Physical and chemical processes of wintertime secondary nitrate aerosol formation

The UCD/CIT model was modified to include a process analysis (PA) scheme for gas and particulate matter (PM) to study the formation of secondary nitrate aerosol during a stagnant wintertime air pollution episode during the California Regional PM_2.5/PM₁₀ Air Quality Study (CRPAQS) where detailed measurements of PM components are available at a few sites. Secondary nitrate is formed in the urban areas from near the ground to a few hundred meters above the surface during the day with a maximum modeled net increase rate of 4 μg·m⁻³·d⁻¹ during the study episode. The secondary nitrate formation rate in rural areas is lower due to lower NO₂. In the afternoon hours, near-surface temperature can be high enough to evaporate the particulate nitrate. In the nighttime hours, both the gas phase N₂O₅ reactions with water vapor and the N₂O₅ heterogeneous reactions with particle-bound water are important for secondary nitrate formation. The N₂O₅ reactions are most import near the surface to a few hundred meters above surface with a maximum modeled net secondary nitrate increase rate of 1 μg·m⁻³·d⁻¹ and are more significant in the rural areas where the O₃ concentrations are high at night. In general, vertical transport during the day moves the nitrate formed near the surface to higher elevations. During the stagnant days, process analysis indicates that the nitrate concentration in the upper air builds up and leads to a net downward flux of nitrate through vertical diffusion and a rapid increase of surface nitrate concentration.     

Preparation of hapten-specific monoclonal antibody for cadmium and its ELISA application to aqueous samples

High-affinity and specific monoclonal antibodies against cadmium-ethylene diamine tetraacetic acid (EDTA) complex have been produced using the hybridoma technique. A hapten was synthesized and characterized by Fourier Transform Infrared Spectroscopy (FT-IR) and UV-Vis. Competitive enzyme-linked immunosorbent assay (ELISA) for quantitative detection of cadmium in aqueous sample was developed. The monoclonal antibody with high level of binding affinity for Cd-IEDTA-BSA and high specificity for soluble Cd-EDTA complex showed less than 0.99% cross-reactivity with other 11 metals. The limit of detection was 0.10 μg·L⁻¹, and the effective linear range was 10⁻¹–10³ μg·L⁻¹. The intra- and inter-assay coefficient variations were 1.5%–6.3% and 3.2%–7.4%, respectively. The spike recovery in different water samples were between 98.5% and 110.3%. The detection limit of this assay was well below the allowable concentration of cadmium (3 μg·L⁻¹), and the working range was wider than that of other methods which showed the range of 2.19–86.38 and 0–10³ μg·L⁻¹. The competitive ELISA established in this paper was sensitive and accurate in the screening of cadmium in aqueous samples. The results will lay a solid foundation for construction of an immunoassay kit for cadmium.     

Determination of selected semi-volatile organic compounds in water using automated online solid-phase extraction with large-volume injection/gas chromatography/mass spectrometry

A rapid, sensitive, and cost-effective analytical method was developed for the analysis of selected semi-volatile organic compounds in water. The method used an automated online solid-phase extraction technique coupled with programmed-temperature vaporization large-volume injection gas chromatography/mass spectrometry. The water samples were extracted by using a fully automated mobile rack system based on x-y-z robotic techniques using syringes and disposable 96-well extraction plates. The method was validated for the analysis of 30 semivolatile analytes in drinking water, groundwater, and surface water. For a sample volume of 10 mL, the linear calibrations ranged from 0.01 or 0.05 to 2.5 μg·L⁻¹, and the method detection limits were less than 0.1 μg·L⁻¹. For the reagent water samples fortified at 1.0 μg·L⁻¹ and 2.0 μg·L⁻¹, the obtained mean absolute recoveries were 70%–130% with relative standard deviations of less than 20% for most analytes. For the drinking water, groundwater, and surface water samples fortified at 1.0 μg·L⁻¹, the obtained mean absolute recoveries were 50%–130% with relative standard deviations of less than 20% for most analytes. The new method demonstrated three advantages: 1) no manipulation except the fortification of surrogate standards prior to extraction; 2) significant cost reduction associated with sample collection, shipping, storage, and preparation; and 3) reduced exposure to hazardous solvents and other chemicals. As a result, this new automated method can be used as an effective approach for screening and/or compliance monitoring of selected semi-volatile organic compounds in water.     

双级虚拟撞击采样器应用于固定污染源PM10和PM2.5排放测量

为贯彻落实《大气污染防治行动计划》,环境保护部指导各地开展大气污染源排放清单编制工作,其中包括固定源PM_(10)和PM_(2.5)的排放清单.但目前国内尚无固定源PM_(10)和PM_(2.5)标准采样方法.本研究提出了适合我国固定源PM_(10)和PM_(2.5)测量的双级虚拟撞击采样方法,开发了相应的分级采样系统,并用该方法对各类固定源进行了现场测试.测试结果表明,所测试的煤粉炉电厂的烟囱入口PM_(2.5)质量浓度为(0.93±0.03)mg·m~(-3),PM_(10)质量浓度为(1.13±0.11)mg·m~(-3).所测试的垃圾焚烧电厂的烟囱排放口PM_(2.5)质量浓度为(3.3±0.65)mg·m~(-3),PM_(10)质量浓度为(6.9±0.86)mg·m~(-3).所测试的大型循环流化床发电厂的烟囱排放口PM_(2.5)质量浓度为(0.59±0.04)mg·m~(-3),PM_(10)质量浓度为(1.12±0.16)mg·m~(-3).所测试的钢铁转炉的烟囱排放口PM_(2.5)质量浓度为(0.15±0.04)mg·m~(-3),PM_(10)质量浓度为(0.43±0.15)mg·m~(-3).     

Continuous biohydrogen production from diluted molasses in an anaerobic contact reactor

An anaerobic contact reactor (ACR) system comprising a continuous flow stirred tank reactor (CSTR) with settler to decouple the hydraulic retention time (HRT) from solids retention time (SRT) was developed for fermentative hydrogen production from diluted molasses by mixed microbial cultures. The ACR was operated at various volumetric loading rates (VLRs) of 20–44 kgCOD·m⁻³·d⁻¹ with constant HRT of 6 h under mesophilic conditions of 35°C. The SRT was maintained at about 46–50 h in the system. At the initial VLR of 20 kgCOD·m⁻³·d⁻¹, the hydrogen production rate dropped from 22.6 to 1.58 L·d⁻¹ as the hydrogen was consumed by the hydrogentrophic methanogen. After increasing the VLR to 28 kgCOD·m⁻³·d⁻¹ and discharging the sludge for 6 consecutive times, the hydrogentrophic methanogens were eliminated, and the hydrogen content reached 36.4%. As the VLR was increased to 44 kgCOD·m⁻³·d⁻¹, the hydrogen production rate and hydrogen yield increased to 42.1 L·d⁻¹ and 1.40 mol H₂·molglucose-consumed-1, respectively. The results showed that a stable ethanoltype fermentation that favored hydrogen production in the reactor was thus established with the sludge loading rate (SLR) of 2.0–2.5 kgCOD·kgMLVSS⁻¹·d⁻¹. It was found that the ethanol increased more than other liquid fermentation products, and the ethanol/acetic acid (mol/mol) ratio increased from 1.27 to 2.45 when the VLR increased from 28 to 44 kgCOD·m⁻³·d⁻¹, whereas the hydrogen composition decreased from 40.4% to 36.4%. The results suggested that the anaerobic contact reactor was a promising bioprocess for fermentative hydrogen production.     

基于积尘负荷的西安市铺装道路扬尘排放研究

近年来城市颗粒物污染问题日渐突出,严重影响着人们的环境幸福指数和对美好环境的期待.道路扬尘作为城市扬尘的重要组成部分,对颗粒物污染的贡献不容小觑.在此背景下,采用积尘负荷法采集西安市快速路、主干道、次干道、支路等4种类型25条道路的道路扬尘样品,并分析采样速率、采样次数等因素对采样效率的影响.在此基础上,计算得到西安市...     

深圳大气颗粒物中卤代多环芳烃污染研究

利用GC-MS方法分析了卤代多环芳烃在深圳市大气颗粒物(PM10和PM2.5)中的含量水平.所关注的9种卤代多环芳烃在PM10和PM2.5中的含量范围分别是118~1 476 pg·m-3和89~407 pg·m-3.在PM10和PM2.5样品中,9-Br Ant的含量水平最高,其次是7-Br Ba A和9,10-Br2Ant.深圳市大气PM10和PM2.5中卤代多环芳烃总含量水平表现出冬季秋季春季夏季的季节变化规律,但是各卤代多环芳烃单体含量水平的季节变化特征不同.温度、降水量和相对湿度等气象条件可能是影响大气PM10和PM2.5中卤代多环芳烃含量水平季节变化特征的重要因素.此外,PM10和PM2.5中卤代多环芳烃的含量水平与母体多环芳烃之间存在显著的相关关系.最后,本研究估算了卤代多环芳烃的毒性当量,大气PM10和PM2.5中卤代多环芳烃的毒性当量变化范围分别是17.6~86.2 pg·m-3和14.6~70.4 pg·m-3.其中,7-Br Ba A对卤代多环芳烃总毒性当量的贡献最大.结果表明深圳市大气PM10和PM2.5中卤代多环芳烃的总毒性当量低于母体多环芳烃.     

南京市大气细颗粒物(PM2.5)中硝基多环芳烃污染特征与风险评估

硝基多环芳烃是大气细颗粒物中具有致癌效应的一类重要污染物,为探明硝基多环芳烃污染特征与来源,采集南京市14个大气细颗粒样品,利用气相色谱-质谱联用仪（GC-MS）测定硝基多环芳烃浓度,进行分布特征分析,来源识别和健康风险评估.结果表明,南京市大气细颗粒物中2,8-二硝基二苯并噻吩（743 pg·m^-3）、2,7-二硝基芴（331 pg·m^-3）、9-硝基蒽（326 pg·m^-3）、3-硝基荧蒽（217 pg·m^-3）和1,8-二硝基芘（193 pg·m^-3）为主要的硝基多环芳烃;硝基多环芳烃检出浓度具有明显的季节变化,冬季最高（3082 pg·m^-3）,秋季其次（1553 pg·m^-3）,春季最低（1218 pg·m^-3）.南京市大气细颗粒物中硝基多环芳烃主要来自多环芳烃大气光氧化反应与生物质燃烧,二次生成是硝基多环芳烃的重要来源.当前南京PM_2.5中硝基多环芳烃的致癌风险可控,二硝基多环芳烃是致癌风险的主要来源.     

南京地区典型霾天气个例特征的比较分析

利用2011年南京大学城市大气环境观测站气象因子及污染物浓度资料、58238站点气象探空资料及NCEP再分析资料、CALIPSO卫星资料,比较分析了南京地区4类典型霾天气(烟花爆竹、沙尘、秸秆燃烧及不利气象条件污染)的污染特征.结果表明:烟花爆竹个例污染物排放集中,以细颗粒物为主,除夕和初五的PM2.5小时浓度分别达到0.46 mg·m-3和0.34 mg·m-3,受逆温层影响,能见度持续降低,最低达到1.16 km;受北方沙尘暴南下影响,沙尘个例以粗颗粒为主要污染物,PM10小时最高浓度为0.78 mg·m-3,PM2.5/PM10平均值为0.39,粒子形状不规则,体积偏退比为0.17;秸秆燃烧个例为重霾污染,能见度最低值为0.97 km,后向散射系数为0.0039 km-1獉sr-1,PM10和PM2.5最高小时浓度达到0.80 mg·m-3和0.49 mg·m-3,颗粒物主要来自南京东南地区秸秆的集中燃烧;不利气象条件导致的污染过程在冬季比较常见,下沉气流活跃,出现双层逆温,近地面静小风造成污染物积累,PM2.5与能见度的相关系数达到0.86,细颗粒物为主要污染物.可见,南京市霾天气可分为两类,分别是由不利气象条件导致的累积性污染和由高强度排放源造成的暴发性污染,具有不同的气象和污染特征.     

Technical feasibility study of an onshore ballast water treatment system

To fulfill the requirements of Guidelines for approval of ballast water management system (G8), a set of onshore ballast water treatment equipment utilizing micro-pore ceramic filtration (MPCF) and UV radiation (MPCF&UV) system was designed and set up with a maximum flow rate of 80 m³·h⁻¹. Technical feasibilities of MPCF&UV system were evaluated in three areas: removal efficiencies of indicator organism and oceanic bacteria, perdurability of a ceramic filter, and application on native seawater. The results showed that no indicator organism (Dunaliella) or oceanic bacteria was detected after treatment of 20 L MPCF and UV radiation at 1.3×10⁴ μW·s·cm⁻². A 20 L ceramic filter can run continuously for 5.3 h at the flow rate of 15 m³·h⁻¹ before its pressure drop up to 0.195 MPa. The removal percentage of total plankton amounts were 91.9% at a flow rate of 70 m³·h⁻¹ by 80 L MPCF and UV radiation at 1.3×10⁴ μW·s·cm⁻².     

Copper and zinc interaction on water clearance and tissue metal distribution in the freshwater mussel, Cristaria plicata, under laboratory conditions

Copper and zinc interaction on clearance from water and distribution in different tissues was investigated for the freshwater mussel, Cristaria plicata, under laboratory conditions. Clearance rate of Cu or Zn from water was highly dependent on exposure concentration. Interaction effect was most evident at 300 μg·L⁻¹ Cu exposure and depressed the Zn clearance rate significantly (p<0.05). However, the presence of 100 μg·L⁻¹ and 300 μg·L⁻¹ Zn hardly affected the Cu clearance rate. The 300 μg·L⁻¹ Cu presence enhanced Cu accumulation in each tissue most significantly (p<0.01), but caused Zn content to decrease in the gills by 62% (p<0.05), viscera by 49% (p<0.05) and foot by 31% (p<0.05), and increase in the mantle by 97% (p<0.05) and the muscles by 243% (p<0.05) for different Zn exposure treatments. The response of metal accumulation in various tissues of the test mussels indicated that Zn transferred from the gills, viscera and foot to the mantle and muscles might be one of the important characteristics of the Zn regulatory mechanism by leading to a narrow range of Zn concentration in the different tissues.     

兰州市PM2.5中多环芳烃的污染特征和来源解析

为了明确兰州市PM_2.5中16种多环芳烃（PAHs）的污染特征和来源,采集了兰州市4个季节的PM_2.5样品,运用气相色谱-质谱联用仪（GC-MS）对PAHs的浓度进行了分析,利用正定矩因子分解法（PMF）、聚类分析和潜在源因子分析法（PSCF）对PAHs的来源进行解析.结果表明,兰州市PM_2.5中ρ（PAHs）均值为：冬季［（118±16.2） ng·m^-3］>秋季［（50.8±21.6） ng·m^-3］>春季［（22.2±8.87） ng·m^-3］>夏季［（4.65±1.32） ng·m^-3］.相关性分析表明,兰州市PM_2.5和TPAHs均与温度呈现极显著的负相关性,与气压呈现极显著的正相关性,与风向、风速和相对湿度的相关性较差.各环PAHs在4个季节的占比相似,其中4环和5环的PAHs占比为最大,其次为6环和2~3环.兰州市PM_2.5中PAHs的主要来源在春夏季为工业排放和生物质及天然气燃烧,秋季工业排放占主导地位,冬季主要为燃煤排放,交通排放在4个季节的贡献比较稳定.聚类分析和PSCF计算结果表明,来自蒙古国、新疆东北部和青海等地的气流对兰州市环境空气质量有重要的影响.     

餐饮行业细颗粒物(PM2.5)排放测算方法:以上海市为例

以上海市餐饮企业为例,研究了餐饮企业PM_(2.5)排放特征以及排放测算方法.按照单位灶头、单位时间、单位就餐人次这3种计算基准,获得了不同类型餐饮企业PM_(2.5)的排放因子,并在此基础上结合2014年上海市餐饮企业活动水平测算了PM_(2.5)的排放清单.结果表明,餐饮企业排放PM_(2.5)的浓度范围0.1~1.8 mg·m~(-3),甚至超过国家饮食业标准中关于油烟1mg·m~(-3)的排放限值;PM_(2.5)中OC质量贡献超过50%,OC/EC比值的变化范围为58.8~752.3,平均值为128.4,可作为餐饮排放的示踪特征.企业规模是影响餐饮企业PM_(2.5)排放因子的重要因素.按照灶头活动、餐饮作业时间以及就餐人次这3种方法计算得出的餐饮企业PM_(2.5)排放因子均表明,大型、中型企业明显高于小型和微型企业(食堂、快餐).基于上述3种排放因子,计算2014年上海PM_(2.5)排放量相对一致,表明本研究获得基于3种活动水平的排放因子比较可靠,未来可应用于其他城市餐饮企业排放清单的核算.     

广西十万大山背景点PM2.5中非极性有机气溶胶组成及来源解析

大气细颗粒物(PM_2.5)中的非极性化合物包括多环芳烃（PAHs）和正构烷烃（n-alkanes）等,通常用于识别污染来源,且对人体健康和环境有很重要的影响.为探究广西背景点PM_2.5中非极性有机气溶胶的污染特征及来源,于2017年11月至2018年10月,对野外采集的PM_2.5样品分析了其中17种多环芳烃和20种正构烷烃.结果表明,多环芳烃和正构烷烃全年的平均值分别为（4.28±4.25）ng·m^-3和（13.7±14.72）ng·m^-3;季节变化规律均是：冬季[（7.86±5.19）ng·m^-3和（27.51±16.9）ng·m^-3]>春季[（2.73±1.76）ng·m^-3和（7.64±4.71）ng·m^-3]>秋季[（2.34±1.45）ng·m^-3和（7.01±4.55）ng·m^-3]>夏季[（1.91±1.67）ng·...     

Adsorption of fluoride on clay minerals and their mechanisms using X-ray photoelectron spectroscopy

This research investigates the adsorption mechanisms of fluoride (F) on four clay minerals (kaolinite, montmorillonite, chlorite, and illite) under different F⁻ concentrations and reaction times by probing their fluoride superficial layer binding energies and element compositions using X-ray photoelectron spectroscopy (XPS). At high F⁻ concentrations (C ₀ = 5–1000 mg·L⁻¹), the amount of F⁻ adsorbed (Q _F), amount of hydroxide released by clay minerals, solution F⁻ concentration, and the pH increase with increasing C ₀. The increases are remarkable at C ₀>50 mg·L⁻¹. The QF increases significantly by continuously modifying the pH level. At C ₀<5–100 mg·L⁻¹, clay minerals adsorb H⁺ to protonate aluminum-bound surface-active hydroxyl sites in the superficial layers and induce F⁻ binding. As the C ₀ increases, F⁻, along with other cations, is adsorbed to form a quasi-cryolite structure. At C ₀>100 mg·L⁻¹, new minerals precipitate and the product depends on the critical Al³⁺ concentration. At [Al³⁺]>10^−11.94 mol·L⁻¹, cryolite forms, while at [Al³⁺]<10^−11.94 mol·L⁻¹, AlF₃ is formed. At low C ₀ (0.3–1.5 mg·L⁻¹), proton transfer occurs, and the F⁻ adsorption capabilities of the clay minerals increase with time.     

Evaluate HAA removal in biologically active carbon filters using the ICR database

The effects of biologically active carbon (BAC) filtration on haloacetic acid (HAA) levels in plant effluents and distribution systems were investigated using the United States Environmental Protection Agency’s Information Collection Rule (ICR) database. The results showed that average HAA5 concentrations in all locations were 20.4 μg·L⁻¹ and 29.6 μg·L⁻¹ in ICR plants with granular activated carbon (GAC) and ICR plants without GAC process, respectively. For plants without GAC, the highest HAA levels were observed in the quarters of April to June and July to September. However, for plants with GAC, the highest HAA levels were observed in the quarters of April to June and January to March. This HAA level profile inversely correlated well with water temperature, or biologic activity. For GAC plants, simulated distribution samples matched well with distribution system equivalent samples for Cl₃AA and THMs. For plants with and without GAC, simulated distribution samples overestimated readily biodegradable HAAs in distribution systems. The study indicated that through HAA biodegradation, GAC process plays an important role in lowering HAA levels in finished drinking water.     

Observation of black carbon aerosol in Beijing,2003

The objective of this study was to determine the black carbon concentration in Beijing in 2003. The aerosol properties were measured using an Aethalometer and a tapered element oscillating microbalance (TEOM) on the roof of the Physics Building of Peking University (39.99° N, 116.31° E) from July to August 2003 and from November 2003 to January 2004. The average black carbon (BC) concentrations in the summer and winter were 8.80 and 11.4 μg/m³, respectively. During winter, two different cyclone cut offs were installed at the inlet of an aethalometer. The BC mass concentration in TSP, PM₁₀, and PM_2.5 were obtained. The results indicated that in winter aerosol, 90% of BC exited in PM₁₀ and 82.6% of BC exited in PM_2.5. The BC in PM₁₀ accounted for 5.11% of the PM₁₀ mass. Translated from Acta Scientiae Circumstantiae, 2005, 25(1): 17–22 [译自: 环境科学学报]     

苏州工业园区室内外颗粒物中多溴联苯醚污染特征及人体暴露水平

利用大流量主动采样技术在苏州市工业园区工厂车间、办公室、住宅区和风景区,采集PM₁₀样品,GC-MS测定PM₁₀中8种PBDEs的含量.室内PM₁₀中PBDEs总浓度范围为9.22~64.15 pg·m^-3（均值为20.93 pg·m^-3）,室外样品中PBDEs总浓度范围为1.06~8.44 pg·m^-3（均值为5.11 pg·m^-3）,室内含量显著高于室外含量.PM₁₀中∑₈PBDEs平均浓度从高到低顺序依次为工业车间、办公室、住宅区和室外大气,与其他地区室内外颗粒物含量相比,苏州室内外大气颗粒物中PBDEs都处于较低水平.室内外大气中BDE-209是最主要化合物（平均占总PBDEs的63%）,其次为BDE-99和BDE-47.车间员工、办公室员工和儿童的PBDEs日呼吸摄入剂量分别为3.75、2.78和2.60 pg·（kg·d）^-1,这表明苏州居民呼吸暴露PBDEs的潜在健康危害并不明显.     

梅雨期大学宿舍室内生物气溶胶浓度及粒径分布

大学宿舍室内生物气溶胶可通过空气传播,可能会危害学生身体健康.本研究调查了梅雨期大学宿舍室内生物气溶胶浓度和粒径分布特点,对其同空气颗粒物浓度、环境温度和湿度的Spearman相关性进行了研究,分析了学生活动对宿舍室内气溶胶的影响.结果表明,学生宿舍室内的细菌和真菌气溶胶平均浓度分别为(2 133±1 617)CFU·m~(-3)和(3 111±2 202)CFU·m~(-3),真菌气溶胶的浓度明显高于细菌.学生宿舍室内的PM1、PM_(2.5)、PM10与细菌气溶胶浓度呈负相关,与真菌气溶胶浓度呈显著负相关;PM_(2.5)与可吸入细菌气溶胶呈正相关,PM_(10)与可吸入真菌气溶胶呈正相关;环境温度与细菌和真菌气溶胶浓度呈正相关,环境相对湿度与细菌和真菌气溶胶浓度呈负相关.在下午,宿舍室内真菌气溶胶浓度显著增加,上午和下午生物气溶胶的粒径分布有差异.本研究结果将为评价高校学生宿舍室内空气质量提供基础数据.     

基于数值计算的细颗粒物采样管路传输损失评估

细颗粒物(PM_(2.5))理化性质测量是研究大气PM_(2.5)污染来源及成因的重要手段之一,最大限度降低细颗粒物在采样输送过程中的损失对提高测量结果的准确性至关重要.为了评估常规测量体系中采样管路内PM_(2.5)的输送损失情况,并在此基础上探究合适的采样管路布置方案,本研究采用数值计算方法分析了管径、管长及弯管数目这3个主要参数在不同变化范围内对PM_(2.5)输送效率的影响.结果表明,流量为20.0 L·min~(-1)时,管径4 mm、管长1.0 m的竖直管路内PM_(2.5)质量浓度输送效率为89.6%,管径增至14 mm时输送效率升至98.3%.流量为1.0 L·min~(-1)时,管径4 mm、管长10.0 m的水平管路内PM_(2.5)质量浓度输送效率仅为86.7%,管长降至0.5 m时输送效率提高至99.2%.弯管弧度为90°时,流量20.0 L·min~(-1)、管径4 mm的湍流态弯管处,PM_(2.5)质量浓度输送效率低至85.2%.流量(L·min~(-1))与管径(mm)之比小于1.4使管内流态为层流时有利于降低颗粒物输送损失.为保证PM_(2.5)输送效率在97%以上,2.5、5.0和10.0 L·min~(-1)仪器建议选择管长在6.0 m以内的竖直采样管;流量为16.7 L·min~(-1)和20.0 L·min~(-1)仪器建议选择管径在12 mm以上的竖直采样管;水平管路管长由流量与管径之比确定;在湍流流态下,建议减少弯管的使用数量.