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1.
Sorption and desorption of phenanthrene (PHE) onto black carbon (BC) extracted from sediments were studied in the presence of three types of dissolved organic matter (DOM), including L-phenylalanine (L-PH), peptone and citric acid. The nonlinearity of the sorption isotherms increased in the presence of DOM. The presence of L-PH reduced the sorption capacity and desorption hysteresis because of the solubilization of PHE in L-PH solution. Peptone at 50-500 mg/L also led to a decrease in sorption attributed to solubilization, although the sorbed peptone on the BC surface could slightly increase PHE sorption. Unlike L-PH and peptone, citric acid enhanced the sorption capacity and irreversibility of PHE on BC mainly due to the strong sorption of citric acid on the BC surface. Our results may help to understand the different impacts of DOM on the distribution and transport of PAH in the environment. 相似文献
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The objective of this study was to examine the effect of biosurfactant on sorption of phenanthrene (PHE) onto the original or H2O2-treated black loamy soil (typic isohumisols) and red sandy soil (typic ferralisols). The sorption isotherms were performed with the original and "soft" carbon-removed soils in the presence and absence of biosurfactant (200 mg/L). The sorption and degradation of biosurfactant were investigated. The result showed that organic matter played an important role in PHE sorption onto the black loamy and red sandy soils, and the PHE sorption isotherms on the "soft" carbon-removed soils exhibited more nonlinearity than those on the original soils. The values of partition coefficient (Kd) on the original black loamy soil with or without 200 mg/L biosurfactant were 181.6 and 494.5 mL/g, respectively. Correspondingly, in the red sandy soil, Kd was 246.4 and 212.8 mL/g in the presence or absence of biosurfactant, respectively. The changes of Kd suggested that biosurfactant inhibited PHE sorption onto the black loamy soil, but facilitated PHE sorption onto the red sandy soil. The nonlinearity of PHE sorption isotherm was decreased in the presence of biosurfactant. Site specific sorption might occur during PHE sorption onto both the original and the "soft" carbon-removed soils in the presence of biosurfactant. It was noted that biosurfactant could also be sorbed onto soils. The maximal sorption capacity of the red sandy soil for biosurfactant was (76.9 ± 0.007) μg/g, which was 1.31 times that of black loamy soil. Biosurfactant was degraded quickly in the two selected soils, and 92% of biosurfactant were mineralized throughout the incubation experiment for 7 d. It implied that biosurfactant should be added frequently when the remediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils was conducted through PAH desorption approach facilitated by biosurfactant. 相似文献
3.
Contribution of black carbon to nonlinearity of sorption and desorption of acetochlor on sediment 总被引:2,自引:1,他引:1
Jianqiu Liu Yaobin Zhang Hong Chen Yazhi Zhao Xie Quan 《Frontiers of Environmental Science & Engineering in China》2009,3(1):69-74
In order to investigate the contribution of various black carbon (BC) contents to nonlinearity of sorption and desorption
isotherms for acetochlor on sediment, equilibrium sorption and desorption isotherms were determined to measure sorption and
desorption of acetochlor in sediment amended with various amounts of BC. In this paper, two types of BC referred to as BC400
and BC500 were prepared at 400°C and 500°C, respectively. Higher preparation temperature facilitated the formation of micropores
on BC to enhance its sorption capacity. Increase of the BC content obviously increased the sorption amount and reduced the
desorption amount for acetochlor. When the BC500 contents in total organic carbon (TOC) increased from 0 to 60%, Freundlich
sorption coefficient (K
f) increased from 4.07 to 35.74, and desorption hysteresis became gradually obvious.When the content of BC in TOC was lower
than 23%, the sorption isotherm had a significant linear correlation (p = 50.05). In case of desorption, a significant nonlinear change could be observed when the content of BC was up to 13%. Increase
of BC content in the sediment would result in shifting the sorption-desorption isotherms from linearity to nonlinearity, which
indicated that contribution of BC to nonlinear adsorption fraction became gradually remarkable. 相似文献
4.
土壤腐殖酸对毒死蜱的吸附 总被引:1,自引:0,他引:1
采用平衡振荡法进行农药毒死蜱在5种土壤腐殖酸上的吸附试验.结果表明,毒死蜱在不同土壤腐殖酸上的吸附行为表现出一定的差异,并均可Linear方程和Freundlich方程来描述;5种土壤腐殖酸对毒死蜱吸附能力都很强,吸附率均较高(平均值在72.57%~88.21%之间),大小顺序为:紫色潮土HA>黄壤HA>中性紫色土HA>酸性紫色土HA>腐殖土HA,此顺序与腐殖酸腐殖化程度一致;pH=2时,腐殖酸对毒死蜱的吸附能力显著增大;离子强度对毒死蜱的吸附影响不明显;腐殖酸添加量越大,单位质量的腐殖酸吸附量越小. 相似文献
5.
The objective of this study was to examine the effect of biosurfactant on the sorption of phenanthrene (PHE) onto the original or
H2O2-treated black loamy soil (typic isohumisols) and red sandy soil (typic ferralisols). The sorption isotherms were performed with
the original and “soft” carbon-removed soils in the presence and absence of biosurfactant (200 mg/L). The sorption and degradation
of biosurfactant were investigated. The result showed that organic matter played an important role in PHE sorption onto the black
loamy and red sandy soils, and the PHE sorption isotherms on the “soft” carbon-removed soils exhibited more nonlinearity than those
on the original soils. The values of partition coe cient (Kd) on the original black loamy soil with or without 200 mg/L biosurfactant
were 181.6 and 494.5 mL/g, respectively. Correspondingly, in the red sandy soil, Kd was 246.4 and 212.8 mL/g in the presence or
absence of biosurfactant, respectively. The changes of Kd suggested that biosurfactant inhibited PHE sorption onto the black loamy
soil, but facilitated PHE sorption onto the red sandy soil. The nonlinearity of PHE sorption isotherm was decreased in the presence
of biosurfactant. Site specific sorption might occur during PHE sorption onto both the original and the “soft” carbon-removed soils in
the presence of biosurfactant. It was noted that biosurfactant could also be sorbed onto soils. The maximal sorption capacity of the
red sandy soil for biosurfactant was (76.9 0.007) g/g, which was 1.31 times that of black loamy soil. Biosurfactant was degraded
quickly in the two selected soils, and 92% of biosurfactant were mineralized throughout the incubation experiment for 7 d. It implied
that biosurfactant should be added frequently when the remediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils was
conducted through PAH desorption approach facilitated by biosurfactant. 相似文献
6.
土壤胡敏酸对菲的吸附特征研究 总被引:8,自引:2,他引:6
通过模拟实验研究了不同来源的7种土壤样品及从中提取的胡敏酸(HA)对菲的吸附特征,应用元素分析仪和固相核磁共振光谱(CP/MAS^13C-NMR)对7种土壤样品中的胡敏酸进行了表征并计算其芳香度和脂化度.实验结果表明,不同来源土壤对菲吸附的Freundllich吸附系数(Kt)不同,其有机碳标化的分配系数(K IM)也存在一定的差异.另外,由于不同来源土壤中HA的结构和组成差异明显,土壤HA对疏水性有机污染物的吸附规律也表现出不同的特征.土壤中HA对菲吸附过程的有机碳标化的分配系数(K oc)与土壤HA的芳香度具有正相关性. 相似文献
7.
菲在沉积物上的吸附-解吸研究 总被引:15,自引:2,他引:13
采用批量实验的方法,研究了盐度对菲在沉积物上的吸附的影响以及菲的初始浓度、沉积物结构性质改变、盐度对菲解吸的影响,并深入讨论了不可逆吸附的机制.结果表明,提高盐度促进菲的吸附,促进程度与沉积物所含有机质(SOM)有关.由菲吸附增加计算得到的盐常数0.299 L·mol-1高于由菲溶解度降低计算得到的盐常数0.125 L·mol-1.菲的解吸具有不同程度的迟滞性,实验数据用Freundlich方程拟合,解吸迟滞性用热力学指数TII表征.随着菲初始加入浓度增加,TII值先降低后又增加,以淡水中菲的解吸为例,随着菲初始浓度由0.5 mg·L-1增加到2.5 mg·L-1,TII值先由0.80降到0.38又增加到0.55,表明解吸迟滞性呈先下降后增加的趋势.氢氧化钠处理后的沉积物与原沉积物相比解吸迟滞性减弱,TII值由0.55降到0.33,说明对菲的锁定能力变弱.首次报道了盐度对菲解吸的迟滞性影响,结果表明,菲的解吸迟滞性指数TII值由淡水中的0.55减少到盐水中的0.42,说明盐水中菲解吸迟滞性比淡水中弱,解吸迟滞性的变化可以用菲分布到的吸附点位能量高低不同以及菲分子是否能够锁定在吸附剂内部微孔来解释. 相似文献
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IntroductionThesorptionofhydrophobicorganiccontaminants(HOCs)onnaturalgeosorbentsplaysasignificantroleintheirtransport,degradationandultimatefateintheaquaticenvironment (Alexander,1995 ;Luthy ,1997;Weber,2 0 0 1) .Sincethelate 1970s,theorganicmatter(OM)ha… 相似文献
10.
The nonlinear sorption of hydrophobic organic contaminants (HOCs) could be changed to linear sorption by the suppression of coexisting solutes in natural system, resulting in the enhancement of mobility, bioavailability and risks of HOCs in the environment. In previous study, inspired from the competitive adsorption on activated carbon (AC), the displaceable fraction of HOCs sorption to soot by competitor was attributed to the adsorption on elemental carbon fraction of soot (EC-Soot), while the linear and nondisplaceable fraction was attributed to the partition in authigenic organic matter of soot (OM-Soot). In this study, however, we observed that the linear and nondisplaceable fraction of HOC (naphthalene) to a diesel soot (D-Soot) by competitor (phenanthrene or p-nitrophenol) should be attributed to not only the linear partition in OM-Soot, but also the residual linear adsorption on EC-Soot. We also observed that the competition on the surface of soot dominated by external surface was different from that of AC dominated by micropore surface, i.e., complete displacement of HOCs by p-nitrophenol could occur for the micropore surface of AC, but not for the external surface of soot. These observations were obtained through the separation of EC-Soot and OM-Soot from D-Soot with organic-solvent extraction and the sorption comparisons of D-Soot with an AC (ACF300) and a multiwalled carbon nanotube (MWCNT30). The obtained results would give new insights to the sorption mechanisms of HOCs by soot and help to assess their environmental risks. 相似文献
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表面活性剂对苯并[a]芘在黑炭表面吸附解吸的影响 总被引:1,自引:1,他引:0
通过静态吸附实验,研究了3种不同类型的表面活性剂(阳离子∶十六烷基三甲基溴化铵,CTAB;阴离子∶十二烷基苯磺酸钠,SDBS∶非离子,曲拉通100,TX100)对苯并[a]芘(BaP)在黑炭表面吸附解吸的影响.结果表明,3种表面活性剂的存在均会增加BaP在黑炭表面吸附的非线性程度.CTAB的存在可以促进BaP在黑炭表面的吸附同时抑制了BaP的解吸,然而SDBS的存在降低了BaP在黑炭表面的吸附并增加了吸附过程的可逆性.与CTAB和SDBS不同,TX100对BaP在黑炭表面吸附解吸的影响取决于其添加浓度.低浓度的TX100(50 mg.L-1)能够促进BaP在黑炭上的吸附并抑制BaP的解吸,吸附能力参数Kd值(在ce=50μg.L-1下)从188 062 mL.g-1增大到264 179 mL.g-1,解吸滞后指数HI从0.44降低到0.39.随着TX100浓度增加到150 mg.L-1和200 mg.L-1,TX100对BaP的吸附表现出抑制作用并能够促进BaP的解吸,Kd值(在ce=50μg.L-1下)从188 062 mL.g-1分别降低到182 751 mL.g-1和178 730 mL.g-1,解吸滞后指数从0.44分别升高到0.65和0.70.本研究为预测多环芳烃在表面活性剂污染的环境中的分布特征和最终归趋提供了理论依据. 相似文献
14.
水溶性有机碳对菲吸附系数测定的影响 总被引:8,自引:3,他引:5
以菲为代表性化合物,利用摇瓶吸附实验研究土壤水分配体系中溶解态有机碳(DOC)对有机碳归一化吸附系数测定结果的影响.研究结果表明,在吸附系数测定过程中土壤溶出的DOC会导致水相中菲的浓度显著增加,很大程度上改变了菲在土水两相中的分配平衡,从而导致吸附系数的测定误差.根据文献报道的菲与DOC相互作用常数(Kdoc)以及实测体系中DOC浓度可以对实验数据进行校正,以获得更为可靠的结果,本文对线性吸附系数和Freundlich吸附系数分别进行了校正,得到有机碳归一化的吸附系数lgKoc为4.35 ,lgKFoc为7.01.校正前后的lgKoc与文献数据的对比从侧面反映出在水土体系的吸附研究中可能普遍包含因不同浓度DOC影响所造成的偏差,考虑这种影响对于准确比较不同研究得到的吸附参数具有重要意义. 相似文献
15.
土壤中多环芳烃的SPMD辅助解吸行为研究 总被引:2,自引:0,他引:2
为了开发一种表征土壤中憎水性有机污染物解吸及生物有效性的新方法,建立了半透膜被动采样装置(SPMD)研究土壤中有机污染物解吸行为的方法,利用SPMD分析了多环芳烃菲、芘和苯并[a]芘在3种不同性质土壤中的辅助解吸行为.结果表明,SPMD是一种很好地表征土壤中憎水性有机污染物解吸及生物有效性的手段. SPMD辅助解吸多环芳烃的效率与土壤有机质及多环芳烃性质有关.随着土壤有机质含量的降低,土壤中菲和芘的SPMD解吸率逐渐升高,对于10 mg/kg染毒水平,当土壤有机质含量由18.68%降低到0.3%时,2种化合物的解吸率分别由56.45%和48.28%上升到接近100%;但是对于苯并[a]芘,粘土表现出明显的滞留能力,在有机质含量(0.3%)很低、粘土含量(39.05%)较高的3号土壤中,苯并[a]芘的解吸率仅有66.97%.不同多环芳烃SPMD辅助解吸率差别很大,随着土壤有机质含量的降低,以及污染物浓度的提高,菲和芘的解吸差异逐渐缩小,而苯并[a]芘与上述2种多环芳烃的差异很大,主要是由于苯并[a]芘具有高度亲脂性,并且分子较大,造成其容易滞留在粘土的微孔及有机质的致密结构中. 相似文献
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The influence of pH on the sorption of pentachlorophenol (PCP) onto three organic amendments, char, humic acid (HA) and peat, and the effect of organic amendments on PCP sorption to three kinds of soils were evaluated. The sorption of PCP on these sorbents fitted the Freundlich model well, suggesting that PCP sorption isotherms were nonlinear with exponential coefficient (N) value lower than 1. The PCP sorption capacity on three organic amendments and the N values increased with decreasing pH. The sorption capacities were in the order: char > HA > peat. Organic amendments resulted in an enhancement of sorption capacities of soils. The N values of PCP sorption on soils were decreased by char amendment and increased by HA and peat amendments. This study demonstrated that application of traditional organic amendments led to the enhancement of PCP sorption by soils. This information may aid both in predicting environmental fates of hydrophobic ionizable organic compounds and in developing remediation strategies for them. 相似文献
17.
腐殖酸对苯并三唑的吸附动力学及热力学研究 总被引:1,自引:0,他引:1
HA(腐殖酸)是土壤和沉积物中有机质的重要组成部分,能在很大程度上影响有机污染物的环境行为和毒理效应. 采用批量平衡法研究了BT(苯并三唑)在HA上的吸附动力学、等温吸附和吸附热力学等内容,结果表明:拟二级动力学能较好地描述BT在HA上的吸附行为,吸附过程分为快速吸附阶段和慢速吸附阶段,但主要以快速吸附为主;0~40min为快速吸附阶段,吸附总量占平衡吸附量的89.0%以上. 吸附等温线较好地符合Freundlich模型,R2均在0.9996以上. 初始ρ(BT)为300.0mg/L时,温度由288.15K升至308.15K,吸附量从15.70g/kg降至11.58g/kg,减少了26.24%. 此外,ΔH0(吸附焓变)为-30.19kJ/mol,说明吸附过程为放热反应;ΔG0(吉布斯自由能变)小于零,说明反应是自发的. 吸附反应的Ea(活化能)为19.35kJ/mol,表明吸附属于物理吸附. 相似文献
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天然土壤有机质中菲的分配行为 总被引:4,自引:2,他引:2
天然土壤吸附不同初始浓度的菲后,提取胡敏酸组分(包括胡敏酸和富里酸),通过计算得到胡敏素组份所吸附的菲,用以研究菲在2种组份中的动态吸附/分配行为,以及初始浓度的影响,并利用Freundlich式进行拟合.结果表明:天然土壤中菲的吸附/分配过程表现出分阶段特征:从最初的快吸附至48 h左右达到转折点,然后进入慢吸附过程.在快吸附至转折点阶段,胡敏酸组分中菲的吸附比例(吸附量与初始量之比)出现先升后降的波动,可归因于初始时段矿物表面吸附、胡敏素竞争吸附的影响.在慢吸附阶段,胡敏酸中菲的吸附比例变化很小,菲初始浓度的影响也不大;而对于胡敏素组份,低初始浓度条件下菲的吸附比例明显大于高初始浓度条件,并呈现逐步增加的趋势,表明胡敏素组份是慢吸附的主要发生域.模型参数拟合结果显示:胡敏酸、全土、胡敏素吸附的非线性程度依次增加,并随时间逐渐加强.在吸附/分配的动力学过程中,胡敏酸和胡敏素分阶段不同的变化特征反映出土壤有机质组分异质性对非线性吸附行为的影响. 相似文献
20.
极性有机污染物植物吸收行为的研究目前已有较多报道。文章将以小麦幼苗干样为研究对象,以2种氯酚(2,4-二氯酚,DCP;2,4,6-三氯酚,TCP)为吸附质,以菲(PHE)为非极性参照化合物,探讨竞争吸附条件下,可解离有机污染物的植物吸收行为。采用序批平衡实验分别研究了小麦幼苗干样干样对DCP、TCP、PHE单独吸附,及DCP或PHE共存影响下TCP的竞争吸附行为。结果表明,小麦幼苗干样对TCP、DCP和PHE各单组分的吸附呈显著线性相关,分配系数与类脂含量有关;TCP的解离作用使得TCP的类脂标化后植物-水分配系数对数值(logKlip)要小于其辛醇-水分配系数对数值(logKow);DCP或PHE的共存提升了小麦幼苗干样对TCP的吸附能力。TCP的存在不影响小麦幼苗干样对菲的吸附,却能影响其对DCP的吸附。 相似文献