混沌粒子群算法在水污染控制系统规划中的应用

针对常用的最优化方法解决水污染控制系统规划问题运算过程较复杂,容易陷入局部极值,且优化解精度不高的情况,尝试利用混沌方法和粒子群算法相结合的混沌粒子群算法(chaos particle swarm optimization,CPSO)求解此类问题。CPSO算法具有原理简单,且能快速获得最优解的特点。在实例应用中与遗传算法和MATLAB优化函数的优化结果做了比较,CPSO算法的性能以及得到的解明显优于后两种方法,验证了该方法的可行性和有效性。     

一种基于BP网络和粒子群算法的拱坝可靠度分析方法

为了进行极限状态方程不明确的大型结构可靠度分析,提出了结合神经网络和粒子群优化计算拱坝可靠度的算法。确定性力学分析采用ANSYS软件,利用BP神经网络来模拟高度非线性映射关系的功能函数,基于罚函数和粒子群优化法进行可靠指标计算。综合C语言、ANSYS的APDL二次开发以及MATLAB混合编程技术,编制了该算法的可靠度分析程序。算例表明,该方法适应于隐式功能函数的复杂结构可靠度分析。     

Understanding the granulation process of activated sludge in a biological phosphorus removal sequencing batch reactor

The granulation of activated sludge was investigated using two parallel sequencing batch reactors (SBRs) operated in biological nitrogen and phosphorus removal conditions though the reactor configuration and operating parameters did not favor the granulation. Granules were not observed when the SBR was operated in biological nitrogen removal period for 30 d. However, aerobic granules were formed naturally without the increase of aeration intensity when enhanced biological phosphorus removal (EBPR) was achieved. It can be detected that plenty of positive charged particles were formed with the release of phosphorus during the anaerobic period of EBPR. The size of the particles was about 5-20 μm and their highest positive ζ potential was about 73 mV. These positive charged particles can stimulate the granulation. Based on the experimental results, a hypothesis was proposed to interpret the granulation process of activated sludge in the EBPR process in SBR. Dense and compact subgranules were formed stimulated by the positive charged particles. The subgranules grew gradually by collision, adhesion and attached growth of bacteria. Finally, the extrusion and shear of hydrodynamic shear force would help the maturation of granules. Aerobic granular SBR showed excellent biological phosphorus removal ability. The average phosphorus removal efficiency was over 95% and the phosphorus in the effluent was below 0.50 mg L⁻¹ during the operation.     

利用给水厂污泥预处理畜禽养殖废水

实验考察了直接回用未脱水的给水厂污泥(undewatered water treatment sludge,UWTS)做絮凝剂进行畜禽养殖废水预处理的可行性.单因素实验结果表明,随着投加量和pH的增加,出水悬浮物浓度(suspended solid,SS)、化学需氧量(chemical oxygen demand,COD)和总磷(total phosphorus,TP)的去除率不断增加;随着快速搅拌速度的提高,UWTS的絮凝效果呈现先增强后减弱的趋势;随着沉淀时间的延长,出水中SS、COD和TP的去除率起初逐渐增大,但15 min后去除率变化不明显.进一步的正交实验分析结果表明,UWTS回用做絮凝剂的最佳反应条件为投加量2 800 mg/L,快速搅拌速度300 r/min,沉淀时间15 min,此时对应的SS、COD和TP的去除率分别为74.8％、54.6％和60.5％.最佳反应条件下的粒径分析结果表明,UWTS的投加使得粒径范围在40 ～ 180 μm的颗粒物得到了去除.尽管与商品化絮凝剂相比,UWTS的絮凝效果略差,但是,利用其预处理畜禽养殖废水具有成本优势,因而具有应用潜力.     

The design of cyclonic pre-heaters in suspension cement kilns

Cement manufacturing consumes two main types of energy: fuel and electricity. On average, energy costs represent 40% of the total production costs per ton of cement. The challenge is to reduce the consumption of energy to about 3000 MJ/ton clinker without the consumption of massive additional amounts of electricity, which is normally associated with additional fuel-saving measures. This can only be achieved by implementing sound thermal energy optimization measures. Energy-efficient suspension cement kilns are now widely applied and use a cascade of cyclonic pre-heaters of moist particulate feedstock, with heat transfer from hot kiln exhaust gas to particles being a function of heat transfer coefficient, temperature difference and gas–solid contact mode and time. The gas–solid contact mode and time depend on particle movement in cyclones, which has previously been studied by positron emission particle tracking. Heat transfer is governed by Nusselt–Reynolds equations, with gas velocity and properties being a function of the temperature profile along the cascade of cyclones. A stepwise approach of the design thus combines changing hydrodynamics and heat transfer along the successive cyclones, with the overall thermal balance of the cascade as control. This approach leads to major design recommendations, as developed in the present paper.     

新型湿式电除雾（尘）器在脱硫脱硝尾气深度净化工程的实践应用

通过新型湿式电除雾（尘）器器应用于脱硫脱硝尾气深度净化工程的成功案例,介绍新型湿式电除雾（尘）器器研制的技术优势及其应用领域,旨在为脱硫脱硝尾气中夹带的雾滴、PM2.5微粉尘等气溶胶污染物,提供一种有效可行的深度净化治理新途径,以应对日趋严格的环保政策及排放标准。     

三峡水库干流消落带沉积泥沙粒径特征及其物源意义

为揭示三峡水库干流消落带的泥沙沉积规律、分析沉积泥沙来源,本研究采用原位观测方法采集沉积泥沙样品,利用激光粒度仪测试泥沙粒径,分析沉积泥沙粒径在水平、垂直和高程3个维度上的变化特征,并与三峡水库入库泥沙的粒径特征相结合,阐述消落带沉积泥沙来源。结果表明:(1)三峡水库干流消落带沉积泥沙粒径在水平方向上存在比较强烈的空间变化,中值粒径沿河流流向方向呈逐渐下降趋势,并在忠县及其下游河段基本保持稳定;(2)泥沙粒径随高程的变化存在较大的空间差异,河流挟沙是消落带下部粗颗粒泥沙的主要来源,而消落带上方的土壤侵蚀强度越高,消落带顶部的沉积颗粒就越容易变粗;(3)在水库尾端,泥沙剖面存在较明显的旋迴分层现象,其中值粒径数值较大、变化幅度较宽,越往下游推进,中值粒径的数值越低、变化幅度越小,泥沙旋迴分层现象逐渐消失;(4)水库尾端的沉积泥沙以库区外来沙为主,越往下游推进,库区内产沙对粗颗粒泥沙的贡献逐渐升高,但库区内外来沙都能够为沉积泥沙提供丰富的细颗粒物源,因此,细沙的来源具有一定的复杂性和多样化特征。     

汶川地震后四川省安县黄洞子沟泥石流特征

2008年5月12日汶川地震诱发了黄洞子沟流域规模巨大的大光包滑坡,部分滑体前冲堆积于沟道内,直接为后期泥石流的形成提供了丰富的松散固体物质,改变了黄洞子沟泥石流形成条件,使黄洞子沟从一条非泥石流沟演变成了一条高频泥石流沟。震后黄洞子沟几乎每年雨季都会暴发不同规模的泥石流,其中以2013年"7·09"泥石流灾害规模和危害最大。本文着重分析了黄洞子沟泥石流形成特征,并从地形、降水和地质三个方面将黄洞子沟和文家沟进行对比,得出了物源堆积体颗粒粒径与泥石流形成的关系。     

应用电声换能超声波雾化方法提高超细颗粒捕集效率

针对大气环境污染控制中超细颗粒难以捕集的问题,提出了一种高效、经济的新方法.其核心思想是将经电声换能超声波雾化得到的相对湿度过饱和雾气喷入含尘气体中,在“云”物理学、碰撞团聚等原理共同作用下,饱和水蒸汽在颗粒表面凝结,使超细颗粒的粒径增大,增加其捕集效率.为了证明这种方法的有效性,建立了小型电声换能超声波雾化捕尘实验台并在旋风除尘器中进行实验研究.实验结果表明,随着雾气浓度的增加,总除尘效率与超细颗粒的分级效率均有明显提高,并且旋风除尘器的压降(能耗)明显降低.     

非道路柴油机排放颗粒物中的重金属形态及其风险评价

采集6种典型非道路柴油机排放的颗粒物样品,利用BCR连续提取法分析了颗粒物中重金属的形态。结果表明,6种典型非道路柴油机的颗粒物比排放达154~343mg/(kW·h),小功率的非道路柴油机颗粒物比排放较高;各重金属平均质量浓度排序为ZnCrAsMnPbNi≈Cu≈Cd,重金属总量约占颗粒物质量的2.22%;Ni和Cu以有机物结合态为主,其他重金属均以残渣态为主,约占总提取形态的71.83%~96.74%;所有非道路柴油机颗粒物中均存在有机物结合态重金属且比例较高,说明排放颗粒物中有机污染物和重金属结合紧密。基于风险评价法和污染系数法对重金属的生态风险进行评价,结果表明,非道路柴油机排放颗粒物中Cd的生态风险最高,Pb、Cr和Mn的风险次之。