甲基红在壳聚糖上吸附富集的研究

研究了pH、初始浓度、时间及温度对甲基红在壳聚糖上吸附富集的影响。结果表明，pH是影响甲基红吸附富集的重要因素，最佳pH3．4。其动力学行为更好地符合Lagergren准二级反应动力学模型，随着温度增加，平衡吸附量减少。吸附过程的表观活化能（Ea）为7．518kJ／mol。壳聚糖对甲基红的吸附过程较好地符合Freundlich吸附等温方程。计算得到吸附过程的热力学参数△G0、△H0。和△S0分别为-24．88kJ／mol（303K）、-22．15kJ／mol和8．783J／（mol·K），表明壳聚糖对甲基红的吸附是一个自发的放热过程。红外光谱分析得到，壳聚糖吸附甲基红的过程中，壳聚糖分子中存在的大量羟基和氨基发挥了主要作用。     

大孔树脂NKA-II对双酚A的吸附性能

研究了大孔树脂NKA-II对双酚A（BPA）的吸附性能，考察了吸附过程的动力学、热力学及树脂的再生性能。BPA溶液呈弱酸性，不需调节pH可直接进行吸附。BPA在大孔树脂NKA-II上的吸附过程可用准二级动力学方程很好地描述。树脂对BPA的吸附是吸热反应，符合Freundlich等温吸附方程，吸附过程属于可自发进行的物理吸附。BPA的吸附过程中同时存在着溶剂的解吸。大孔树脂NKA-II具有良好的重复使用性能，新树脂的平衡吸附量为10.44 mg/g，再生20次后平衡吸附量仍为10.43 mg/g。     

多级孔ZSM-5分子筛对亚甲基蓝的吸附性能

以多级孔ZSM-5分子筛为吸附剂,吸附水中的亚甲基蓝（MB）,考察了吸附条件对吸附效果的影响,并探讨了吸附的热力学和动力学特征。实验结果表明：在溶液pH为11、分子筛加入量为800 mg/L、吸附温度为303.15 K、吸附时间为60 min、初始MB质量浓度为20 mg/L的条件下,该分子筛对MB的吸附率达97%;溶液pH为5~12时,吸附率均达89%以上,说明该分子筛具有宽的pH适应范围;该分子筛对MB的吸附热力学符合Langmuir和Freundlich方程,293.15~313.15 K的饱和吸附量达50.51~62.11 mg/g,吸附为吸热、自发过程;吸附动力学符合拟二级动力学方程。     

阴离子交换树脂对水杨酸的吸附与解吸性能

研究了714阴离子交换树脂对水中水杨酸的吸附与解吸性能,探讨了吸附的热力学和动力学特性.结果表明,树脂在pH=4～12时,吸附能力最好.等温吸附遵循Freundlich和Langmuir吸附平衡模型,为优惠吸附过程.在298～318K条件下,水杨酸吸附量为100～120mg/g的吸附焓变为-23.4-21.6kJ/mo...     

Optimum Heat Conductance Distribution for Power Optimization of a Regenerated Closed Brayton Cycle

In this paper, the power output of the cycle is taken as objective for performance optimization of an irreversible regenerated closed Brayton cycle coupled to constant-temperature thermal energy reservoirs in the viewpoint of finite time thermodynamics (FTT) or entropy generation minimization (EGM). The analytical formulae about the relations between power output and pressure ratio are derived with the heat resistance losses in the hot- and cold-side heat exchangers and the regenerator, the irreversible compression and expansion losses in the compressor and turbine, and the pressure drop loss in the piping. The maximum power output optimization is performed by searching the optimum heat conductance distribution corresponding to the optimum power output among the hot- and cold-side heat exchangers and the regenerator for the fixed total heat exchanger inventory. The influence of some design parameters, including the temperature ratio of the heat reservoirs, the total heat exchanger inventory, the efficiencies of the compressor and the turbine, and the pressure recovery coefficient, on the optimum heat conductance distribution and the maximum power output are provided. The power plant design with optimization leads to smaller size including the compressor, turbine, and the hot- and cold-side heat exchangers and the regenerator.     

Equilibrium,kinetics and thermodynamics of hexavalent chromium biosorption on pristine and zinc chloride activated Senna siamea seed pods

Hexavalent chromium contamination in water is an issue of huge concern due to its use at a high scale, toxicity and non-biodegradability. Biosorption is a cost effective and unconventional strategy for the elimination of Cr(VI). Here, a novel biosorbent Senna siamea seed pod biomass and its chemically activated form have been investigated for the elimination of hexavalent chromium from aqueous solution. The biosorbent was characterized by using BET, FTIR, FESEM-EDX and TGA techniques. Parameters controlling the biosorption process were optimized as pH 2.0, temperature 30°C, initial Cr(VI) concentration 500?mg/L, biosorbent dose 0.5?g/L. Optimized contact time was 210 and 180 min for pristine biomass and activated carbon, respectively. Langmuir isotherm correlated well with experimental data revealing that the biosorption occurred in monolayer pattern. Maximum biosorption capacity calculated by Langmuir biosorption isotherm was 119.18 and 139.86?mg/g for S. siamea pristine biomass and activated carbon, respectively. Pseudo-second order kinetic model correlated well with experimental data. Thermodynamic studies suggested that the biosorption process occurs in a non-spontaneous, stable and endothermic manner. These interesting findings on Cr(VI) biosorption by S. siamea seed pod biomass and S. siamea zinc chloride activated carbon vouches for its potential application as an unconventional biosorbent.     

环丙沙星在亚高山草甸不同深度土壤上的吸附及其影响因素

兽用抗菌药物环丙沙星(CIP,ciprofloxacin)的大量使用引发了人们的广泛关注.文章研究了CIP在亚高山草甸土剖面土壤上的吸附动力学、吸附热力学和pH、有机质含量、阳离子交换量等因素对吸附的影响,以揭示CIP在亚高山草甸土上的吸附机制,为CIP的生态风险评价提供一定的依据.结果表明,CIP在亚高山草甸土上的吸附过程符合准二级动力学模型,并分为快吸附和慢吸附阶段,快吸附为0—6 h,慢吸附为6—48 h.CIP在供试土壤中的吸附等温线均能被Freundlich方程及线性方程很好的拟合,且|ΔH^θ|小于40 kJ·mol^-1,说明其吸附过程以物理吸附为主.其吸附等温线符合L-型,表明在CIP浓度较低时,草甸土与CIP分子间作用力较强,而浓度增大至一定程度时,溶剂分子与CIP分子间作用力占主导地位,吸附减弱.剖面土壤上CIP的吸附量随温度升高和土壤深度增加下降,这与有机质含量、阳离子交换量、黏粒含量以及pH有关.实验表明,在pH=5时,其吸附量最高.pH值在3—5时,吸附量随pH升高而升高,而在pH>5时,吸附量随pH升高而降低.表明阳离子交换为其吸附机制之一.     

改性长石对磷的吸附热力学和动力学研究

在500℃下对甘肃长石进行2 h煅烧，得到改性长石。通过批平衡实验，研究了改性长石对磷的吸附热力学和动力学性能。结果表明：改性长石对磷的吸附等温线符合Freundlich方程，且温度越高，吸附量越大。同时，在60 min内即可对10 mg/L磷溶液达到吸附平衡，改性长石对磷的吸附动力学符合准二级吸附动力学模型，主要是以化学吸附为主。     

亚甲基蓝在污泥活性炭上的吸附

以剩余污泥为原料,氯化锌为活化剂制备污泥活性炭。研究了初始pH值、吸附温度及离子强度对污泥活性炭吸附亚甲基蓝效果的影响。采用高分辨电子扫描电镜(SEM)和氮吸脱附曲线对污泥活性炭进行了表征。结果表明,随着pH值的升高,吸附量增大,碱性条件下最好。在15～55℃的范围内,亚甲基蓝的吸附量先增加后降低,温度为35℃时吸附量达到最大值。加入氯化钠后的污泥活性炭的吸附能力变弱,但随着离子强度的增大,变弱的强度减少。污泥活性炭以中孔为主和污泥活性炭具有不规则结构,预示着污泥活性炭较高的吸附能力。污泥活性炭对亚甲基蓝的吸附符合Lang-muir等温吸附方程。污泥壳活性炭对亚甲基蓝的吸附符合二级反应动力学方程反应特征。     

阳离子交换膜对Cu2+离子交换的动力学及热力学研究

对阳离子交换膜离子交换Cu2+的动力学及热力学现象进行了研究,结果表明:温度25℃,溶液pH=6时,干膜对Cu2+饱和交换容量为0.506 mmol/g;随Cu2+初始浓度的升高,离子交换速率常数随之增加;随温度升高,离子交换速率常数随之增加;随转速升高,离子交换速率常数随之增加;离子交换过程与一级反应速率方程拟合结果良好;△G0<0,表明离子交换反应能自发进行;△H0m>0,表明的交换反应为吸热反应;△S0>0,表明交换反应是熵变增加的反应。