共查询到18条相似文献,搜索用时 109 毫秒
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研究了以污水厂污泥为原料、微波辐照下磷酸活化法制备污泥活性炭的工艺条件,探讨了微波功率、辐照时间以及磷酸浓度对活性炭碘值的影响.结果表明,微波功率480 W、辐照时间315 s、磷酸浓度40%~45%的条件下,制备的污泥活性炭碘值为301 mg/g,总孔孔容是0.37 mL/g,平均孔径8.8 nm,比表面积168 m2/g.将该污泥活性炭用于处理TNT红水,吸附效果良好. 相似文献
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微波法制备污泥活性炭研究 总被引:4,自引:0,他引:4
采用微波加热法,以污水厂剩余污泥为原料,磷酸为污泥活化剂制备污泥活性炭.微波功率、辐照时间和磷酸浓度对污泥活性炭吸附性能具有显著影响,在最佳工艺条件微波功率480 W、辐照时间315 s和磷酸浓度40%条件下制得的活性炭碘值301 mg/g,比表面积168 m2/g,污泥中重金属绝大部分被固化.与传统商品炭相比,污泥炭孔隙结构以中孔为主.利用该活性炭处理城市生活污水处理厂出水,COD去除率可达87%以上,污泥炭的吸附等温线用Langmuir等温吸附模型进行描述. 相似文献
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为实现工业集中区污水处理厂的脱水污泥(简称工业污泥)的废物资源化,以工业污泥为原料,通过氯化锌浸渍微波辐射法制备污泥炭吸附剂,探讨了制备过程中不同制备条件对污泥炭吸附剂吸附性能的影响,并用于吸附重金属离子铬。实验结果表明,除了微波功率、辐照时间等主要影响因素外,过滤条件、搅拌时间和盛放介质等因素也会影响污泥炭吸附剂的吸附性能,确定了工业污泥炭吸附剂的最佳制备条件是微波功率490 W,辐照时间10.0 min,氯化锌溶液浓度40%,搅拌时间24 h等,并且再生前后活性炭对含铬废水均有较好的处理效果;活性炭的投加量为1.0 g/L,Cr(Ⅵ)初始浓度和振荡速率分别为50 mg/L和100 r/min时,最佳除铬条件为pH、温度和吸附时间分别为2、室温(25℃)和1.0 h,在此条件下,Cr(Ⅵ)的去除率为98.5%,TCr的去除率为86.1%,从而为工业污泥的资源化提供了一条新途径。 相似文献
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微波辐照载甲苯活性炭再生研究 总被引:4,自引:0,他引:4
研究在微波辐照条件下,活性炭量、微波功率、载气量、加热时间等因素对载甲苯活性炭脱附的影响,在正交实验中,各个影响因素的重要性排序为:氮气流量、活性炭量、辐照时间、微波功率,最佳的操作工况为:活性炭量9 g、载气流量300 mL/min、辐照时间120 s、微波功率500W,活性炭的脱附率在99.74%. 相似文献
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以活性炭-微波辐照工艺处理丁腈胶乳生产废水,考察了催化剂的种类及用量、废水初始浓度、废水初始pH值、微波辐照时间和微波功率等对废水COD去除率的影响.结果表明,采用3 g粉末活性炭处理100 mL COD浓度为3500 mg/L左右的丁腈胶乳废水,在微波辐照功率为200 W,辐照时间4 min的条件下,废水COD去除率最高可达96.6%.动力学研究表明,在最佳操作条件下的反应表观过程近似符合一级反应规律,动力学方程为In(C0/C)=0.6034t 0.9247(R=0.9926),反应速率常数k=0.6034 min-1,半衰期t1/2=1.15 min. 相似文献
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响应面法优化甘蔗渣-污泥复合活性炭的制备工艺 总被引:4,自引:0,他引:4
为了提高污泥活性炭的吸附性能以提升其实际应用价值,提出在污泥中掺杂甘蔗渣制备复合活性炭,并采用Plackett-Burman联用响应面法对影响复合活性炭碘值的条件进行筛选优化。通过Plackett-Burman实验筛选出热解温度、热解时间和甘蔗渣与污泥干重比为主要影响因素,对这3个因素进行Box-Behnken实验,经响应面优化得到影响碘值的二次响应曲面模型,模型显示热解温度与热解时间、热解温度与干重比的交互作用显著,并确定了最佳制备条件:热解温度550℃、热解时间30 min和干重比50%,此时复合活性炭碘值为814 mg/g,优于未优化条件下制备的复合活性炭。通过比表面积、孔结构和碘值的测定以及元素和扫描电镜分析得出,甘蔗渣的掺杂提高了复合活性炭的比表面积、微孔体积、碘值及含碳量。研究结果表明,甘蔗渣掺杂和制备条件优化是提高污泥活性炭吸附性能的有效手段。 相似文献
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Optimising the preparation of activated carbon from digested sewage sludge and coconut husk. 总被引:18,自引:0,他引:18
Preparation of activated carbon from sewage sludge is a promising way to dispose of sewage sludge as well as to produce a low-cost adsorbent for pollutant removal. This research work aimed to optimise the condition for activated carbon preparation from anaerobically digested sewage sludge with the additive coconut husk. The sewage sludge sample was mixed with the additive coconut husk. The preparation condition variables investigated involved the concentration of the ZnCl2 solutions, heating temperature, dwell time and heating rate in pyrolysis and the mixing ratio of coconut husk to sewage sludge. Surface area, pore size distribution, aqueous phenol adsorption capacity and the production yield of the final products were determined and compared. Experimental results revealed that low concentrations of ZnCl2 solution tended to improve the microporosity of the final product. Heating temperature had a considerable impact on the surface area, pore size distribution and phenol adsorption capacity of the final products, whereas dwell time and heating rate performed comparatively insignificantly. The effect of increasing the mixing ratio of coconut husk to sewage sludge was principally to increase the microporosity of the final products. The activated carbon with the highest BET surface area was produced with the activation of 5 M ZnCl2 solution and, thereafter, pyrolysis at a heating temperature of 500 degrees C for 2 h with a heating rate of 10 degrees C/min. The mixing ratio of 1:4 in terms of coconut husk to sewage sludge based on their dried weights was found to be most cost effective. 相似文献
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微波辐射Bi_2O_3/沸石-H_2O_2体系降解废水中的硝基苯 总被引:1,自引:0,他引:1
研究了微波辐射下,以负载于沸石上的三氧化二铋为催化剂,以双氧水为氧化剂的催化氧化体系处理硝基苯工艺。通过单因素实验法,从反应催化剂负载量、pH、双氧水用量、微波功率、反应时间、催化剂用量等方面初步考察了硝基苯在该体系中的催化氧化效果。在氧化铋负载量3%(质量比),pH=2,2 mL 30%双氧水,火力为中火,催化剂投加量为0.7 g,反应2 m in,对降解过程所得的中间产物和终产物进行了分析。结果表明,该体系对硝基苯的去除率能够达到99.2%,COD去除率为73.91%。 相似文献
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提出用微波加热-二氧化碳活化法再生乙酸乙烯合成用触媒载体废活性炭工艺.采用条件实验法研究了活化时间、二氧化碳流量和微波功率对活性炭碘吸附值,亚甲基蓝吸附值和再生得率的影响,得到微波辐射加热二氧化碳活化再生乙酸乙烯用触媒载体废活性炭的最佳工艺条件为活化时间25 min,二氧化碳流量0.2 L/min,微波功率700 W.在此条件下制得的活性炭碘吸附值为1158.02 mg/g、亚甲基蓝吸附值为240 mg/g、得率为74.19%.并对活性炭进行了比表面积的测定和孔结构的分析,活性炭的比表面积为1308.13 m2/g,总孔容为0.76 mL/g. 相似文献
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A comparative study of anaerobically digested and undigested sewage sludges in preparation of activated carbons. 总被引:7,自引:0,他引:7
Disposal of sewage sludge is an increasingly expensive and environmentally sensitive problem throughout the world. Preparation of activated carbon from sewage sludge offers an attractive re-use alternative to the traditional disposal routes. The objective of this research work was to compare anaerobically digested sewage sludge (DS) and undigested sewage sludge (US) as source materials in the preparation of activated carbons. Prior to the preparation the properties of the two types of sewage sludges were determined and compared. Subsequently the sludge samples were activated with 5 M ZnCl2 solution and thereafter pyrolysed at heating temperature of 650 degrees C for 2 h with the heating rate of 15 degrees C/min under a nitrogen atmosphere. The produced activated carbons were characterised by surface area and porosity analysis, CHN elemental composition and ash contents determination, and aqueous phase phenol adsorption tests. The results indicate that in comparison with the DS, the US had a higher carbon content and lower ash content, and accordingly yielded a better activated carbon with a higher BET surface area, pore volume, carbon content and phenol adsorption capacity. 相似文献
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污泥活性炭的表征及其对Cr(Ⅵ)的吸附特性 总被引:1,自引:0,他引:1
以城市污水处理厂污泥为原料,采用磷酸活化一微波热解法制备得到污泥活性炭,并将其用于吸附水溶液中的Cr(Ⅵ)。分别采用元素分析仪(VarioELcube)、比表面积孔径分布测定仪(ASAP2020)、扫描电镜(SEM)和傅里叶红外光谱(FT—IR)等仪器对原污泥及污泥活性炭的表面组成和结构进行表征,探讨污泥活性炭的孔隙结构参数和表面化学性能。通过静态吸附实验,考察了溶液初始pH,接触时间,初始Cr(Ⅵ)浓度对污泥活性炭吸附Cr(Ⅵ)效果的影响,并探讨了污泥活性炭去除Cr(Ⅵ)的机理。实验结果表明,pH越低吸附效果越好,吸附平衡时间为100h。不同温度下吸附过程均符合Langmuir等温吸附模型,30℃时最大吸附容量为27.55mg/g;吸附动力学过程符合准二级速率方程(R2〉0.99);污泥活性炭对Cr(Ⅵ)的去除是一个吸附-还原耦合的过程。 相似文献
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Xiuhong Li Fangxia Yang Peiqin Li Xiuping Yang Jialin He Hongzhe Wang 《Journal of the Air & Waste Management Association (1995)》2013,63(11):1297-1305
In this study, activated carbon was prepared from Chinese chestnut burs assisted by microwave irradiation with potassium hydroxide (KOH) as activator, and the process conditions were optimized employing Box-Behnken design (BBD) and response surface methodology (RSM). The optimized variables were irradiation time, impregnation time, and mass ratio of alkali-to-carbon, and the iodine adsorption value was used to evaluate the adsorption property of activated carbon. The optimal preparation conditions were determined as follows: irradiation time 17 min, impregnation time 240 min, and mass ratio of alkali-to-char 1.5:1. Meanwhile, the relatively high iodine adsorption value (1141.4 mg/g) was also obtained. Furthermore, the pore structural characterization of activated carbon was analyzed. The analyzed results showed a larger Brunauer-Emmett-Teller (BET) specific surface area (1254.5 m2/g) and a higher microporosity ratio (87.2%), a bigger total pore volume (0.6565 m3/g), but a smaller average pore size (2.093 nm), which demonstrated the obtained activated carbon possessed strong adsorption capacity and well-developed microporous structure. This research could not only establish the foundation of utilizing chestnut burs to prepare activated carbon, but also provide the basis for exploitation of Chinese chestnut by-products.Implications: Because Chinese chestnut burs are the by-products and usually discarded upon harvesting subsequently, the utilization of chestnut burs as a potential source of activated carbon is of great profit to the chestnut processing industries. 相似文献