南水北调中线工程水质监测站点布设研究

科学合理布设水质监测站点是加强南水北调中线工程对突发水污染事件监控,保障水质安全的重要手段。制定水质监测站点的布设方案受到监测效率与布设成本的约束,同时,监测仪器精度、污染物衰减特性的不确定性等问题也对布设方案产生影响。以中线工程京石段为研究对象,基于一维水质模型,以突发水污染事件漏报率最低、发现时间最短以及监测站点布设成本最小为目标函数,构建水质监测站点布设多目标优化模型对布设方案进行优化,同时结合监测仪器精度对目标函数的影响确定了最优布设方案,在此基础上,分析了污染物衰减特性对最优布设方案的影响。研究结果可为中线工程合理布设水质监测站点提供建议。     

High fluid shear strain causes injury in silver shark: Preliminary implications for Mekong hydropower turbine design

The Lower Mekong Basin is facing unprecedented threats to fish diversity from hydropower development. There is increasing pressure on developers and construction authorities to design solutions to improve fish survival through turbines, thus protecting the resources in regions being developed for hydropower. A hydraulic characteristic of hydropower turbines with known fisheries impacts is fluid shear stress. Elevated shear stress occurs where rapidly flowing water passes near spillways, screens and within turbine draft tubes. Shear stress can have adverse impacts on fish, but no work has assessed whether this holds true for Mekong River species. A flume was used to determine critical tolerances of silver shark, Balantiocheilos melanopterus (Bleeker), to shear stress rates at a high‐velocity jet which simulated a hydropower turbine. Fish were assessed for injury or mortality following exposure. Results were compared against a no‐shear control. Injury and mortality were greater at higher shear stress exposures. Injuries occurred at all shear exposure levels with mortality at shear levels higher than 600/s. This approach should help design future hydropower turbines if data on other species demonstrate similar results. If the likelihood of adverse impact is high, then shear stress will need to be considered in the design of future hydropower facilities.     

基于混合狼群算法参数优选的泵站群运行优化

对于求解复杂的并联泵站群优化运行模型,狼群算法(wolf pack algorithm,WPA)存在收敛性和鲁棒性差等问题。为改善这些问题,该文以某典型并联泵站群为例,以泵站系统主机组运行能耗最低为优化目标,考虑流量、叶片角度、开机台数等约束条件,建立了并联泵站群优化运行模型。将模拟退火算法引入WPA算法中,提出混合狼群算法(hybrid wolf pack algorithm,HWPA)用于求解建立的优化模型。选择最小值、平均值和标准差作为算法性能的评价指标。相较于粒子群算法(particle swarm optimization,PSO)和WPA算法,HWPA算法求解典型并联泵站群优化运行模型得出的运行能耗最小值平均降低了15.60、10.23 kW,平均值平均降低了36.94、14.30 kW,标准差平均降低了84.82%、72.90%。在HWPA算法的基础上,对算法中的游走步长、奔袭步长、围攻步长的最小值和最大值4个参数进行单因素分析和拉丁超立方抽样设计计算,确定出4个参数的最优组合为0.33、1.53、0.672和4.8×10^5,进而提出改进混合狼群算法(improved hybrid wolf pack algorithm,IHWPA)。相较于HWPA算法,IHWPA算法求解典型并联泵站群优化运行模型得出的运行能耗最小值和平均值平均降低了4.66和13.26 kW,标准差平均降低了94.02%。应用IHWPA算法确定典型并联泵站群6个不同运行工况优化方案,结果表明,采用引入模拟退火算法、优选WPA算法参数的方法提高了算法的全局收敛性与计算鲁棒性,泵站运行最优决策方案较实际方案的运行能耗平均降低9.80%,可为泵站工程提供合理有效的运行方案,降低运行能耗。     

Turbine entrainment and passage of potadromous fish through hydropower dams: Developing conceptual frameworks and metrics for moving beyond turbine passage mortality

Potadromous fishes are vulnerable to involuntary entrainment through hydropower turbines. However, turbines can also provide a downstream passage route for potadromous fish. Here, we review evidence for turbine entrainment and passage in potadromous fish, and evaluate the effects of these processes on upstream and downstream populations. We develop conceptual frameworks and metrics to quantify vulnerability to turbine entrainment removals, and to quantify the efficiency of turbines as a downstream passage route. We highlight factors that influence these processes and provide case‐studies demonstrating their applicability. We found that juvenile potadromous fish are being entrained through turbines at rates high enough to impact upstream populations. Given that juvenile passage survival is often high, we argue that turbines provide an important downstream passage route for potadromous fish. We show that entrainment vulnerability is likely a function of interactions between in‐reservoir fish behaviour, habitat configuration and operations and thus not well captured by passage mortality estimates. Similarly, we show that while passage mortality can limit downstream passage efficiency, passage success is also dependent on reservoir and forebay navigation, along with survival and fitness in the downstream river. We advocate for a shift in focus away from estimates of passage mortality and injury, which have previously accounted for the majority of turbine passage research. Instead, we recommend an approach that focusses on quantification of the factors that influence downstream passage efficiency and entrainment vulnerability. Moreover, we highlight the need to better understand the broader scale impacts of these events on upstream and downstream populations.     

浅谈地下车站侧墙大块定型移动模架施工技术

随着城市地铁的飞速发展,地铁车站在条件满足的情况下大都采用明挖法施工。在施工主体侧墙时采用满堂红支架法施工,但因施工时工期较长且易存在一些质量通病,因此,近年来大块定型移动模架被得到了广泛的应用。     

使用权限SIM卡实现区域站远程故障维修

介绍了通过使用权限SIM卡实现CAWS600-RT型四要素区域气象观测站(以下简称区域站)的远程故障诊断和维修的方法,列出了区域站采集器采集命令集,分别从参数配置命令和常用命令2个方面进行了详细说明,并列举了通过使用权限SIM卡实现区域站的远程故障诊断和维修能诊断和排除的具体故障类型,提出了诊断和排除故障办法,在工作中具有实用性。     

福建省林业检查站现状与改进对策

通过对福建省99个林业检查站工作现状的调查,作者认为:1)林业检查站在有效地维护木材、野生动植物的正常运输,有效地打击违法运输,有效防止和制止有害生物传播等方面发挥了巨大的作用;2)林业检查站主要面临着工作条件艰苦,人员少任务重,执法环境差等问题;3)存在问题的主要原因是管理体制不顺,各级政府及主管部门对林业检查站的作用认识不足,相关部门协调沟通不够;4)建议今后要有效整合执法力量、理顺管理体制,加大资金投入力度,协调道路运输各相关部门配合工作。     

全站仪测算伐区设计蓄积的原理及其应用

对全站仪测树原理进行了研究分析,应用全站仪与PC-E500袖珍计算机或PDA连接,可自动测算伐区或样地内每一株立木的树高、胸径或树干任意高度处直径,进而可自动而精准地计算出单木材积和伐区立木蓄积.理论上,树高的量测精度可达1/1 400.直径的量测精度可达1/200.实测结果表明:全站仪重复测量数据比较稳定,直径的量测误差在毫米级以内,树高的量测误差控制在厘米级,材积测定精度可优于1%,均高于测树的需要精度.全站仪测树技术实现了实时、快速、精准测定立木材积,不用材积表推求蓄积量,克服了传统测树方法的缺陷,其实测数据可作为伐区设计立木蓄积的测算依据.     

浅谈如何用全站仪调查古树名木

在传统调查方法中引入全站仪、GPS等精密仪器和交叉定年技术,对古树名木调查方法进行了改进。比较和探讨了两种调查方法,结果表明新的调查方法提高了树龄、树高、胸径和冠幅等关键数据的精度,并增加了地理坐标数据和多媒体信息的采集。     

移动通信基站的环境纠纷问题

指出了随着移动通讯的发展,移动通讯设施的不断增加,移动通信基站投诉纠纷问题逐渐凸显。根据浙江省辐射环境监测站2009～2013年期间承接的移动通信基站委托监测数据,分析了投诉纠纷的原因,并从公众、建设单位及环保部门的角度提出了应对投诉纠纷的意见及建议。