氯化锌活化法制备甘蔗渣活性炭吸附剂

采用氯化锌活化法制备了甘蔗渣活性炭吸附剂,并考察了活化剂氯化锌溶液浓度、活化温度和活化时间对吸附剂吸附性能的影响。实验结果表明,氯化锌活化法制备甘蔗渣活性炭吸附剂的最佳工艺条件为：活化温度800℃、氯化锌溶液质量浓度190g／L、活化时间60min。所得甘蔗渣活性炭吸附剂的得率为30．3％,碘吸附值为1070mg／g,亚甲基蓝吸附值（以0．1g吸附剂吸附的亚甲基蓝体积计）为15．0mL,达到了GB／T13803．2—1999《木质净水用活性炭》一级品标准（碘吸附值1000mg／g,亚甲基蓝吸附值9mL）。     

焦粉活性炭的制备及其应用

用废弃焦粉制备焦粉活性炭，通过正交实验考察了各种因素对焦粉活性炭性能的影响。实验结果表明：在活化时间80min、活化温度900℃、碱炭比（氢氧化钾与废弃焦粉的质量比）4、废弃焦粉粒径小于0．05mm的最佳条件下，制备的焦粉活性炭的亚甲基蓝吸附值为304．8mg／g，产率为35．6％；废弃焦粉的活化是活化剂刻蚀其颗粒形成丰富孔结构的氧化还原反应过程；用最佳条件下制备的焦粉活性炭处理质量浓度为60mg／t．的模拟含Cr^6＋废水，在废水pH为3—4、焦粉活性炭加入量为4g/L、吸附时间为50min的条件下，Cr^6＋去除率达93．2％。     

挥发性有机物的物化性质与活性炭饱和吸附量的相关性研究

采用kc-4．0型颗粒活性炭对甲苯、对二甲苯、乙酸甲酯、乙酸乙酯、乙醇、正丙醇进行吸附实验,研究挥发性有机物的物化性质与活性炭饱和吸附量之间的相关性。实验结果表明,活性炭对乙酸甲酯、乙醇和正丙醇的吸附性能较差,对乙酸乙酯、甲苯和对二甲苯的的吸附性能较好,饱和吸附量最大的是甲苯（达312．92mg／g）,饱和吸附量最小的是乙酸甲酯（为224．93mg／g）。6种挥发性有机物的吸附等温线用Langmuir方程进行拟合,效果良好。挥发性有机物的比蒸发速度、饱和蒸气压和电离势能与活性炭饱和吸附量具有显著的相关性。比蒸发速度越快、饱和蒸气压越高或电离势能越大,活性炭饱和吸附量越小。     

碱改性活性炭对VOCs的吸附性能

选用3种经氢氧化钠改性的活性炭,研究了其对4种代表性VOCs(丁酮、乙酸乙酯、甲苯和四氯化碳)的吸附规律。结果表明:活性炭经碱改性后吸附性能有较大改善,吸附量的大小与其比表面积呈正相关性,而其比表面积多为微孔提供;改性活性炭对有机气体的吸附以物理吸附为主;吸附质的相对分子质量、密度、熔点与其在改性活性炭上的吸附量具有线性相关性,而沸点、饱和蒸气压、分子动力学直径则与吸附量无明显相关性;对于同一吸附剂,170℃再生时的性能最好,130℃次之,210℃最差。     

生物质吸附剂处理活性艳红X-3B废水

采用城市污水处理厂二沉池的剩余活性污泥为原料，以浓度为3mol／L的ZnCl2溶液浸泡污泥，采用水蒸气为活化气和保护气，在600℃下活化污泥3h，制备出性能良好的生物质吸附剂，其碘吸附值为388．95mg／g，比表面积为447．79m^2／g，平均孔径为4．39nm，孔体积为0．31cm^3／g，微孔体积为0．09cm^3/g。实验结果表明，用该生物质吸附剂处理活性艳红X-3B废水，在废水（10mL）中活性艳红X-3B质量浓度为300mg／L、生物质吸附剂加入量为0．20g、吸附时间为30min的条件下，废水脱色率可达99．7％。活性艳红X-3B在生物质吸附剂上的吸附行为遵循Lagergren二级动力学规律，同时也可用一级吸附动力学方程描述。     

污泥活性炭的制备及其对溶液中Cr6+的吸附

以城市污水厂剩余污泥为原料,采用ZnCl2作活化剂,热解制备污泥活性炭。实验结果表明,制备污泥活性炭的最佳条件热解温度为550℃,ZnCl2溶液浓度为3mol／L,ZnCl2溶液体积与污泥质量比（mL／g）为2．5：1,热解时间为25min。用所制备的污泥活性炭吸附溶液中的Cr6＋最佳吸附条件为：吸附时间90min,Cr6＋初始质量浓度50mg／L,污泥活性炭加入量0．2g,溶液pH2,在此条件下,Cr6＋去除率达99．9％。污泥活性炭对溶液中Cr6＋的吸附等温线属于I型,等温吸附方程可用Langmuir模型和Freundlich模型来拟合。     

烃类回收用活性炭吸附性能的计算评价

根据微孔吸附剂的平衡吸附理论,从基本的微孔结构特性参数出发,计算了某些炭样在选定条件下,对几种烷烃蒸气的平衡吸附容量及其他吸附性能,并简要阐明了计算原理。从而为评价、选择烃类回收用的活性炭提供了参考依据。     

用黄姜皂素残渣制备活性炭

以黄姜皂素残渣为原料,用ZnCl2为活化剂制备活性炭,研究了活化温度、活化剂浓度、液固比、活化时间对活性炭吸附性能的影响。在活化温度600℃、活化时间90min、ZnCl2质量分数40％、液固比（质量比）4条件下。制备的活性炭碘吸附值为933mg/g,苯酚吸附值为139mg/g,亚甲基蓝脱色力为150mL/g,性能优于对比的商业颗粒活性炭。     

微波辐照法再生载硫活性炭的研究

用活性炭对低浓度SO2气体进行物理吸附，饱和后用微波辐照解吸。结果显示，载硫活性炭在微波场中升温很快，210s能达到温度最大值；吸附在活性炭上的S02气体在570s以后基本解吸完全；解吸产物SO2气体的体积分数最高可达25％以上；微波功率和载气量对再生后活性炭的质量损耗影响较大，在微波功率为300w和载气量为0．06m^3／h条件下，活性炭的质量损耗约为6．21％。     

有机离子载入-复焙烧失法制备新型净水材料

探索了一种制备介孔复合净水材料的新方法——载入有机离子一复焙烧失法。通过实验得到的最佳工艺参数为：有机载入剂为CTMAB,有机载入剂(质量浓度5g/L)加入量4mL／g,有机离子交换反应时间2h,反应温度40℃,复焙烧失温度230℃,复焙烧失时间1．5h。在最佳工艺条件下制备的净水材料对色度为7400倍、COD为3040mg／L的染料废水的脱色率为98．9％,略优于杏壳活性炭的脱色率(98．2％);COD去除率为91．3％,与杏壳活性炭的COD去除率91．7％相差无几。净水材料的染料吸附量是添加剂升温烧蚀后产品的近85倍,是酸洗刻蚀后产品的近590倍,是原材料的900多倍,其对染料废水的净化能力整体优于杏壳活性炭。     

活性炭吸附黏胶纤维生产废气中的CS2

分别采用静态吸附和柱穿透吸附研究了活性炭对黏胶纤维生产废气中CS₂的吸附性能,考察了温度、水蒸气含量和预吸附H₂S时间对活性炭吸附CS₂效果的影响。实验结果表明：活性炭静态吸附CS₂的吸附等温线可用D-R方程很好地拟合,吸附温度升高,活性炭对CS₂的吸附量降低;Y-N方程能很好地拟合CS₂在活性炭上的柱吸附穿透过程,吸附温度升高,CS₂在活性炭上的吸附穿透时间缩短;进气水蒸气含量增大,吸附穿透时间缩短;预吸附H₂S时间延长,活性炭对CS₂的吸附穿透时间缩短;脱附温度升高,CS₂脱附率和脱附速率均加快。     

Experimental study on flue gas purifying of MSW incineration using in-pipe jet adsorption techniques

This paper presents the experimental research process and results about flue gas purifying of municipal solid wastes (MSW) incineration using in-pipe jet adsorption techniques. MSW incineration was carried out in a fluidized bed test rig, and the flue gas purifying was carried out in an in-pipe jet adsorption test rig. The experimental results are as follows: when the feedstock of activated carbon is 1.6g/Nm(3), the desulfurization efficiency is 83%, the denitrification efficiency is 41%, and the dechlorination efficiency is 27%. The order of purifying effect of the three kinds of adsorbents on acidic gases from MSW incineration is activated carbon>activated bauxite>kaolin. Comparison of adsorption capabilities of the three kinds of adsorbents to heavy metals shows that activated carbon is the best additive to remove Cd, Pb and Cu, kaolin is inferior, and activated bauxite is the worst one. However, activated bauxite is the best additive to remove Hg, and it can remove Cd effectively. PAHs in fly ash are dominated by three-, four-, and five-ringed PAHs, and PAHs in the flue gas mainly include three- and four-ringed PAHs. When the injected quantity of additive is constant, the order of cleaning effect on PAHs is kaolin>activated carbon>activated bauxite. These three kinds of adsorbents have different purifying effects on acidic gases, heavy metals and PAHs in the flue gas from MSW incineration. In general, activated carbon has a better adsorption capability.     

木质素活性炭的制备及其对硝基苯的吸附

利用工业碱木质素分别经KOH及H3PO4活化制备两种木质素活性炭（KAC和PAC）,并用于模拟硝基苯废水的处理。采用SEM和IR等手段对木质素活性炭进行了表征。考察了木质素活性炭加入量、废水pH、吸附时间等因素对硝基苯吸附量的影响。表征结果显示,KAC具有丰富的孔结构,PAC表面含有多种功能基团。实验结果表明： 在吸附温度298 K、初始硝基苯质量浓度250 mg/L、木质素活性炭加入量1.0 g/L、废水pH 3、吸附时间24 h的条件下,KAC及PAC对硝基苯的吸附量分别为237.8 mg/g和211.9 mg/g,去除率分别达到91%和84%; KAC及PAC对硝基苯的吸附过程符合拟二级动力学方程,吸附等温线满足Langmuir等温吸附方程;当解吸剂的V（乙醇）∶V（去离子水）=9时,在PAC和KAC上吸附的硝基苯的解吸率分别达到99%和93%;木质素活性炭重复使用5次后,KAC和PAC对硝基苯的吸附量分别为115.4 mg/g和130.7 mg/g。     

黑索金废水的处理

以球形活性炭为吸附剂，用吸附法处理黑索金（ＲＤＸ）废水，出水能够达到国家排放标准，球形活性炭的动态饱和吸附量为０．１２３－０．１４０ｇ／ｇ，吸附带长为２ｍ。吸附饱和的球形活性炭，可用碱液以复再生。笔者还提出了数学模型，导出了处理实验数据公式，此公式可推广应用于同类吸附实验数据处理。     

Agricultural solid waste for the removal of organics: adsorption of phenol from water and wastewater by palm seed coat activated carbon

Adsorption studies for phenol removal from aqueous solution on activated palm seed coat carbon (PSCC) were carried out under varying experimental conditions of contact time, phenol concentration, adsorbent dose and pH. Adsorption equilibrium was reached within 3 h for phenolic concentrations 10-60 mg l(-1). Kinetics of adsorption obeyed a first order rate equation. The percent removal remained constant over the pH range 4-9 for a phenolic concentration of 25 mg (l-1). The equilibrium data could be described well by the Freundlich isotherm equation. The adsorption of phenol on PSCC follows the film diffusion process. A comparative study with a commercial activated carbon showed that PSCC is two times more effective than commercial activated carbon. The studies showed that the palm seed coat carbon can be used as an efficient adsorbent material for the removal of phenolics from water and wastewater.     

Production and characterization of KOH-activated carbon derived from polychlorinated biphenyl residue generated by the sodium dispersion process

Polychlorinated biphenyl (PCB) residues from the sodium dispersion (SD) process were employed as the raw materials for the production of activated carbon using KOH activation. The pore properties, such as the specific surface area and pore size distribution, were characterized using the Barrett–Joyner–Halenda method and the Horvath–Kawazoe method based on the N₂ adsorption isotherm at 77 K. The activated carbon produced showed similar adsorption capacities and specific surface areas to the commercially available product. The effects of the activation conditions on the porosity of the activated carbon produced were studied. The most significant factor affecting the specific surface proved to be the activation temperature. The activated carbon produced from PCB residues from the high-temperature (423–443 K) SD process had a binary pore size distribution well developed in the 4 nm region and in the micropore region. The pore structure of the carbon produced from PCB residues from the low-temperature (333–393 K) SD process had a wide range of micropores and mesopores.     

硝酸改性活性炭的制备及其对Cr（Ⅵ）

利用硝酸对颗粒活性炭进行改性,处理含铬废水,并考察了吸附时间、溶液pH、吸附剂加入量对改性活性炭吸附Cr（Ⅵ）效果的影响。实验结果表明：经过硝酸氧化改性的活性炭比表面积有所增加,官能团总量增加明显;吸附剂对Cr（Ⅵ）的去除率随振荡时间的增加而增加;对于质量浓度为10mg/L的100mLCr（Ⅵ）溶液,当溶液pH为中性,30%（体积分数）硝酸改性的颗粒活性炭的加入量为0.4g,其对Cr（Ⅵ）的最大去除率为98%。     

Adsorption characteristics of siloxanes in landfill gas by the adsorption equilibrium test

Due to the increase in energy cost by constantly high oil prices and the obligation to reduce greenhouse effect gases, landfill gas is frequently used as an alternative energy source for producing heat and electricity. Most of landfill gas utility facilities, however, are experiencing problems controlling siloxanes from landfill gas as their catalytic oxidizers are becoming fouled by silicon dioxide dust. To evaluate adsorption characteristics of siloxanes, an adsorption equilibrium test was conducted and parameters in the Freundlich and Langmuir isotherms were analyzed. Coconut activated carbon (CA1), coal activated carbon (CA2), impregnated activated carbon (CA3), silicagel (NCA1), and activated alumina (NCA2) were used for the adsorption of the mixed siloxane which contained hexamethyldisiloxane (L2), octamethylcyclotetrasiloxane (D4), and decamethylcyclopentasiloxane (D5). L2 had higher removal efficiency in noncarbon adsorbents compared to carbon adsorbents. The application of Langmuir and Freundlich adsorption isotherm demonstrated that coconut based CA1 and CA3 provided higher adsorption capacity on L2. And CA2 and NCA1 provided higher adsorption capacity on D4 and D5. Based on the experimental results, L2, D4, and D5 were converted by adsorption and desorption in noncarbon adsorbents. Adsorption affinity of siloxane is considered to be affect by the pore size distribution of the adsorbents and by the molecular size of each siloxane.     

利用含铝废盐酸制备聚合氯化铝

以某医药企业产生的含铝废盐酸为原料制备了液体聚合氯化铝(PAC)。确定了适宜的有机物去除方法和碱化剂,考察了碱化剂投加量、废盐酸铝离子含量等合成条件对PAC产品指标的影响,并比较了自制PAC和市售PAC对该企业污水站二沉池出水的混凝效果。实验结果表明:采用活性炭吸附法去除废盐酸中有机物,选择固体Ca O作为碱化剂,在活性炭投加量1‰(w)、吸附时间1 h、铝离子含量9.5%(w,以Al_2O_3计)、CaO投加量80 g/L、反应时间24 h的条件下,制备的液体PAC达到行业标准HG/T 2677—2017《工业聚氯化铝》中的Ⅲ类标准;自制PAC对废水COD和SS的去除率均优于市售PAC,不仅可替代其使用,还可外售产生经济效益。