3种农业废弃物处置水面溢油研究

用小麦秸秆、玉米秸秆和木屑作为吸油材料对0#柴油进行吸附研究,比较3种农业废弃物在纯油、油水样中的吸附性能及漂浮性能,并采用正交实验对影响3种农业废弃物除油率的因素条件进行了优化.结果表明:(1)小麦秸秆、木屑和玉米秸秆对柴油的吸附速率都很快,无论是在纯油中,还是在油水样中,5 min即可达到吸附饱和状态.在纯油中,小麦秸秆饱和吸油量最大,为8.54 g/g;木屑次之,为8.20 g/g;玉米秸秆饱和吸油量最小,为7.03 g/g.在油水样中,小麦秸秆饱和吸油量最大,为8.54 g/g;木屑次之,为8.08 g/g;玉米秸秆饱和吸油量最小,为7.02 g/g.(2)振荡使得小麦秸秆、木屑和玉米秸秆漂浮性能都出现明显下降,它们的漂浮率依次为小麦秸秆＞木屑＞玉米秸秆.(3)在振荡频率为0 r/min、投加量为0.9g、油膜厚度为0.55 mm的条件下,玉米秸秆和木屑粒径为830～1 700 μm、小麦秸秆粒径为500～830 μm时,除油效果最佳.     

改性木屑对海上溢油的吸附

为提高吸油倍率降低吸水倍率,对天然松木屑进行了改性,得到了一种新的除油吸附剂。对该吸附剂的吸油吸水性能进行测定,并确定最佳条件。结果显示:改性木屑吸油效果提升显著,在纯原油中吸油倍率是天然松木屑的2.50倍;吸水倍率降低了80%;漂浮性能好;吸附2 min就能达到吸附平衡,吸附速率是原始松木屑和活性炭的15倍;粒径对改性木屑吸水吸油性能基本无影响;低温和中性条件有利于油的吸附。     

乙酰化小麦秸秆吸附水中六价铬

研究了乙酰化小麦秸秆对水中六价铬的吸附特性。用傅里叶红外光谱(FTIR)对改性前后的小麦秸秆进行表征,通过静态序批实验探究了改性小麦秸秆对六价铬的吸附机理及影响因素。FTIR结果显示,改性后小麦秸秆表面乙酰化程度提高,有酯基产生;改性前后的吸附材料表面零电荷点(p HPZC)分别为2.8与6.3,相比于未改性的小麦秸秆,改性后的p HPZC升高;在温度298 K,溶液p H=1时改性小麦秸秆对六价铬的去除率达到最大值78.83%,并且在酸性条件下改性小麦秸秆均能较好的吸附六价铬;Langmuir等温吸附方程能更好的描述吸附过程,在温度298 K和308 K时,最大吸附量分别为240.213 9 mg·g-1和288.082 3 mg·g-1;吸附为吸热自发过程,遵循准二级动力学方程。     

改性天然生物质材料的吸油性能

为了对木屑这种天然生物质作为吸附材料进行研究,采用碱性双氧水对其进行改性并研究其吸油性能。通过实验,比较了不同改性溶液浓度以及不同改性时间的吸油量,发现经1%H2O2浸泡改性18 h后,改性木屑(HNCS)的吸附能力大大提高,吸油量达9.4 g·g~(-1),而改性前仅为6.47 g·g~(-1),改性使得吸油量提高了45%。同时研究了改性木屑对不同油品的吸油性能的测定,结果显示改性木屑对原油的吸附效果最好。通过扫描电镜(SEM)、热重失重分析以及红外扫描光谱分析研究了改性木屑的物化性能。发现经改性后,木屑的表面更加粗糙,出现了大量的吸附孔隙,且热稳定性提高,表面的亲水基团减少。说明吸油量受到材料内部的孔隙结构,以及表面官能团的影响。     

改性玉米秸秆炭和花生壳炭对溶液中Cd~(2+)的吸附

对玉米秸秆和花生壳炭化制备的生物炭,运用高锰酸钾进行改性,研究其对Cd~(2+)的吸附效果。通过批次吸附实验,考察了两种改性生物炭对Cd~(2+)吸附的初始浓度、pH值、接触时间等因素的影响。结果表明,在pH为6.0,Cd~(2+)浓度为100 mg·L~(-1),温度为20℃,吸附时间为12 h,吸附剂投加量为1.0 g·L~(-1)条件下,改性玉米秸秆炭和花生壳炭对Cd~(2+)的去除率分别为67.03%和46.10%,与未改性的生物炭相比,吸附率分别提高了3.8倍和6.2倍。改性玉米秸秆炭和花生壳炭对溶液中Cd~(2+)的吸附均符合Langmuir和Freundlich等温吸附模型,最大吸附量分别为68.97和55.55 mg·g-1。两种改性生物炭的吸附行为均符合准二级吸附动力学模型,说明其吸附以化学吸附为主。改性玉米秸秆炭和花生壳炭吸附Cd~(2+)后,可用NaOH溶液进行解吸,解吸4次后,对Cd~(2+)仍有较好的吸附效果,吸附量分别为31.40和24.10 mg·g~(-1)。这说明,高锰酸钾改性玉米秸秆炭和花生壳炭是一种吸附性能高且能够重复利用的去除溶液中Cd~(2+)的吸附材料。     

改性玉米芯吸附溶液中的铀

以KMnO4改性玉米芯为吸附剂来吸附溶液中的铀,并与未改性玉米芯的吸附能力进行比较。考察了玉米芯用量、溶液pH值、铀初始质量浓度以及吸附时间等因素对铀吸附效果的影响。实验结果表明,当溶液pH=5.5、改性玉米芯用量为0.12 g、未改性玉米芯用量为0.2 g、铀初始质量浓度为30 mg/L、接触时间为2.5 h时,改性玉米芯对铀的去除率为93.54%,未改性玉米芯对铀的去除率为59.68%,改性玉米芯对铀的吸附效果明显优于未改性玉米芯。     

改性PES膜在MBR中膜阻力分析及膜污染机理研究

以聚醚砜(PES)、醋酸纤维素(CA)和纳米二氧化钛(TiO2)为膜材料,采用L-S相转化法制备共混改性PES膜。在24℃、0.2 MPa的操作条件下,制得的PES膜纯水通量为300 L/(m2.h)左右,CA改性PES膜为660 L/(m2.h)左右,TiO2改性PES膜为840 L/(m2.h)左右。通过膜生物反应器中膜阻力的测定,表明膜污染主要由浓差极化层及凝胶层引起的;通过活性污泥对膜污染机理的研究,判断出污泥的过滤过程基本符合沉积过滤定律。在MBR中运行时,改性PES膜稳定通量高于未改性膜,总阻力低于未改性膜;TiO2改性膜稳定通量高于CA改性膜,总阻力低于CA改性膜;通过扫描电镜分析,改性PES膜沉积层的厚度均比未改性膜薄,TiO2改性膜沉积层厚度小于CA改性膜,表明改性膜的抗污染性能提高了,TiO改性膜抗污染性能更优。     

炭材料调理改善活性污泥脱水性能的影响机制

活性污泥中的胞外聚合物EPS含黏性蛋白类物质并高度亲水,调控污泥中溶解性EPS和溶解性蛋白类物质是改善污泥脱水的有效途径。通过使用不同炭材料调理污泥的方法来观察污泥脱水性能的变化,深入解析污泥絮体及EPS含量和组分的变化特征。结果表明:炭材料调理污泥可以改善其脱水性,且炭材料吸附容量越大对污泥脱水性改善效果越好;不同炭材料对污泥絮体影响效果不同,经过未改性活性炭(AC-0)、HNO3改性活性炭(AC-1)和石墨调理的污泥絮体粒径变大,经酸碱交替改性活性炭(AC-5)调理的污泥絮体粒径变小;炭材料调理后EPS中蛋白类的荧光峰A、B和腐殖酸、富里酸的荧光峰C、D都得到有效降低,且其对腐殖酸和富里酸的吸附效果比蛋白类物质要好,对低分子质量物质和中分子质量物质的吸附效果要好于对大分子质量物质的吸附效果。     

PLA、PPC或PBAT与2次改性小麦秸秆全降解复合材料的力学性能与生态风险

制作复合材料是小麦秸秆资源化利用的有效途径之一。小麦秸秆的改性处理对制成的复合材料力学性能有很大影响,且不同的基体材料与小麦秸秆制成的复合材料性能也有所不同。以聚乳酸(PLA)、聚碳酸亚丙酯(PPC)、聚己二酸(PBAT)为基体材料,分别以改性前或碱处理及偶联剂方法 2次改性后的小麦秸秆纤维为增强材料,采用压缩成型工艺制备了6种全降解复合材料,并对制成的6种复合材料进行了力学性能测试与比对;分析了3种改性后小麦秸秆制成的全降解复合材料的降解性能,并通过种子发芽实验研究了它们的浸提液的潜在生态风险。结果表明,2次改性小麦秸秆与基体材料制成的复合材料,其力学性能较原始秸秆与基体材料制成的复合材料有明显的增强,其拉伸、弯曲、冲击强度均有20%~50%的提升。3种可降解材料降解率由大到小的顺序为:PLA全降解复合材料PBAT全降解复合材料PPC全降解复合材料。质量分数1%的3种全降解复合材料浸提液对种子发芽过程基本不造成影响。     

Mn改性活性炭吸附VOCs性能

采用浸渍焙烧法对活性炭进行负载锰(Mn)改性,考察改性活性炭对甲苯、乙酸乙酯及甲苯-乙酸乙酯二元混合气体的吸附性能.研究表明,活性炭浸渍于1.0％高锰酸钾溶液改性后的吸附性能最好.对于单组分VOCs气体,改性后活性炭对甲苯和乙酸乙酯的吸附量较未改性前分别提高了12.7％和16.3％;对于二元混合VOCs气体,改性后活性炭对甲苯及乙酸乙酯的吸附量分别提高了13.1％和22.9％.BET、SEM、FTIR等分析表明,Mn改性活性炭比表面积变大和总孔容增加是改性后吸附量提高的主要原因.     

木屑处置漏油事故的室内模拟

用锯木屑作为吸附材料，0#柴油为吸附对象进行室内模拟实验，研究了木屑对纯油、水中浮油的吸附以及吸油后的木屑在水中的漂浮性能；并以木屑粒径、木屑投加量、振荡频率、油膜厚度为研究指标，设计了5因素4水平的正交实验，考察了各因素对0#柴油的吸附量、去除率以及木屑漂浮率的影响并对优化条件进行了讨论。结果表明，在实验研究范围内，木屑对水中柴油的吸附速度极快，1min即可达到饱和，饱和吸附量为8．08g／g；木屑在水中漂浮性能良好，静态时经72h漂浮，漂浮率维持在92％左右；振荡频率为150r／min时，72h内漂浮率维持在68％以上；最佳吸油条件组合为吸附剂粒径10～20目，振荡频率120r／min，木屑投加量0．7g，油膜厚度1．65mm。     

Use of biomass sorbents for oil removal from gas station runoff

The use of biomass sorbents, which are less expensive and more biodegradable than synthetic sorbents, for oil removal from gas station runoff was investigated. A bench-scale flume experiment was conducted to evaluate the oil removal and retention capabilities of the biomass sorbents which included kapok fiber, cattail fiber, Salvinia sp., wood chip, rice husk, coconut husk, and bagasse. Polyester fiber, a commercial synthetic sorbent, was also experimented for comparison purpose. Oil sorption and desorption tests were performed at a water flow rate of 20 lmin-1. In the oil sorption tests, a 50 mgl(-1) of used engine oil-water mixture was synthesized to simulate the gas station runoff. The mass of oil sorbed for all sorbents, except coconut husk and bagasse, was greater than 70%. Cattail fiber and polyester fiber were the sorbents that provided the least average effluent oil concentrations. Oil selectivity (hydrophobic properties) and physical characteristics of the sorbents are the two main factors that influence the oil sorption capability. The used sorbents from the sorption tests were employed in the desorption tests. Results indicated that oil leached out of all the sorbents tested. Polyester fiber released the highest amount of oil, approximately 4% (mass basis) of the oil sorbed.     

Evaluation of kapok (Ceiba pentandra (L.) Gaertn.) as a natural hollow hydrophobic-oleophilic fibrous sorbent for oil spill cleanup

Oil sorption capacity and hydrophobic-oleophilic characteristics of an agricultural product, kapok (Ceiba pentandra), was thoroughly examined. The kapok fiber has a hollow structure with large lumen. Its performance was compared with that of a polypropylene (PP), a widely used commercial oil sorbent for oil spill cleanup. The oils investigated were diesel, hydraulic oil (AWS46), and engine oil (HD40). Reusability of the kapok after application to various oils was also evaluated. Both loose (at its natural state) and densely packed kapok assemblies were examined. Sorption capacities of the packed kapok assemblies were very much dependent on their packing densities. At 0.02gcm(-3), its oil sorption capacities were 36, 43 and 45gg(-1) for diesel, ASW46 and HD40, respectively. The values decreased to 7.9, 8.1 and 8.6gg(-1) at 0.09gcm(-3). Its sorption capacities for the three oils were significantly higher than those of PP. When the oil-saturated kapok assemblies were allowed to drain, they exhibited high oil retention ability, with less than 8% of the absorbed diesel and HD40, and 12% of the absorbed AWS46 lost even after 1h of dripping. When applied on oil-over-water baths, the kapok exhibited high selectivity for the oils over the water; almost all oils spilled could be removed with the kapok, leaving an invisible oil slick on water. After the 4th cycle of reuse, the reused kapok assembly only lost 30% of its virgin sorption capacity if packed at 0.02gcm(-3), and the loss in sorption capacity was much less at higher packing densities. The hydrophobic-oleophilic characteristics of the kapok fiber could be attributed to its waxy surface, while its large lumen contributed to its excellent oil absorbency and retention capacity.     

不同调理剂对微生物降解餐厨垃圾的影响

为了探索不同调理剂对微生物降解餐厨垃圾效果的影响,本实验选取了木屑(桦木)、米糠、泥炭、花生壳、稻壳等材料分别作为主要调理剂,以餐厨垃圾的重量减量率作为评价降解效果指标,测定实验过程中的温度、含水率、pH值、微生物生物量及重量的变化。实验结果表明,影响餐厨垃圾降解效果主要因素有温度和含水率;以木屑和米糠为主要调理剂的保温性能最优,其余材料热量散失较快;以50%木屑处理的调理剂含水率适宜,能达到最适含水率要求(50%);同时,以50%木屑(桦木)为主要调理剂处理的减量率最高。     

多配位基螯合离子交换纤维的研究及其进展

离子交换纤锥作为具有高吸附佐的吸附材料，在金属离子的分离、富集、回收等方面，以及在水净处理净化处理领域得到了迅速的发展及应用，引起了人们的极大兴趣。本文对近十几年来离子交换纤维的合成方法路线、性能研究以及在痕量元素的分离、富集和水处理方面的应用进行了综述，并对目前离子交换纤维的研究中存在的问题提出了一些看法。     

Removal of two cationic dyes from a textile effluent by filtration-adsorption on wood sawdust

BACKGROUND: Wastewater from textile industry contains various contaminants such as dyes, surfactants and heavy metals. Textile dyes have synthetic origin and complex aromatic molecular structures that make them difficult to biodegrade when discharged in the ecosystem. The objective of this study was to examine the decolourisation of textile effluents containing cationic dyes by filtration-adsorption on wood sawdust from two different origins; fir as an example of a conifer tree, and beech as an example of a deciduous one, and to explain the adsorption mechanism. METHODS: The process of dye removal was applied to a synthetic effluent in batch mode. Adsorption experiments were performed by suspending sawdust in the effluent and analyzing the supernatant by spectrophotometry. The effectiveness of the treatment process was evaluated by measuring coloration. RESULTS AND DISCUSSION: Experimental results showed a significant potential for wood sawdust, especially coniferous sawdust, to remove cationic dyes from textile effluents. Adsorption kinetics was influenced by the initial dye concentration, nature and amount of sorbent as well as sorbent particle size. The adsorption followed a pseudo first-order kinetics. For both basic dyes, the Langmuir adsorption equation showed a better fit than the Freundlich equation. CONCLUSION: Filtration-adsorption using an inexpensive and readily available biosorbent provided an attractive alternative treatment for dye removal, and it does not generate any secondary pollution. Recommendations and Perspectives. Laboratory studies provide promising perspectives for the utilization of wood sawdust as renewable adsorbent for reducing pollution while enhancing the reuse of textile effluents. However, the treatment process needs to be applied to the other textile dye classes in order to be used on an industrial scale.     

Removal of sulfamethoxazole from solution by raw and chemically treated walnut shells

Purpose

The sorption of sulfamethoxazole, a frequently detected pharmaceutical compound in the environment, onto walnut shells was evaluated.

Methods

The sorption proprieties of the raw sorbent were chemically modified and two additional samples were obtained, respectively HCl and NaOH treated. Scanning electron microscopy, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, and thermogravimetric (TG/DTG) techniques were applied to investigate the effect of the chemical treatments on the shell surface morphology and chemistry. Sorption experiments to investigate the pH effect on the process were carried out between pH?2 and 8.

Results

The chemical treatment did not substantially alter the structure of the sorbent (physical and textural characteristics) but modified the surface chemistry of the sorbent (acid?Cbase properties, point of zero charge??pH_pzc). The solution pH influences both the sorbent??s surface charge and sulfamethoxazole speciation. The best removal efficiencies were obtained for lower pH values where the neutral and cationic sulfamethoxazole forms are present in the solution. Langmuir and Freundlich isotherms were applied to the experimental adsorption data for sulfamethoxazole sorption at pH?2, 4, and 7 onto raw walnut shell. No statistical difference was found between the two models except for the pH?2 experimental data to which the Freundlich model fitted better.

Conclusion

Sorption of sulfamethoxazole was found to be highly pH dependent in the entire pH range studied and for both raw and treated sorbent.     

Treatment of oil spill by sorption technique using fatty acid grafted sawdust

Treatment of oil spills remains a challenge to environmental scientists and technologists. Among all the existing techniques used for oil treatment, sorption is a popular technique because it is cheap, simple and effective. Among the various sorbents used, sawdust appears to be the most attractive material in terms of cost, versatility and abundance. In the present work, the efficacy of surface modification of sawdust by fatty acids (oleic acid, stearic acid and decanoic acid) and vegetable oils (castor oil or mustard oil) is demonstrated. Sorption of seawater contaminated with crude oil and also weathered oil was greatly enhanced by the surface modification. The results show that oleic acid grafted sawdust (OGSD) has the best sorption capacity for crude oil as well as weathered oil.     

泥炭对甲苯的吸附-解吸行为研究

用热处理方法对泥炭进行活化改性,探讨了对甲苯的吸附性能及影响因素,并研究了甲苯在泥炭上的吸附/解吸行为。结果表明,粒径在0.6～1 mm之间的泥炭在160℃热处理5 h,在pH为7的条件下对甲苯有良好的吸附效果,对甲苯的吸附量为0.32 mg/g。泥炭对甲苯的吸附在20 min内基本达到平衡,可用二级吸附速率方程进行拟合。甲苯在泥炭上的吸附和解吸均呈现明显的非线性,用Langmuir模型能较好地描述,泥炭对甲苯的饱和吸附量为0.939 mg/g。甲苯在泥炭上的平均解吸率为6.393%,并且出现了滞后现象,表明苯系物与泥炭有较强的结合能力。研究结果为应用泥炭作为PRB装填介质进行原位修复甲苯污染的地下水提供了理论依据。     

Application of Fenton’s reagent combined with sawdust on the dewaterability of oily sludge

Fenton’s reagent and sawdust were used on the dewaterability of the raw oily sludge in this study. The result shows that the combination of the two treatment processes is favorable, although the application of Fenton’s reagent only is not so good. The capillary suction time (CST) and specific resistance to filtration (SRF) were used to evaluate the effect of dewaterability of the raw oily sludge, and the CST and SRF values are reduced from 1,760 s and 13.8?×?10¹² m/kg to 185 s and 1.5?×?10¹² m/kg, respectively. The dry matter contents of sludge cakes and properties of the supernatant all gained when using only the Fenton’s reagent and when using the combined treatment with Fenton’s reagent and sawdust respectively were investigated. The results indicate that the oily sludge is more suitable for further treatment after combined process with Fenton’s reagent and sawdust.