粒子电极进行了结构表征。 相似文献
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以包钢高炉煤气冷凝水处理系统为研究对象,通过静态混凝沉淀试验和吸附试验研究了复合混凝剂与高分子纳米吸附剂对煤气冷凝水处理效果的影响。复合混凝剂与高分子纳米吸附剂的最佳配比及最佳运行参数为:聚合硫酸铁投加量为25mg/L、聚丙烯酰胺投加量为0.15mg/L、pH值为8.5左右、温度为20℃、高分子纳米吸附剂投加量为2ml/L、振荡时间为60min、振荡频率为90r/min;经处理后,出水悬浮物(SS)的去除率为98%以上,浊度去除率为97%以上,Cl-的去除率为80%以上,SO2-4的去除率达30%以上,且出水清澈,达到了工业循环冷却水回用水质的标准。 相似文献
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试验通过制备的污泥基吸附剂A、B、C和市售果壳活性炭分别对磷酸二氢钾、三聚磷酸钠、甘油磷酸钠不同的磷溶液进行吸附除磷,研究吸附时间、吸附剂投加量、吸附溶液pH值以及磷溶液初始浓度对除磷效果的影响。试验结果表明:污泥基吸附剂对磷的去除率随吸附时间的增加而提高,在2h时基本达到吸附平衡;磷去除率随吸附剂投加量的增加而提高,但单位吸附剂的吸附量会降低;磷去除率随着磷溶液浓度的增加而降低,而吸附量随磷溶液浓度的增加而提高;随着污泥基吸附剂含铁量的增加,磷溶液解析pH值也越小;同时在对生活污水吸附除磷试验中发现,污泥基吸附剂A、B、C磷去除率均好于市售果壳活性炭,分别为73.4%、85.2%、93.6%、73.3%。 相似文献
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文章用盐酸对膨润土、高岭土、凹凸棒土及沸石进行了改性研究,对含磷废水的吸附处理结果表明,改性后的实验样品对磷的净化能力明显增强,去除率分别增加膨润土27.45%、沸石19.11%、高岭土39.7%、凹凸棒土11.3%,最大去除率可达到膨润土45.59%、沸石32.84%、高岭土77.45%、凹凸棒土30.9%。膨润土、沸石、高岭土的改性随着酸用量的增加对磷的吸附效果随之增加,凹凸棒土最佳酸用量为3%(体积分数)。处理模拟的废水的结果表明,在改性后的高岭土投加量为0.5 g/25 mL废水时,对磷的去除率达到95.9%,吸附后水中的磷浓度为0.49 mg/L,处理后水中的磷浓度达到废水排放一级标准的要求。四种粘土样品改性前后对磷的吸附特征可以用Langmuir方程和Freundlich方程描述。 相似文献
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Natural and anthropogenic arsenic (As) contamination of water sources pose serious health concerns, especially for small communities in rural areas. This study assessed the applicability of three industrial byproducts (coal fly ash, lignite, and green waste compost) as the low-cost adsorbents for As(V) removal under various field-relevant conditions (dissolved oxygen, As(V)/Fe ratio, solution pH, and presence of competing species). The physico-chemical properties of the adsorbents were characterized by XRD, XRF, FT-IR, and NMR analysis. Batch experiments demonstrated that coal fly ash could provide effective As(V) removal (82.1%-95%) because it contained high content of amorphous iron/aluminium hydroxides for As(V) adsorption and dissolvable calcium minerals for calcium arsenate precipitation. However, the addition of lignite and green waste compost was found unfavourable since they hindered the As(V) removal by 10%-42% possibly due to dissolution of organic matter and ternary arsenate-iron-organic matter complexes. On the other hand, higher concentrations of dissolved iron (comparing As(V)/Fe ratios of 1:1 and 1:10) and dissolved oxygen (comparing 0.2 and 6 mg/L) only marginally enhanced the As(V) removal at pH 6 and 8. Thus, addition of dissolved iron, water aeration, or pH adjustment became unnecessary because coal fly ash was able to provide effective As(V) removal under the natural range of geochemical conditions. Moreover, the presence of low levels of background competing (0.8 or 8 mg/L of humic acid, phosphate, and silicate) imposed little influence on As(V) removal, possibly because the high adsorption capacity of coal fly ash was far from exhaustion. These results suggested that coal fly ash was a potentially promising adsorbent that warranted further investigation. 相似文献
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粉煤灰合成沸石同步脱氨除磷特性的研究 总被引:19,自引:1,他引:18
利用粉煤灰合成沸石,研究其在同步去除氮、磷方面的特性.合成沸石对氨氮和磷酸盐的吸附净化均随时间增加而变化,但均在24h后基本达到平衡.随合成沸石投加量的增加,同步去除污水中氮磷的效果越好,但在投加量为8 g·L-1以上时去除率的增加明显放慢.在pH为7~9时氨氮去除率最高(约60%),超过此pH范围时去除率降低.在pH 7~9范围磷去除率达最低(约为85%),超过此pH范围时去除率增加(最高达到近100%).合成沸石对氨氮的吸附为放热反应,对磷的吸附为吸热反应.不同阳离子饱和的合成沸石对氨氮的吸附顺序依次为:Al>Mg>Ca>Na>Fe,对磷的吸附顺序则为:Al>Fe>Ca>Mg>Na.合成沸石的氨氮吸附机理为阳离子交换作用,对磷的去除除化学沉淀作用外尚有吸附机制. 相似文献
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粉煤灰吸附去除城市景观水体中磷的初步研究 总被引:6,自引:1,他引:6
研究了三种常见的中、低钙粉煤灰的磷吸附特性。研究表明:吸附反应均符合Langmuir方程,吸附容量分别达到20.49、23.15和6.54 mg/g。30min之内均可达到磷吸附平衡,灰水比对磷吸附效果有较大影响。三种粉煤灰对模拟景观水体中磷的去除下限分别为0.02、0.01、0.30mg/L,在此下限以上,随着原水磷浓度的增加,磷的去除率升高,最高可达99.99%;在此下限以下则出现粉煤灰中磷溶出的现象。对城市景观水体的磷吸附实验表明,粉煤灰对总磷(TP)为0.14mg/L、可溶性磷酸盐(DP)为0.02mg/L的轻度富营养化水体中DP没有去除效果。对TP为0.73mg/L、DP为0.40mg/L的重度富营养化水体,DP的去除率分别为77.39%、88.30%和1.98%。实验结果表明,钙含量较高、磷吸附容量大的粉煤灰在处理磷含量相对较高、富营养化较严重的城市景观水体领域有着良好的应用前景。 相似文献
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Liangliang Wei Kun Wang Qingliang Zhao Chunmei Xie Wei Qiu Ting Jia 《环境科学学报(英文版)》2011,23(7):1057-1065
Fly ash was used as a low-cost adsorbent for removing dissolved organic matter (DOM) in secondary effluent. Batch experiments were
conducted under various adsorbent dosages, pH, contact time, temperatures and DOM fractional characteristics. Under the optimum
conditions of fly ash dosage of 15 g/L, temperature of 303 K and contact time of 180 min, a removal of 22.5% of the dissolved
organic carbon (DOC), 23.7% of UV-254, 25.9% of the trihalomethanes precursors in secondary effluent was obtained. The adsorption
of DOM fractions onto fly ash all followed the pseudo second-order kinetic model, and the hydrophilic fraction adsorption by fly
ash also fitted the intraparticle diffusion model quite well. Freundlich and Langmuir models were applicable to the fly ash adsorption
and their constants were evaluated. The maximum adsorption capacities of the adsorptions revealed that fly ash was more effective
in adsorbing hydrophilic fraction than the acidic fractions. Structure changes of the DOM fractions after fly ash adsorption were also
characterized via spectrum analyzing. Those mechanisms presented critical step toward improved efficiencies of fly ash adsorption via
further surface-modification. 相似文献
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文章探讨了直接红染料在粉煤灰上的吸附行为及其机理。结果显示,粉煤灰对直接红染料有较好的去除效果;当NaCl浓度≤12.5 g/L,盐分增加对直接大红的去除率影响不明显,NaCl浓度≥15 g/L,盐分增加,直接大红的去除率有所增大;当十二烷基磺酸钠浓度≤0.5 g/L,直接大红在粉煤灰上的吸附量随表面活性剂浓度上升明显下降,继续增加表面活性剂浓度,影响则不明显。 相似文献