超声波预处理对牛粪与玉米秸秆混合厌氧发酵特性的影响

为了探索超声波预处理提高厌氧发酵产气量的机理、优化超声波预处理工艺及分析超声波预处理的能量效益,利用因子分析法和通径分析研究不同发酵阶段各环境因子对发酵过程的影响,以及发酵初始环境与甲烷产量之间的关系.同时,用响应面优化法优化超声波预处理工艺,并且分析了超声波预处理的能量效益.结果表明,在40 k Hz和0.20 k W下,适宜的超声波预处理能显著提高厌氧发酵总产气量(p0.05),牛粪预处理17.68 min后与玉米秸秆预处理19.94 min混合发酵,甲烷产量最高为177.20 L·kg-1(以TS计),显著高于CK(未经预处理组,p0.05),其能量效益也最高,为1835.14 k J·kg-1(以TS计).超声波预处理通过改变发酵初始环境之间的相互关系和发酵过程环境的主要影响因素来使发酵系统更加稳定从而提高产气量.超声波预处理是一种能量输入的预处理方式,产气量高于CK处理组,但其能量效益不一定大于零.因此,在优化超声波预处理条件时必须对其能量效益进行分析.研究结果能为超声波预处理条件的优化方式提供理论依据.     

溴-锑-磷协效阻燃体系对聚丙烯土工格栅阻燃和生烟性能的影响

利用极限氧指数、垂直燃烧试验、酒精喷灯燃烧试验、锥形量热仪、热重分析和力学性能测试等手段研究了溴-锑-磷阻燃体系对聚丙烯(PP)土工格栅的力学性能、燃烧性能、生烟性能和热解特性的影响。结果表明,低添加量(质量分数≤5%)的溴-锑-磷阻燃体系对PP土工格栅的拉伸强度和断裂伸长率影响较小,但明显提高了材料的阻燃性能,其中质量分数5%的四溴双酚A-双(2,3-二溴丙基醚)(八溴醚)-三氧化二锑阻燃PP的峰值热释放速率(HRR)和总释放热(THR)相比于纯PP分别下降了39.98%和26.03%。八溴醚-三氧化二锑阻燃体系与红磷复配时还表现出较好的协效作用,当溴-锑与磷的质量比为3∶2时,协效阻燃效果最优,仅添加5%的协效阻燃体系便可使PP的LOI和UL 94等级分别达到27.9%和V-0级,并通过酒精喷灯燃烧试验。与纯PP相比,溴-锑阻燃体系虽降低了PP的HRR和THR,但增大了燃烧过程中的生烟速率(SPR)和总产烟量(TSR),而红磷的加入能有效降低溴-锑阻燃PP的生烟量。热重分析表明,溴-锑-磷协效阻燃体系表现出较好的气相阻燃作用,能有效降低PP的热裂解速率,增强了PP的阻燃性能。     

长输管道泄漏检测技术进展浅析

简述了长输管道泄漏检测技术的进展情况,介绍了4种泄漏检测技术原理,并对比分析了各种技术的特点和应用范围,为管道的安全运行管理和维护决策提供了技术参考。     

自动监控技术在环境监测中的应用

介绍了自动控制技术、在线监测技术以及现代信息和多媒体技术在环境监测工作中的应用,并阐述了自动监控技术在环境监测中应用价值及存在的困难。     

混凝法深度处理焦化废水的研究

针对焦化厂二级生化出水CODcr、色度不达标问题,研究采用PAC和PFS对焦化厂二级生化出水进行深度处理研究。研究确定了各混凝剂的最佳投药量和最适pH值,对比了各混凝剂在最佳混凝条件下的处理效果,以及在最佳投药量条件下最佳pH值。结果表明：PAC最佳投药量为6g/L,PFS最佳投药量为5.5g/L;在最佳投药量的条件下,对CODcr去除较好的是PAC,去除率为44.83%;对色度去除率两者相同,都为80%;二者最佳pH值均为7。     

European scale application of atmospheric reactive nitrogen measurements in a low-cost approach to infer dry deposition fluxes

A European scale network was established in 2006 as part of the NitroEurope Integrated Project to infer reactive nitrogen (Nr) dry deposition fluxes, based on low-cost sampling of gaseous and aerosol species and inferential modelling. The network provides monthly measurements of NH₃, NH₄⁺, HNO₃ and NO₃⁻, as well as SO₂, SO₄²⁻, HCl, Cl⁻ and base cations at 58 sites. Measurements are made with an established low-cost denuder methodology (DELTA) as a basis to: (1) examine temporal trends and spatial patterns across Europe, (2) improve and calibrate inferential modelling techniques to estimate exchange of Nr species, (3) provide best estimates of atmospheric dry N deposition, and (4) permit an analysis of net GHG exchange in relation to atmospheric and agricultural N inputs at the European scale. Responsibility for measurements is shared among seven European laboratories. An inter-comparison of the DELTA implementation by 6 laboratories at 4 test sites (Montelibretti, Italy; Braunschweig, Germany; Paterna, Spain and Auchencorth, UK) from July to October 2006 provided training for the laboratories and showed that good agreement was achieved in different climatic conditions (87% of laboratory site-means within 20% of the inter-laboratory median). Results obtained from the first year of measurements show substantial spatial variability in atmospheric Nr concentrations, illustrating the major local (NH₃) and regional (HNO₃, NO₃⁻, and NH₄⁺) differences in Nr concentrations. These results provide the basis to develop future estimates of site-based Nr dry deposition fluxes across Europe, and highlight the role of NH₃, largely of agricultural origin, which was the largest single constituent and will dominate dry Nr fluxes at most sites.     

A new approach to predicting the maximum temperature in dry drilling based on a finite element model

A new analysis approach is developed to predict the temperature in dry drilling. The working rake angle and the working relief angle which the effect of feed is considered at an arbitrary point in the leading cutting edge of a twist drill are developed for the equivalent model. Then finite element models are developed to predict the drilling temperature based on the equivalent model. Commercial finite element codes Abaqus, Deform 2D and Third Wave Systems AdvantEdge have been used. In simulations, different chip separation models and material models are applied in the three codes. And the effect of the laws of drilling velocities and feed rates on the temperature are investigated by the finite element method. Predicted results of the maximum temperatures by three codes are compared with experiments, respectively. Results indicate that the drilling temperature results of simulations have good agreement to the experimental ones, and the errors are all less than 15%.     

污泥灰对模拟染料废水的吸附研究

以南京市江心洲污水处理厂污泥为原料热解制得污泥灰,并将其用于吸附直接耐酸大红4BS和活性艳红K-2BP模拟染料废水.考察了吸附剂投加量、吸附时间、温度和pH值对吸附效果的影响,并对其吸附动力学特征进行了探讨.结果表明,反应温度、吸附时间和吸附剂投加量对吸附效果有影响,而废水pH变化则不会引起脱色率的较大改变.室温下,4BS和K-2BP的最佳污泥投加量分别为3g·L-1、10g·L-1.4BS在最佳反应条件（反应时间为25min,反应温度为40℃）下,脱色率可达93%;K-2BP在最佳反应条件（反应时间为150min,反应温度为40℃）下,脱色率约为73%.     

亚热带农区生态沟渠对农业径流中氮素迁移拦截效应研究

以我国亚热带农业面源污染防控工程——生态沟渠为研究对象,在2013~2014年对其径流量和每月进出口水质中NH~+_4-N、NO~-_3-N和TN的质量浓度进行监测,通过分析生态沟渠在不同时间段对不同形态氮素的去除差异,探讨了生态沟渠对面源污染中氮素迁移的拦截效应.结果表明,2 a内生态沟渠对NH~+_4-N、NO~-_3-N和TN的平均去除率分别为77.8%、58.3%和48.7%;拦截量分别为38.4、59.6和171.1 kg·a~(-1);进水中无机态氮NO~-_3-N和NH~+_4-N之和占TN质量分数的平均值为47.5%,出水中平均值为33.6%,比进水显著降低(P0.01).2014年生态沟渠中水生植物全部改种为绿狐尾藻后,对NO~-_3-N和TN的拦截率比2013年分别增加了30.5%和18.2%,表明种植绿狐尾藻进一步提升了生态沟渠对氮素的拦截能力.可见,生态沟渠对农区地表径流中氮素迁移有较好的拦截作用,可作为一项重要的农业面源氮污染防控技术.     

河北省PM2.5污染变化特征及暴露人群健康效应评估研究

PM2.5污染是影响中国城市居民健康和形成雾霾天气的重要原因之一,也是河北省健康发展的一个制约因素.采用环境污染流行病研究为基础的暴露-反应关系估算了2014年和2015年全省因PM2.5污染的居民早逝和罹患相关疾病住院的人数,并利用国家和河北省卫生统计数据,估算出人均人力资源价值和人均住院成本,计算出总经济损失.结果表明,河北省各市的PM2.5年均浓度呈下降趋势,因此,继续坚持有效的大气污染控制和应急健康防护措施,仍然是今后环保工作的重中之重.