湿式氧化技术处理炼油厂碱渣废水

考察了湿式氧化法处理运行过程 ,以及相关参数的控制方案。在实现装置出水、废气达标排放的前提下 ,稳定控制装置运行是可以实现的。如后续有酸化除酚工艺和SBR工艺进行再处理 ,则应选用温度 (14 5± 5 )℃ ,压力控制在 0 6～ 0 .7MPa的湿式氧化法     

工业废水的生化耗氧过程Logistic动力学研究

在Monod方程的基础上推导了适用于描述工业废水的生化耗氧过程Logistic动力学模型,比较了Logistic动力学模型和一级动力学模型的区别。测定了废水的BOD5/CODcr,在此基础上对可生化废水的生化耗氧曲线进行分析,利用Logistic动力学模型对生化耗氧过程进行动力学研究,并比较各种不同稀释倍数时的kLog和S0。研究结果表明:随着稀释比的增大,耗氧过程的动力学参数kLog和计量系数S0增大,且S0和废水的BOD5非常接近。     

氢氧同位素交换动力学及其地质意义

氢氧同位素交换动力学是同位素地球化学学科的前沿。它使同位素地球化学的研究由静态向动态、定性向定量、封闭体系向开放体系发展 ;为各种天然地质过程的研究定量提供有关的时间、温度、作用机制、演化途径及地质体的冷却史等重要信息。本文概述了氢氧同位素交换动力学参数、同位素交换动力学模式、在地学研究中的应用及实验测试新技术等。     

再燃脱硝的动力学模拟和组分影响分析

采用Gear算法模拟了再燃脱硝再燃区中化学反应过程，反应的热力学和动力学参数采用GRI3．0,模拟结果和实验结果作比较，说明该模拟可以用于预测再燃脱硝的基本过程。在模拟的基础上讨论了不同再燃燃料及其中的不同组分如HCN、NH3、H2和CO等对脱硝效果的影响。     

Kinetic-spectrophotometric determination of free cyanide by stopped-flow reversed flow injection analysis

A stopped-flow reversed flow injection method for the determination of free cyanide is proposed. Pyridine-barbituric acid mixture is injected in the flow system as reagent to form the colour species with cyanide. The flow is stopped when the reagent zone comes in the flow cell, where absorbance-time data are collected at 580nm wavelength. The linear range of the determination is 0.1 -10μg/ml CN-. The sampling rate is 60h-1 and the relative standard deviation is 1.6% (n=16) at 5.0 μg/ml CN-1 level. With satisfactory results, the proposed method was applied to the determination of free cyanide in wastewater without sample pretreatment.     

含PVA印染废水的生化动力学研究及其应用

通过对含有聚乙烯醇(PVA)印染废水的生化降解动力学的研究,确定表征微生物生长繁殖、自身氧化等的动力学参数,以此作为生化处理工艺设计的重要依据,使之更符合废水的水质特点,从而提高处理效率;同时,通过掌握其处理过程的规律,为工艺管理、运行效果预测,提供比较明确的控制量。     

活性污泥数学模型中进水易降解有机物的测定

ASM系列模型 (ASMs)自推出以来在欧美得到广泛应用。要想利用ASMs对特定污水处理过程进行准确的模拟 ,首先必须得到该过程污水的水质特性参数。介绍了连续式OUR计量法、序批式OUR计量法和絮凝过滤物理化学法等 3种测定ASMs中进水易降解有机物的方法 ,通过分析比较指出了各自的优缺点及适用情况。     

2-Chlorophenol oxidation kinetic by photo-assisted Fenton process

Experimental data are presented to test and validate a kinetic model for the oxidation of 2-chlorophenol wastewater by photo-assisted Fenton process. The data showed that this process had produced good effects under acidic conductions. Up to 90% 2-chlorophenol was removed after 90-minute reaction time with H2O2 of 25% CODCr. in, while in UV/H2O2 system ordy 16.8% 2-chlorophenol was removed after one hour treatment. The optimal pH in this reaction occurred between pH 3.0 and pH 4.0. The reaction kinetics for photo-assisted Fenton process experimented in this research was investigated. Kinetic models were proposed for the treatment of 2-chlorophenol wastewater. The reaction was found to follow the 2nd order. The equations of reaction kinetics are as follows:-d[RH]/dt=KRH[RH][H2O2]0exp(-KH2o2t);-d[CODCr]/dt=KCODCr[CODCr][H2O2]0exp(-K′t).The prediction of the models was found to be in a good agreement with experimental results, thus confimfing the proposed reaction mechanism.     

镧、铈对厌氧颗粒污泥产甲烷的Hormesis效应及其动力学研究

间歇培养条件下研究了单一稀土元素镧(La3 )和铈(Ce3 )在不同浓度水平下对厌氧颗粒污泥活性及其动力学行为的影响.结果表明,La3 和Ce3 对厌氧颗粒污泥比产甲烷活性有促进作用的浓度范围均为0.01～0.1 mg·L-1,促进作用浓度峰值均为0.05mg·L-1,最大促进百分比分别为10.35%和20.79%;La3 和Ce3 对SMA(比甲烷活性)的半抑制浓度分别为5mg·L-1和1000mg·L-1,La3 较易对污泥产生抑制作用.米-门方程可以用来描述厌氧消化过程中甲烷发酵阶段的动力学行为,稀土元素La3 和Ce3 投加至反应系统后,提高了甲烷发酵过程的动力学常数Vmax和半饱和常数Ks.     

Determination and discussion hydraulic retention time in membrane bioreactor system

Based on the microorganism kinetic model, the formula for computing hydraulic retention time in a membrane bioreactor system (MBR) is derived. With considering HRT as an evaluation index a combinational approach was used to discuss factors which have an effect on MBR. As a result, the influencing factors were listed in order from strength to weakness as: maximum specific removal rate K, saturation constant Ks, maintenance coefficient m, maximum specific growth rate ,ua and observed yield coefficient Yobs. Moreover, the formula was simplified, whose parameters were experimentally determined in petrochemical wastewater treatment. The simplified formula is θ= 1.1( 1/β -1)(Kｓ S)/KXo , for oetroehemical wastewater treatment K and Ko eaualed 0.185 and 154.2, resoectively.