复合生物滤池处理H2S和NH3的挂膜与工艺条件

采用复合生物滤池(生物滴滤池 生物过滤池)处理H2S和NH3组成的混合恶臭气体,填料分别为经表面改性的天然斜发沸石和木屑.实验研究了该工艺的驯化挂膜情况和主要工艺条件,结果表明,天然斜发沸石和木屑改性后,驯化挂膜周期为10～14 d,比文献中颗粒活性炭挂膜缩短14～18 d.复合生物滤池的最佳工艺条件为:高度120 cm,循环液流量4.56 L/h.同时,生物滴滤池处理水溶性好的NH3气体效果较生物过滤池好,而生物过滤池处理水溶性差的H2S气体较生物滴滤池好.因此,复合生物滤池可用于处理不同水溶性的混合恶臭气体.     

改性沸石和铁粉的复合材料处理水中六价铬的研究

利用海藻酸盐的凝胶化将零价铁粉固定于改性沸石表面,制得复合材料,以期在保留改性沸石的吸附性的同时增加铁粉的还原性.复合材料的扫描电镜图片可以看出铁粉分散嵌于海藻酸钙薄层,同时海藻酸钙不会阻碍Cr(VI)与改性沸石的接触.实验考察材料去除水中Cr(VI)性能,结果表明:复合材料,改性沸石,铁粉的除Cr(VI)效率分别为:74.1%,38.4%,9.1%,这得益于改性沸石和铁粉相互的协同作用. 对反应后复合材料进行XPS检测,其表面含有Cr3+,Cr6+表明了材料吸附能力同时还具有还原性.并且对Cr(VI)去除的现象能用伪二级吸附动力学方程描述.平衡吸附量qe和反应速率常数k呈相反的变化趋势.铁粉含量为5.4%的材料性能较好:qe为0.96mg/g, k为0.011g/(mg×h);在Cr(VI)浓度为70mg/L时,上述铁含量的复合材料仍具有较高的处理性能,其qe和k分别为 1.29mg/g, 0.0094g/(mg×h).     

Thermodynamic and kinetic studies on Cs+- and Sr2+-exchange in natural zeolite from Akita,Japan

Thermodynamic and kinetic studies on the adsorption of Cs⁺ and Sr²⁺ by Na-exchanged clinoptilolite-rich zeolite rock from Akita (Northern Japan) were performed for the purpose of nuclear waste treatment. The thermodynamic parameters such as selectivity coefficient, thermodynamic equilibrium constant, and standard free energy of exchange were evaluated. These values indicated that the selectivity order was determined as Cs⁺ > Na⁺ > Sr²⁺. In order to discuss the adsorption mechanism of Cs⁺ and Sr²⁺ onto Na-exchanged clinoptilolite, the effective diffusion coefficients were calculated and two kinetic models, pseudo-first-order and pseudo-second-order kinetic model, were tested. For all systems studied, chemisorption seems significant in the rate-controlling step, and the pseudo-second-order kinetic model provided the best correlation of the experimental data.     

斜发沸石对城市污水处理厂二级出水中氨氮的处理效果研究

通过静态实验,研究天然斜发沸石去除城市污水处理二级出水中氨氮的性能。研究结果表明,投加量越大,沸石对废水中氨氮的去除率越高,但是吸附容量越低;沸石对氨氮的去除具有短时间内快速吸附,然后缓慢平衡的特点;粉末状沸石对氨氮的去除效果明显好于颗粒状沸石;pH对氨氮去除率有显著影响,pH值为6时,沸石对氨氮的去除率最高。NaCl和NaOH溶液对沸石的改性具有明显的效果,HCl溶液对沸石的改性作用不明显。     

复合沸石滤料的制备及其性能测试

以活化后的天然斜发沸石为主要原料,添加粘合剂、成孔剂等制备出孔隙率高、比表面积大的球型复合沸石滤料。通过正交实验得到最优工艺组合条件为ω沸石粉∶ω粘合剂∶ω成孔剂=55%∶35%∶10%,活化温度为150℃,活化时间为3 h。制备的成品堆积密度为674 kg/m3,筒压强度为4.32 MPa,显气孔率59.02%。较陶粒相比,该滤料用于曝气生物滤池在挂膜启动与稳定运行阶段,均具有较高的氨氮去除效果,且挂膜微生物量高,更适宜作为曝气生物滤池的载体。     

镇江斜发沸石对氨氮的吸附动力学及热力学研究

采用静态平衡法,开展了镇江斜发沸石对水中氨氮的吸附动力学和热力学研究.结果表明,吸附量随反应温度升高而增加,斜发沸石对氨氮吸附符合Freundlich等温线方程,对氨氮吸附实验数据与准二级动力学模型拟合更好(R2＞0.998),热力学参数吸附焓变△H=18.26 kJ/mol,熵变△S=0.0632 kJ/kmol,对...     

天然斜发沸石对溶液中NH4+的物化作用机理

选择中国浙江缙云天然斜发沸石为试验材料,以摇床试验和离子跟踪监测,研究了斜发沸石对溶质NH4+的物化作用机理.在天然斜发沸石对溶液中NH4+的作用过程中,离子交换作用决定了NH4+的全部转移量,沸石晶体内Na+和Ca2+与溶液中NH4+的交换量占总离子交换量的97%以上.对于粒径1.0~3.2mm的沸石,交换反应前3h时可完成83%的Na+交换量和50%的Ca2+交换量.     

沸石法工业污水氨氮治理技术研究

本文研究了斜发沸石法去除工业污水中氨氮的方法 ,通过沸石对NH+4 的全交换容量、吸附和洗脱工艺条件对去除氨氮效果影响的试验 ,确定了处理氨氮废水的工艺流程和适宜参数。结果表明 ,在废水浓度pH =7的条件下 ,沸石对铵的平均全交换容量达到 12 .96mg/g沸石 ,且交换容量随PH值的增大而降低 ;高速低温有利于吸附 ,低速高温有利于洗脱 ;处理后污水氨氮含量低于 5 0mg/L ,达到了国家排放标准。本研究可为治理氨氮废水技术开发提供了一定的技术依据     

Parameter optimization of the fungicide (Vapam) sorption onto soil modified with clinoptilolite by Taguchi method

This study employs the Taguchi optimization methodology to optimize the effective parameters for the pesticide (Vapam) sorption onto soil modified with natural zeolite (clinoptilolite). The experimental factors and their ranges chosen for determination of the effective parameters were: initial Vapam concentration (0.4–1.6 mg/L), initial pH of the pesticide solution (2–12), the percentage of clinoptilolite in the modified soil (0–6 %), temperature (15–35°C) and shaking time (2–24 h). The orthogonal array (OA) L₁₆ and the bigger the better response category of the Taguchi method were selected to determine the optimum conditions: initial Vapam concentration (1.2 mg/L), initial pH of the pesticide solution (2), the percentage of clinoptilolite in the modified soil (4 %), temperature (15°C) and shaking time (2 h). The results showed that in comparison with other parameters, the initial Vapam concentration was the most effective one for the sorption of this pesticide onto soil, modified with clinoptilolite. Moreover, after determining the optimum levels of the sorption process parameters, confirmation experiments were performed to prove the effectiveness of the Taguchi's experimental design methodology.     

Lead sorption by a Mexican,clinoptilolite-rich tuff

Goal, Scope and Background The retention of lead by a Mexican, clinoptilolite-rich tuff from Oaxaca (Mexico) at different pH values was evaluated and the lead sorption mechanisms on the zeolitic material in this work were discussed. Methods Isotherms were determined using lead nitrate solutions (initial pH values between 2 and 5) at 303 K. After the equilibrium was reached, the content of lead in the liquid phases was determined by atomic absorption spectrometry. The elemental composition of the clinoptilolite-rich tuff before and after the lead sorption process was evaluated by electron microscopy. Results The maximum ion exchange capacity of the Mexican, clinoptilolite-rich tuff for lead was 1.4 meq/g at pH 3, considering an ion exchange mechanism in the absence of any precipitated or hydrolyzed lead species in the sorption process or any change in the zeolite network. Langmuir and Freundlich isotherms were also considered in this work for comparison purposes. Discussion It is important to consider the nature of the sorption processes before choosing a model to describe the interaction between the metal ions and the sorbent. Conclusions The chemical lead speciation, the pH, as well as the characteristics of the clinoptilolite-rich tuff are important factors to be considered on the lead sorption process by natural zeolites. The chemical species involved in that process are Na⁺ from the zeolite and Pb²⁺ from the aqueous solution at pH 2 and 3, so that the ion exchange mechanism explains the lead sorption processes by the clinoptilolite-rich tuff through the ion exchange isotherms. The sodium, Mexican, clinoptilolite-rich tuff is a potential adsorbent for lead from aqueous solutions. Recommendations and Perspectives The natural zeolite-rich tuffs are very important as ion exchangers for the treatment of polluted water due to their sorption properties and low cost. The sorption behavior of each natural material depends on their composition. Mexican, clinoptilolite-rich tuff from Oaxaca (Mexico) could be used for the treatment of waste water contaminated with lead. It would be important to propose this material as an alternative as waste water treatment, because it shows good selectivity for the removal of heavy metals from water.