味精浓废水生物处理优化工艺

本文阐述两相厌氧消化法与缺氧—厌氧消化法处理味精浓废水的比较试验.进水为6×10~4mg/L～8×10~4mg/L时,两相厌氧消化法COD去除率为78%,产气率为0.15m~3/kgCOD,CH_4含量为50%.缺氧—厌氧消化法COD去除率为82.2%,产气率为0.23m~3/kgCOD,CH.含量达65%.两种方法均可使出水pH值由3.2上升至7.0以上.氯离子和氨氮的去除不明显.综合上述结果与运行管理的稳定程度均是缺氧——厌氧消化法优于两相厌氧消化法.     

两相分配生物反应器治理高浓度有机污染研究进展

高浓度有机污染物难以进行生物降解的主要原因之一是其会对微生物产生较大毒害作用而抑制微生物生长以及降解过程,而两相分配生物反应器(Two-phase partitioning bioreactor,TPPB)可以有效解决污染物毒性的问题,因而在高浓度有机污染治理中具有较大的应用潜力.本文系统介绍了TPPB类型以及各自的工作原理,即TPPB通过非水相的引入可以溶解系统内大部分有机污染物,减少水相中污染物的浓度,降低其对微生物的毒性,并通过微生物的代谢活动实现污染物的降解,随着降解过程的进行污染物在两相间的分配平衡不断被打破,污染物又不断从非水相进入到水相之中,使得微生物的降解过程持续进行.同时分析了反应过程中的各种影响因素,如传质速率、微生物影响等,进而阐述了该技术在水体、土壤、大气污染治理中的应用,最后根据目前的研究进展,对TPPB技术的工程应用前景进行了展望.     

煤巷掘进过程中粉尘浓度影响因素分析

为了掌握煤巷掘进过程中粉尘浓度变化的影响因素,根据气固两相流理论,针对矿井掘进工作面的特点,采用计算流体力学的离散相模型（DPM）考察了掘进巷道风速、风筒直径、风筒出风口到掘进工作面距离以及风筒的悬挂高度对粉尘浓度变化的影响。结果发现：当掘进巷道风速为0.25-4 m/s时,提高巷道内的通风风速,可以降低巷道内的粉尘浓度,缩短呼吸性粉尘浓度达到稳定的时间,减小工作面粉尘的危害;有利于通风除尘的风筒相关参数为风筒直径0.4-0.6 m、风筒出风口到掘进工作面距离6-7 m、风筒悬挂高度2.0-2.2 m。     

两相分配式生物反应器处理高盐废水中的苯酚

采用新型两相分配式生物反应器(TPPB)和前期研究得到的高效苯酚降解菌对高盐废水中苯酚的降解进行研究,研究中确定煤油为反应系统的最佳有机溶剂,并考察了废水苯酚含量、废水盐度以及搅拌器搅拌速度对苯酚降解的影响。结果表明,反应系统能正常降解苯酚含量为1 000～2 500 mg/L的高盐苯酚废水;反应系统在含盐量为100 g NaCl/L、搅拌速度为50 r/min的运行工况条件下,降解时间缩短为52 h,总酚去除率为20.58 mg/(L.h)。     

The National Resources Inventory: a long-term multi-resource monitoring programme

Interest in natural resources and the environment has led to the development of new federal monitoring efforts, the expansion of existing federal inventory programmes, and discussions of inter-agency collaboration for natural resource assessment data collection. As federal programmes evolve, knowledge gained from existing long-term survey programmes can provide valuable contributions to statistical and operational aspects of survey efforts. This paper describes the National Resources Inventory (NRI), which has been conducted by the US Department of Agriculture's Natural Resources Conservation Service in cooperation with the Iowa State University Statistical Laboratory for several decades. The current NRI is a longitudinal survey of soil, water, and related environmental resources designed to assess conditions and trends every five years on non-federal US lands. An historical overview is provided highlighting the development of the survey programme. Sample design, data collection, and estimation procedures used in the 1992 NRI are described, and statistical issues related to long-term monitoring are discussed.     

液体危化品罐车卸货防喷技术研究

液体危化品大量地通过罐车运输,目前液体危化品罐车卸货完成后从通用卸货管道上拔掉卸货软管时,发生软管内残余液体危化品外喷伤人现象,其原因是液体危化品罐车卸货完毕,关闭罐车上的卸货阀门后,软管内压力大于管口大气压,在从通用卸货管道上拔掉卸货软管时,造成管内残余液体危化品从管口外喷,拔管时出现的外喷现象的动力,就是来自于这种压差.提出解决该问题的方法是对罐车的卸货装置进行简单改造,增加一个调节装置来平衡卸货软管内与外界大气压,消除液体外喷的动力.并在一家危险化学品经营企业的浓硝酸运输罐车上进行了实践应用,证明了该方法安全可行,提高了浓硝酸卸货时的安全性.     

Vent sizing for gas-generating runaway reactions

Exothermic runaway reactions that generate non-condensible gas as the temperature increases, as is typical of decompositions for example, can reach extremely high rates of pressure rise necessitating emergency relief of the process vessel containing the reactant. Sizing of a relief device using presently recommended methods (e.g. DIERS) frequently leads to extremely large and expensive vents. This paper presents a methodology that leads to a simple but much improved method for vent sizing, fully allowing for two-phase release of the gas—liquid mixture. A number of examples are presented which lead to interesting conclusions about the influence of plant variables.     

两相厌氧消化工艺处理鸡粪

以鸡粪为发酵原料,采用序批式两相厌氧消化工艺在中温条件(37℃)下对其进行消化处理。分别将水解酸化相和产甲烷相pH值控制在5.5±0.3和7.0±0.3,通过改变进样含固率(TS)研究有机负荷(OLR)对两相消化系统处理鸡粪过程中污染物转化和去除效果的影响。结果表明,水解酸化相出水总有机碳(TOC)、挥发酸(VFAs)和氨氮(NH4+-N)浓度都随OLR升高而升高。VFAs组成相对稳定,其中乙酸占总VFAs浓度的57%～64%,其次为正丁酸和丙酸。产甲烷相出水TOC和VFAs稳定在较低水平,TOC去除率最大达到90%以上。产甲烷相进水氨氮主要以NH4+形式在反应器内不断积累。实验后期产甲烷相生物气中甲烷体积分数维持在64%上,证明两相消化系统在实验条件下良好运行。     

Estimation of the CDF of a finite population in the presence of acalibration sample

We compare the performance of a number of estimators of the cumulative distribution function (CDF) for the following scenario: imperfect measurements are taken on an initial sample from afinite population and perfect measurements are obtained on a small calibration subset of the initial sample. The estimators we considered include two naive estimators using perfect and imperfect measurements; the ratio, difference and regression estimators for a two-phasesample; a minimum MSE estimator; Stefanski and Bay's SIMEX estimator (1996); and two proposed estimators. The proposed estimators take the form of a weighted average of perfect and imperfect measurements. They are constructed by minimizing variance among the class of weighted averages subject to an unbiasedness constraint. They differ in the manner of estimating the weight parameters. The first one uses direct sample estimates. The second one tunes the unknown parameters to an underlying normal distribution. We compare the root mean square error (RMSE) of the proposed estimator against other potential competitors through computer simulations. Our simulations show that our second estimator has the smallest RMSE among thenine compared and that the reduction in RMSE is substantial when the calibration sample is small and the error is medium or large.     

餐厨垃圾两相厌氧发酵产甲烷相恶臭排放规律

为了研究餐厨垃圾两相厌氧发酵产甲烷相恶臭排放规律,在中温（35℃）条件下,以餐厨垃圾为发酵底物进行中试规模的两相连续式厌氧发酵试验,并对一个周期内不同时间段产甲烷相产生的气体进行采样,分析其臭气浓度和物质浓度,结合各组分的阈稀释倍数,筛选出主要的恶臭污染物。结果表明,在发酵系统稳定运行阶段,产甲烷相产生的臭气浓度较大,都在23万以上;产甲烷相产生的恶臭物质主要包括硫化物、萜烯类、含氧类和芳烃类四类化合物,其中质量浓度最高的恶臭物质是硫化氢,超过了150 mg/m3;产甲烷相的主要致臭物质是硫化物,其中贡献最大的是硫化氢,其阈稀释倍数都在26万以上,其次为乙硫醇﹥甲硫醇﹥乙硫醚,这3种物质的阈稀释倍数都在4 000以上;除了这4种硫化物,丁醛对恶臭的贡献也比较大,其阈稀释倍数也在4 000以上。