粉煤灰砖块对磷酸盐的吸附特性

以建筑废料粉煤灰砖块为吸附剂材料,通过静态吸附实验研究其对磷酸盐的吸附特征,以及磷酸盐初始浓度、吸附剂投加量、pH等因素对吸附反应的影响。Langmuir、Freundlich和Temkin等温模型的分析发现,Langmuir等温式方程最适合描述吸附过程,对磷酸盐的理论饱和吸附容量为44.62 mg/g。利用伪一级动力学模型、伪二级动力学模型和颗粒内扩散模型考察了吸附过程特征,其中伪二级动力学模型为最适于描述粉煤灰砖块对磷酸盐的吸附过程的动力学模型。通过颗粒内扩散模型、Bangham方程及Boyd模型对吸附动力学机理进行的探讨表明,颗粒内扩散速率不是粉煤灰砖块吸附磷酸盐反应的惟一速率控制步,膜扩散速率和颗粒内扩散速率共同影响着吸附反应速率。磷酸盐浓度较低时主要是膜扩散限制吸附反应速率,而磷酸盐浓度较高时则颗粒内扩散成为速率控制步。研究证明,粉煤灰砖块粉末作为湿地基质具有对磷酸盐很强的吸附能力,在减少了固体废弃物的数量的同时又可以实现水污染控制的目的。     

天然和CPB改性沸石对Hg^2＋的吸附特征

通过静态实验研究溴代十六烷基吡啶（CPB）改性沸石和天然沸石对废水中Hg^2＋的吸附特性，探讨了吸附动力学、吸附平衡和吸附热力学机制。研究表明：Langmuir方程能较好地描述2种沸石对Hg^2＋的吸附，CPB改性沸石对Hg^2＋的吸附率得到显著提高。实验条件下，改性沸石对Hg^2＋的吸附率从67．5％提高到98．9％，吸附容量从0．521mg／g提高到3．07mg／g。利用准一级动力学方程、假二级动力学方程、颗粒内扩散模型和Elovich方程分别对动力学过程进行拟合，发现2种沸石对Hg^2＋的吸附均满足假二级动力学方程，且离子的颗粒内扩散对整个吸附过程有影响。动力学拟合、D-R方程拟合和热力学研究综合表明：2种沸石对Hg^2＋的吸附既存在化学吸附又存在物理吸附，吸附吉布斯自由能变（△G^0）、焓变（△H^0）、熵变（△S^0）均小于0，反应为自发的放热反应，低温有利于吸附的进行。     

葛根去除水溶液中亚甲基蓝的生物吸附机理和特性

对农副产品葛根吸附水溶液中亚甲基蓝的特性和机理进行了一系列的研究。考察了不同条件对吸附效果的影响;采用2种等温线模型和3种动力学模型对吸附机理和动力学特性进行了模拟分析,并计算了相关的热力学函数。结果发现,溶液pH值等实验条件对吸附效果有较大的影响;Langmuir方程能很好地描述其吸附等温线,吸附是一个符合二级动力学过程的物理吸附;热力学函数计算结果显示,此吸附是一个自发的放热过程。在3种不同温度下,由Langmuir方程计算的最大吸附量为98.23、91.04和87.28 mg/g,表明葛根是一种良好的,具有一定发展潜力的染料吸附剂。     

泥炭树脂颗粒对水溶液中十二烷基苯磺酸钠的去除

泥炭树脂颗粒对水溶液中十二烷基苯磺酸钠 (SDBS)具有很好的去除效果。数据分析表明 ,Freundlich和 Langmuir吸附等温方程可以很好地描述这一过程。通过 L angmuir方程计算出颗粒对 SDBS的最大吸附量为 3 3 .3 3 mg·g- 1。在试验条件下 ,吸附量随着 SDBS的初始浓度增加而增加 ,当溶液的初始 p H在 4～ 8的范围时 ,颗粒对 SDBS吸附量变化很小。溶液的初始浓度对吸附速率产生明显影响 ,浓度越低吸附速率越快 ,达到吸附平衡所需的时间越短。准二级动力学模型能够很好地描述颗粒对 SDBS的吸附过程。     

花生壳活性炭对水中荧光素钠的吸附及动力学

H3PO4活化花生壳炭(750℃)为吸附剂,荧光素钠为吸附质.考察了炭化温度、投加量、pH、离子强度、吸附时间以及初始浓度对花生壳活性炭吸附荧光素钠的影响.重点研究了花生壳活性炭对荧光素钠的等温吸附特征,并利用准一级、准二级动力学模型和颗粒内扩散方程对花生壳活性炭吸附荧光素钠的动力学过程进行了分析.结果表明,本实验条件下,Langmuir等温吸附模型能很好地描述花生壳活性炭对荧光素钠的吸附效果,吸附强度因子a为正值,表明吸附过程在本实验条件下可自发进行.通过带入实验数据校对得出准二级动力学方程能更好地描述花生壳活性炭对水中荧光素钠的吸附动力学过程.     

法库沸石对氨氮的吸附特性和阳离子交互过程

以0.9~2 mm和3.3~4 mm粒径沸石的天然法库沸石作为实验材料,开展了等温吸附实验、动力学实验和阳离子影响实验,探讨了天然沸石对氨氮(NH+4-N)的吸附特性及阳离子交互过程。结果表明,法库沸石对NH+4-N等温吸附线符合Langmuir和Freundlich吸附方程,最大吸附量为10.41 mg/g。吸附动力学过程符合准二级和颗粒内经扩散动力学方程,其吸附NH+4过程为物理吸附和化学吸附过程,并以化学吸附为主。对反应过程中各离子浓度监测发现,沸石中与NH+4发生离子交换的主要是Na+、Ca2+和K+,三者占离子交换总量的99%。共存阳离子在沸石吸附NH+4过程中,Ca2+和Mg2+对吸附过程影响最大,Na+影响最小。     

天然和CPB改性沸石对Hg2+的吸附特征

通过静态实验研究溴代十六烷基吡啶(CPB)改性沸石和天然沸石对废水中Hg2+的吸附特性,探讨了吸附动力学、吸附平衡和吸附热力学机制。研究表明:Langmuir方程能较好地描述2种沸石对Hg2+的吸附,CPB改性沸石对Hg2+的吸附率得到显著提高。实验条件下,改性沸石对Hg2+的吸附率从67.5%提高到98.9%,吸附容量从0.521 mg/g提高到3.07 mg/g。利用准一级动力学方程、假二级动力学方程、颗粒内扩散模型和Elovich方程分别对动力学过程进行拟合,发现2种沸石对Hg2+的吸附均满足假二级动力学方程,且离子的颗粒内扩散对整个吸附过程有影响。动力学拟合、D-R方程拟合和热力学研究综合表明:2种沸石对Hg2+的吸附既存在化学吸附又存在物理吸附,吸附吉布斯自由能变(△G0)、焓变(ΔH0)、熵变(ΔS0)均小于0,反应为自发的放热反应,低温有利于吸附的进行。     

磷酸根和硫离子在纳米铁表面的竞争吸附

通过纳米铁对磷酸根和硫离子的单吸附和竞争吸附的研究，从吸附动力学和吸附等温线两个方面分析并验证了其吸附特性和模式。分析表明，相对于磷酸根，纳米铁对硫离子的吸附能力更强，在竞争条件下居优势地位。采用准一级和准二级吸附动力学方程对实验数据进行模拟分析，结果表明，纳米铁对磷酸根和硫离子的吸附符合二级动力学方程。吸附等温线分析采用Freundlich和Langmuir吸附等温线方程模拟分析，分析结果表明，纳米铁颗粒对磷酸根的吸附符合Freundlich吸附模式，而对硫离子的吸附符合Langmuir吸附模式。     

强化活性炭吸附技术深度处理焦化废水的可行性研究

采用混凝沉淀、活性炭吸附以及混凝沉淀 活性炭吸附工艺对焦化厂生化出水进行深度处理.单独混凝沉淀或活性炭吸附均可以将水样中COD降到100 mg/L以下,达到国家污水一级排放标准和冷却用水建议标准.活性炭根据不同的材质和进水而表现出不同的吸附性能,对于焦化厂生化出水,煤质炭Ⅰ和果壳炭均表现出良好的吸附效果,并使出水COD＜100 mg/L,但处理成本较高.混凝沉淀 活性炭吸附工艺充分发挥适合去除大分子污染物的混凝沉淀与适宜去除小分子污染物的活性炭吸附技术两者的协同增效作用,吸附单元采用廉价的煤质炭,使出水水质达到个别生产或生活用水回用标准,并且降低深度处理成本.研究结果表明,混凝沉淀 活性炭吸附作为焦化厂生化出水回用工艺是经济可行的.     

东京根霉对重金属Cr^3＋、Mn^2＋和Zn^2＋的吸附研究

利用固定化发酵中产生的废菌体——东京根霉（Rhizopustonkinesis）去除废水中Cr^3＋、Mn^2＋和Zn^2＋,研究了预处理、pH、温度、金属离子初始浓度、吸附时间等条件对吸附量的影响。结果表明，用NaOH浸泡4—6h、在pH=5—6，温度25-35℃时吸附效果最好，用Langmuir、Freundlich和Temkin方程对其吸附等温线进行拟合，相关性都比较好；用不同的吸附动力学方程描述东京根霉吸附金属离子的最优和最次模型分别为Elovich方程和一级扩散方程，双常数方程和抛物线扩散方程拟合介于前二者之间。     

Chemical absorption process for degradation of VOC gas using heterogeneous gas-liquid photocatalytic oxidation: toluene degradation by photo-Fenton reaction

A novel process for degradation of toluene in the gas-phase using heterogeneous gas-liquid photocatalytic oxidation has been developed. The degradation of toluene gas by photo-Fenton reaction in the liquid-phase has experimentally examined. The photo-Fenton reaction in the liquid-phase could improve the overall toluene absorption rate by increasing the driving force for mass transfer and as a result enhance the removal of toluene in the exhaust gas. The toluene concentrations in the inlet gas were varied in the range from 0.0968 to 8.69gm(-3) with initial hydrogen peroxide concentration of 400mgl(-1) and Fe dose of 5.0mgl(-1). It was found that toluene in the inlet gas was almost completely dissolved into water and degraded in the liquid-phase for the inlet toluene gas concentration of less than 0.42gm(-3). The dynamic process of toluene gas degradation by the photo-Fenton reaction providing information for reaction kinetics and mass transfer rate was examined. Toluene removal kinetic analysis indicated that photo-Fenton degradation was significantly affected by H(2)O(2) concentration. The experimental results were satisfactorily described by the predictions simulated using the simplified tanks-in-series model combined with toluene removal kinetic analysis. The present results showed that the proposed chemical absorption process using the photo-Fenton heterogeneous gas-liquid photocatalytic oxidation is very effective for degradation of volatile organic gases.     

The study of the recovery of highly purified terephthalic acid from alkali weight-reduction wastewater

A new process has been developed for recovering the terephthalic acid (TPA) with high purity from alkali weight-reduction wastewater. Three methods were used to purify the mother liquor: coagulation-sedimentation, carbon adsorption and the combination of these two methods. The results show that the nature of the TPA is greatly improved by coagulation-sedimentation or by carbon adsorption, however, the combination of the two methods is more efficient than either one of them used alone, the purity of recovered TPA can reach 99.3%. This result is important not only in recovering TPA from the wastewater, but also in recycling PET wastes.     

一株抗Cd~（2＋）菌株的筛选及其吸附性能

Cd2＋为一种毒性金属元素,为了实际解决污水中低浓度重金属污染,实现污水达标排放,通过12C6＋重离子束辐照诱变技术筛选到一株耐受Cd2＋的菌株C2,研究其对Cd2＋的抗性和低浓度Cd2＋的吸附性能表明,Cd2＋浓度≤100 mg/L时,C2菌株可以生长繁殖,但随Cd2＋浓度升高受到抑制;SEM分析表明,受到Cd2＋胁迫时,C2产生大量胞外产物与Cd2＋形成络合物;吸附过程中菌粉表面空隙得到填充,形成凸起;红外光谱分析表明,吸附过程中的主要作用基团为醇羟基O—H键、氨基和酰胺基团;C2菌粉和固定化菌球都对Cd2＋有较好的吸附能力,菌粉吸附效果比固定化菌球稍好;菌粉和固定化吸附剂的最佳吸附初始pH值为5~6.0,最佳投加量分别为1.0 g/L和10 g/L（实际含菌量为1.0 g/L）;Cd2＋浓度在2~20mg/L时,在最佳吸附条件下,菌粉和固定化吸附剂对Cd2＋的吸附率均在90%左右;2种吸附剂吸附过程与Langmuir等温模型和拟二级动力学模型拟合最佳;热力学研究表明吸附反应均能自发进行。以上研究结果表明,C2菌粉和固定化吸附剂均可用于污水中低浓度Cd2＋的去除。     

Intra-particle migration of mercury in granular polysulfide-rubber-coated activated carbon (PSR-AC)

The depth profile of mercuric ion after the reaction with polysulfide-rubber-coated activated carbon (PSR-AC) was investigated using micro-X-ray fluorescence (μ-XRF) imaging techniques and mathematical modeling. The μ-XRF results revealed that mercury was concentrated at 0-100 μm from the exterior of the particle after 3 months of treatment with PSR-AC in 10 ppm HgCl₂ aqueous solution. The μ-X-ray absorption near edge spectroscopic (μ-XANES) analyses indicated HgS as a major mercury species, and suggested that the intra-particle mercury transport involved a chemical reaction with PSR polymer. An intra-particle mass transfer model was developed based on either a Langmuir sorption isotherm with liquid phase diffusion (Langmuir model) or a kinetic sorption with surface diffusion (kinetic sorption model). The Langmuir model predicted the general trend of mercury diffusion, although at a slower rate than observed from the μ-XRF map. A kinetic sorption model suggested faster mercury transport, which overestimated the movement of mercuric ions through an exchange reaction between the fast and slow reaction sites. Both μ-XRF and mathematical modeling results suggest mercury removal occurs not only at the outer surface of the PSR-AC particle but also at some interior regions due to a large PSR surface area within an AC particle.     

Use of carbonised beet pulp carbon for removal of Remazol Turquoise Blue-G 133 from aqueous solution

Carbonised beet pulp (BPC) produced from agricultural solid waste by-product in sugar industry was used as adsorbent for the removal of Remazol Turquoise Blue-G 133 (RTB-G 133) dye in this study. The kinetics and equilibrium of sorption process were investigated with respect to pH, temperature and initial dye concentration. Adsorption studies with real textile wastewater were also performed. The results showed that adsorption was a strongly pH-dependent process, and optimum pH was determined as 1.0. The maximum dye adsorption capacity was obtained as 47.0 mg g^?1at the temperature of 25 °C at this pH value. The Freundlich and Langmuir adsorption models were used for describing the adsorption equilibrium data of the dye, and isotherm constants were evaluated depending on sorption temperature. Equilibrium data of RTB-G 133 sorption fitted very well to the Freundlich isotherm. Mass transfer and kinetic models were applied to the experimental data to examine the mechanisms of adsorption and potential rate-controlling steps. It was found that both external mass transfer and intra-particle diffusion played an important role in the adsorption mechanisms of dye and adsorption kinetics followed the pseudo second-order type kinetic model. The thermodynamic analysis indicated that the sorption process was exothermic and spontaneous in nature.     

充气膜吸收技术回收废水中挥发性污染物研究

介绍了充气膜吸收技术的基本原理,讨论了应用该技术分离和回收废水中挥发性污染物的影响因素。研究结果表明,挥发性污染物的传质速率与吸收液的浓度和流量无关;化学吸收真空抽吸和压缩空气吹扫对挥发性污染物具有更高的去除率;挥发性污染物的传质速率与膜性能有关;随着废水中共存其他挥发物比例的增加,所分离和回收的挥发性污染物的传质速率也相应降低。     

Arsenic(III) removal by adsorption on sawdust carbon

Studies on the removal of As(III) by adsorption on sawdust and sawdust carbon have been carried out at room temperature (25 ± 1°C). The adsorption isotherm of As(III) on sawdust carbon was obtained in a batch reactor. The process of uptake follows the first-order adsorption rate expression and obeys the Langmuir and Freundlich model of adsorption. The mass transfer coefficients as a function of initial sorbate concentration have been determined. Parameters such as pH and absorbent dose were studied. Maximum adsorption capacity was observed at pH 7.0.     

改性锰砂对废水中锰的吸附特性研究

通过正交实验,研究pH值、反应时间、锰砂投加量和锰砂改性时间等因素对Mn2+吸附效果的影响。结果表明,在25℃,吸附反应体系pH=9,锰砂投加量为15 g/L,吸附时间为30 min,锰砂的高锰酸钾改性时间为36 h时,改性锰砂对锰的吸附去除率最高,达到了99.99%。四因素的影响顺序为:pH>反应时间>锰砂投加量>锰砂改性时间。在单因素实验中,当pH=7,吸附剂投加量为25 g/L时,经60 min可达吸附平衡,锰的去除率为60.04%,其等温吸附符合Freundlich和Langmuir模型,并且与Langmuir模型的拟合程度更高。本研究还对改性锰砂吸附除锰的机理做了初步探讨。     

Closed-Loop Recovery of Site Remediation Gas Phase Contaminants

A novel gas phase treatment system (contaminant absorption and recovery [CAR]) for removal and subsequent recycling of gas phase VOCs from soil vapor extraction/gas stripping systems has been developed. Gas phase removal efficiencies using a packed column contactor exceed 99 percent The VOC-laden absorption fluid is subsequently vacuum-stripped of the VOCs, allowing potential condensation into liquid solvent concentrates. Partition coefficients for trichloroethylene (TCE) in triethylene glycol (TEG) ranged to ca. 5.0 mole fraction gas/mole fraction liquid, indicating a significant capacity for removal from the gas phase. Results of pilot-scale operation indicate favorable removal efficiencies and cost-effective performance in comparison to GAC or thermal destruction processes. System mass transfer coefficient predictions were done, using a variety of mathematical models and compared to experimental results. A modified Mangers and Ponten correlation was found to describe system mass transfer coefficients well. The impact of water carry-over on TCE/TEG partitioning was found to be significant. The standard change in entholpy (ΔH°) and the standard change in volume (ΔV°) values were also calculated, and predictions of temperature and pressure on system performance were evaluated.     

好氧反硝化去除低浓度NO_x的动力学模型研究

在好氧条件下,对利用生物滴滤塔（bio-trickling filter,BTF）反硝化净化废气中NOx的过程进行了理论模型探讨,并用实验结果进行了验证。在分析NOx在BTF内传质以及生物降解过程的基础上,建立了NOx在气相和生物膜相的质量守恒方程,结合Fick定律和好氧条件下的Monod微生物反应动力学方程,最终得到了NOx在BTF中＂吸附-微生物降解＂过程的动力学方程。模型计算值与实验结果表明,BTF中好氧反硝化过程为一级反应过程,利用该模型可以较好地模拟进口浓度、停留时间等因素对出口浓度的影响,对实际应用具有指导意义。