地铁恐怖袭击下乘客疏散交通方式调查研究

为科学地认识地铁恐怖袭击事件下乘客疏散方式决策行为,基于随机抽样调查,采集乘客疏散交通方式选择意向数据,揭示不同地铁恐怖袭击场景下乘客心理特征及疏散交通方式选择行为差异。结果表明:地铁恐怖袭击事件引发乘客恐慌,恐慌程度与性别、年龄、文化程度、月收入、是否接受恐袭安全教育和通勤距离6个因素显著相关;除常规的行程时间、出行费用等因素外,安全性是乘客进行疏散交通方式选择的首要因素;在恐怖袭击事件导致地铁网络重要站点关闭情况下,仍有部分乘客选择地铁作为疏散交通方式,且选择比例随出行距离增加而增加;恐怖袭击事件的攻击方式影响乘客疏散交通方式选择,爆炸恐怖袭击下地面公交客流分担率高于其他方式,而持刀伤人事件下地铁客流分担率最高。     

基于LBM的风窗流场数值模拟与PIV实验研究

风窗流场分布规律对于粉尘、瓦斯、有毒有害气体运移规律以及风窗局部阻力计算具有一定的影响,而常用的CFD方法在模拟风窗后阶湍流流场这类问题上存在计算复杂度高的问题,针对此问题,结合格子玻尔兹曼(LBM)方法在流场模拟方面具有求解精度高、计算复杂度小的特点,采用多松弛格式的格子玻尔兹曼方法(MRT-LBM)对巷道风窗流场进行模拟研究。为验证格子玻尔兹曼方法对风窗流场模拟的有效性,利用粒子图像测速仪(PIV)对风窗流场分布规律进行实验验证研究。研究结果表明:LBM模拟风窗流场回流区长度为340 mm,风窗主流风速最高达19.1 m/s;PIV实验测试风窗流场回流区长度为320 mm,风窗主流风速最高达18.4 m/s,在相同模型条件下,LBM模拟结果与PIV实验测试结果基本保持一致。LBM与Fluent模拟进行对比,模拟精度、运行速度和操作便捷性要优于Fluent模拟。     

三峡工程运用后洞庭湖水沙情势变化及其影响初步分析

采用原型资料分析、长河段一维数学模型计算等手段,分析和预测了三峡工程运用对洞庭湖水沙与冲淤影响,研究了三峡工程运用对洞庭湖出口水位的影响,在此基础上初步分析了三峡工程运用对湖区防洪与生态环境影响。研究成果表明：三峡水库运用后30 a末,荆江三口年均分流量和分沙量比多年平均值分别减少43%和73%,三口分流道的河床相应发生冲淤变化;三峡工程运用后,受荆江三口分流比减少影响,洞庭湖区泥沙淤积显著减少,对增强洞庭湖区调蓄功能、延长洞庭湖寿命有利;受三峡水库调度运用与长江干流河道冲刷影响,洞庭湖出口水位以下降为主,汛期水位的下降将对湖区防洪有利,而枯期水位的下降将对湖区水资源利用及生态环境带来一定不利影响。     

旋流场超细颗粒聚集实验研究

不同粒径分布和浓度的催化裂化(FCC)三旋回收超细催化剂颗粒在旋流场中经过50 h循环回流,颗粒中值粒径变化明显。物料中分散相越多、颗粒粒径越小时,颗粒碰撞越频繁,其聚集趋势越明显。颗粒聚集体在旋流场内不够稳定,通过对比不同进料速率下的旋流场聚集效果,得到最适合颗粒聚集的旋流场雷诺数为20 000。颗粒聚集体存在聚集极限粒径,其最佳聚集时间约为40 h,颗粒聚集后的旋流分离效率提高近5%。     

大气压力对细水雾灭火系统泵组流量特性及效率的影响

柱塞泵是泵组式细水雾灭火系统的关键部件,它是细水雾喷头实施喷雾的供水源和压力驱动源.为研究大气压力,特别是高海拔低气压环境对柱塞泵流量特性及效率的影响,通过在合肥及拉萨两地的对比试验,给出了环境压力与柱塞泵流量特性及效率的关系.结果表明,大气压力减小使柱塞泵的流量减小,因此,在高原低气压环境下使用柱塞泵,应采用增加柱塞泵进口压力的措施,以保证泵组式细水雾灭火系统的设计性能;不同大气压力下泵组的效率无明显变化,即大气压力对泵组的效率无明显影响.     

SMBR内气液两相流三维CFD模拟

应用CFD软件Fluent对浸没式膜生物反应器(submerged membrane bioreactor,SMBR)内气液两相流进行数值模拟研究,重点考查曝气系统的改变对气液两相流态的影响,并结合PIV实验验证模拟结果,从而为反应器的优化设计及膜污染的控制提供理论依据。模拟结果表明,SMBR内曝气强化了气液两相紊动,膜表面液相速度沿反应器高度增加且形成循环流动,有利于膜面污染物的脱落;反应器内气含率分布不均匀,出现死区,不利于微生物的生长;经实验验证,模拟结果吻合良好。     

Computational Fluid Dynamics (CFD) Simulations on the Effect of Rough Surface on Atmospheric Turbulence Flow Above Hilly Terrain Shapes

The behavioral distribution of the atmospheric turbulence flow over the terrain with changes in a rough surface has become one of the most important topics of air pollution research, among such other topics as transportation and dispersion pollutants. In this study, a computational model on atmospheric turbulence flow over a terrain hill shaped with rough surface was investigated under neutral atmospheric conditions. The flow was assumed to be 2D and modeled using computational fluid dynamics (CFD) models, which were numerically solved using Reynolds-averaged Navier-Stokes equations. Rough surface conditions were modeled using a number of windbreak fences regularly spaced on the hill. The mean velocity and turbulent structures such as turbulence intensity and turbulent kinetic energy were investigated in the upwind and downwind regions over the hill, and the numerical models were validated against the wind-tunnel results to optimize the turbulence model. The computational results agreed well with the results obtained from the wind tunnel experiments. The computational results indicate that the mean velocity was observed to increase dramatically around the crest of the upwind slope of the hill. A thick internal boundary layer was observed with a fence on the crest and downwind region of the hill. The reversed flow and recirculation zone were formed in the wake region behind the hill. It was thus determined that turbulent kinetic energy decreases as the mean velocity increases.     

内循环厌氧反应器多相流流场的三维数值分析简

利用数值模拟的方法,引入欧拉双流体多相流模型及标准k-ε紊流模型,模拟计算内循环厌氧反应器的三相流三维流场,并通过改变污泥颗粒密度及进水流量,针对固相流速及固含率的变化情况,分析条件的改变对流场的影响。研究结果表明,应用数值模拟方法可以获得内循环厌氧反应器内的流场特征;污泥颗粒密度及进水流量的改变对于反应器内污泥颗粒的流速及分布的均匀性有较为明显的影响。模拟结果对反应器的应用及优化设计具有一定的参考价值。     

连续流砂过滤器深度处理市政污水的中试研究

采用好氧/缺氧连续流砂过滤器中试实验研究深度处理北京某污水处理厂二级出水。实验结果表明,当连续流砂过滤器好氧段聚合氯化铝投量为20 mg/L,缺氧段碳源投量为32 mg/L时,COD、NH+4-N、TN和TP的平均去除率分别为34.77%、86.54%、66.94%和84.10%,最终出水均达到北京市新(改、扩)建城镇污水处理厂排放A标准(DB11/890-2012)。克隆文库法分析石英砂表面生物膜中的细菌群落结构表明,其优势菌群为β-proteobacteria,其中大部分能以废水中碳源为电子供体还原硝酸盐。     

Effects of cadmium on the activities of photosystems of Chlorella pyrenoidosa and the protective role of cyclic electron flow

Cadmium (Cd) shows high toxicity to aquatic microalgae. Many studies showed that Cd inhibited activities of photosystem II (PSII) but the effects of heavy metals on photosystem I (PSI) and cyclic electron flow (CEF) were still controversial and unclear. The effects of CdCl₂ on the activities of PSI, PSII and CEF in Chlorella pyrenoidosa was measured simultaneously in the present study. In presence of 200 μM of Cd, ultrastructure of some cells was strongly modified. Cd exposure led to decrease of the activities of photosynthetic oxygen evolution and respiration. PSII was more sensitive to Cd treatment than PSI. Cd treatment showed significant inhibition on the photochemical quantum yield and electron transport rate of PSII. Cd increased the quantum yield of non-light-induced non-photochemical fluorescence quenching, indicating the damage of PSII. The activity of PSI showed tolerance to Cd treatment with concentration less than 100 μM in the experiment. Linear electron flow (LEF) made significant contribution to the photochemical quantum yield of PSI of the untreated cells, but decreased with increasing Cd concentration. The contribution of CEF to the yield of PSI increased with increasing Cd concentration. The activation of CEF after exposure to Cd played an essential role for the protection of PSI.