冲缝筛管结垢速率模拟研究*

为对防砂过程中因地层物性影响而导致冲缝筛管出现结垢问题进行准确的过程分析,基于FLUENT平台利用现场数据建立流道中的化学反应和沉积结垢的数值模型,评估管道缝宽、环境压力、温度、离子浓度与流速对冲缝筛管结垢速率的影响规律。结果表明:筛管结垢速率与管内温度和离子浓度成正相关,与管内流体流速成负相关,但环境压力影响不大,同时结垢主要产生在冲缝台阶以及冲缝套与打孔基管的接触面上,对产液的过流面积存在较大影响;结合正交分析得到4个敏感因素的主次顺序为:管内温度、管内流速、反应物浓度、环境压力,并确定最小结垢的组合方案;通过DPM模型探究CaCO3颗粒的沉积规律,得到管内的沉积情况,并建立多因素垢层厚度的计算模型。在实际生产中为降低筛管结垢对油井产能的影响,可以通过降低管内的温度、离子浓度及适当地增大流速来抑制结垢过程的发生。     

A preliminary study on pollution characteristics of surfactant substances in fine particles in the Beibu Gulf Region of China

The pollution characteristics of surfactant substances in fine particles (PM_2.5) in spring were studied in the Beibu Gulf Region of China, 68 samples of PM_2.5 were collected at Weizhou Island in Beihai City from March 12 to April 17, 2015. The Anionic Surfactant Substances (ASS) and Cationic Surfactant Substances (CSS) in the samples were analyzed using Byethyl Violet Spectrophotometry and Disulfide Blue Spectrophotometry, respectively. Combined with the data from backward trajectory simulation, the effects of air pollutants from remote transport on the pollution characteristics of surfactant substances in PM_2.5 in the Beibu Gulf Region were analyzed and discussed. The results showed that the daily mean concentrations of ASS and CSS in spring in the Beibu Gulf Region were 165.20 pmol/m³ and 8.05pmol/m³, and the variation ranges were 23.21–452.55 pmol/m³ and 0.65–31.31 pmol/m³, accounting for 1.82‰ ± 1.65‰ and 0.12‰ ± 0.11‰ of the mass concentration of PM_2.5, respectively. These concentrations were lower than those in comparable regions around the world. There was no clear correlation between the concentrations of ASS and CSS in PM_2.5 and the mass concentrations of PM_2.5. Tourism and air transport had a positive contribution on the concentrations of ASS. The concentration of surfactant substances in PM_2.5 was significantly impacted by wind speed and wind direction. Atmospheric temperature, air pressure and precipitation had little effect on the concentrations of surfactant substances. Surfactant substances in PM_2.5 significantly impacted visibility. Results also showed that the main sources of surfactant substances were from the southern China and Southeast Asia.     

Size distribution and anthropogenic sources apportionment of airborne trace metals in Kanazawa, Japan

Aerosol samples were collected from Kanazawa, Japan to examine the size distribution of 12 elements and to identify the major sources of anthropogenic elements. Key emission sources were identified and, concentrations contributed from individual sources were estimated as well. Concentrations of elements V, Ca, Cd, Fe, Ba, Mg, Mn, Pb, Sr, Zn, Co and Cu in aerosols were determined with ICP-MS. The results showed that Ca, Mg, Sr, Mn, Co and Fe were mainly associated with coarse particles (>2.1 μm), primarily from natural sources. In contrast, the elements Zn, Ba, Cd, V, Pb and Cu dominated in fine aerosol particles (<2.1 μm), implying that the anthropogenic origin is the dominant source. Results of the factor analysis on elements with high EF_Crust values (>10) showed that emissions from waste combustion in incinerators, oil combustion (involving waste oil burning and oil combustion in both incinerators and electricity generation plants), as well as coal combustion in electricity generation plants were major contributors of anthropogenic metals in the ambient atmosphere in Kanazawa. Quantitatively estimated sum of mean concentrations of anthropogenic elements from the key sources were in good agreement with the observed values. Results of this study elucidate the need for making pollution control strategy in this area.     

Trace elements in atmospheric particulate matter over a coal burning power production area of western Macedonia, Greece

Total suspended particle (TSP) concentrations were determined in the Eordea basin (western Macedonia, Greece), an area with intensive lignite burning for power generation. The study was conducted over a one-year period (November 2000–November 2001) at 10 sites located at variable distances from the power plants. Ambient TSP samples were analyzed for 27 major, minor and trace elements. Annual means of TSP concentrations ranged between 47 ± 33 μg m⁻³ and 110 ± 50 μg m⁻³ at 9 out of the 10 sites. Only the site closest to the power stations and the lignite conveyor belts exhibited annual TSP levels (210 ± 97 μg m⁻³) exceeding the European standard (150 μg m⁻³, 80/779/EEC). Concentrations of TSP and almost all elemental components exhibited significant spatial variations; however, the elemental profiles of TSP were quite similar among all sites suggesting that they are affected by similar source types. At all sites, statistical analysis indicated insignificant (P < 0.05) seasonal variation for TSP concentrations. Some elements (Cl, As, Pb, Br, Se, S, Cd) exhibited significantly higher concentrations at certain sites during the cold period suggesting more intense emissions from traffic, domestic heating and other combustion sources. On the contrary, concentrations significantly higher in the warm period were found at other sites mainly for crustal elements (Ti, Mn, K, P, Cr, etc.) suggesting stronger influence from soil resuspension and/or fly ash in the warm months. The most enriched elements against local soil or road dust were S, Cl, Cu, As, Se, Br, Cd and Pb, whereas negligible enrichment was found for Ti, Mn, Mg, Al, Si, P, Cr. At most sites, highest concentrations of TSP and elemental components were associated with low- to moderate-speed winds favoring accumulation of emissions from local sources. Influences from the power generation were likely at those sites located closest to the power plants and mining activities.     

对喷流除尘技术在收集硫酸铵和硝酸铵粉尘中的应用研究

对喷流除尘技术利用粉尘颗粒在撞击区内来回振荡、相互碰撞并团聚的机理进行除尘.实验采用水平式对喷流除尘系统收集硫酸铵和硝酸铵的混合物粉尘,主要考察喷嘴气流速度、含尘浓度和喷雾化水润湿含尘气流对除尘效率的影响,并进行机理分析.实验表明,除尘效率随喷嘴风速的增大而升高,但喷嘴风速超过25～27 m/s后,反而下降;除尘效率随含尘浓度的增加而升高,但含尘浓度超过0 45～0.55 kg/m3后反而有所降低;喷雾化润湿含尘气流能显著提高除尘效率,最优耗水量为0.18～0.22 kg/kg粉尘,超过该值后无显著变化.实验确定的最优除尘条件为:喷嘴速度25～27 m/s、含尘浓度0.45～0.55 kg/m3、耗水量0.18～0 22 kg/kg粉尘,除尘效率最高可达96.8%.     

铝粉尘云燃烧火焰形态分析实验研究

为探索铝粉尘云燃烧火焰形态和灾变演化,基于改造的竖直开口实验管道,借助高速摄像仪和离子探针,研究火焰结构及变化,分析粒径因素对铝粉火焰前锋形态的影响.实验结果表明:铝粉燃烧能量的释放和空间束缚使燃烧转为爆燃,火焰前锋下方存在大片的燃烧反应区;铝粉粒径越小,颗粒氧化层破裂需要的热应力越小,越容易被点燃;随着铝粉粒径减小,...     

北京市冬春季大气颗粒物的粒径分布及消光作用

2004年1─5月,在北京市区连续监测了大气环境中ρ(PM₁₀₎,ρ(PM_2.5),ρ(PM₁)和ρ(TSP),以及大气能见度、地面气象要素.结果表明:春节期间颗粒物中细粒子所占的比例较高,ρ(PM₁)/ρ(PM_2.5)为0.81,ρ(PM10)/ρ(TSP)为0.61;而沙尘期其值分别为0.55和0.28.不同粒径的颗粒物质量浓度均呈在明显日变化,其夜间浓度峰值高于早晨交通繁忙时段.根据经验公式,将大气能见度换算为大气消光系数,并导出颗粒物消光系数.结果表明:颗粒物消光系数与颗粒物质量浓度呈显著正相关.进一步定义了颗粒物质量浓度消光比(CE_P),用来表征颗粒物的污染特征.统计分析结果表明:当CE_P<103时,颗粒物质量浓度很低,PM_2.5所占比例较高,代表了有利于污染扩散的气象条件;当CE_P>167,颗粒物质量浓度高,但细粒子比(ρ(PM_2.5)/ρ(PM₁₀₎)稳定在0.5～0.7,湿度也稳定在20%～50%,代表了不利于污染扩散的气象条件.      

海南东部河流、河口及近岸水域颗粒态重金属的分布及污染状况

2008年7月对海南万泉河、文昌/文教河河口及东部近岸悬浮颗粒态金属的分布进行调查,采用ICP-AES测定Al、Fe、Mn、Cr、Cu、Ni、V、Zn的含量,探讨颗粒态重金属的组成及其影响因素,初步分析了海南岛东部河流的污染状况.结果表明,受颗粒物粒径影响,河口区颗粒态金属浓度先随盐度升高而后逐渐降低,至东部近岸含量略有升高;以Al为校正因子归一化消除颗粒粒径影响后,重金属浓度在万泉河河流/河口分布均匀,而在文昌/文教河河流/河口有较大变化.富集因子计算结果显示,万泉河重金属污染较轻,而文昌/文教河Cr、Ni相对富集,污染严重.在影响颗粒态重金属组成的因素中,颗粒物的来源占主导地位,同时也受水体氧化还原环境及污水排放、生物活动的影响.     

深圳湾水域中重金属在不同相间的分布特征

在深圳湾水域采集沉积物、上覆水和悬浮颗粒物样品开展重金属污染研究。结果表明，表层沉积物中金属浓度呈上升趋势，尤其是锌。湾内沉积物中锌、镉、钴和镍的可交换态比例明显高于湾外，体现了沿岸污染径流输入的影响。悬浮颗粒物与表层沉积物之间的物质交换和再分配导致两相间金属浓度显著相关，从湾内向湾外，铜、镍锌的浓度梯度在异相间表现出相似的空间变化模式。     

银川地区大气颗粒物输送路径及潜在源区分析

利用Traj Stat软件和全球资料同化系统数据,计算了2014—2016年银川市逐日72 h气流后向轨迹,并采用聚类分析方法,结合银川市同期PM~(10)和PM~(2.5)质量浓度数据,分析了银川年及四季气流轨迹特征及其对银川颗粒物浓度的影响.同时,运用潜在源贡献因子分析法(PSCF)和浓度权重轨迹分析法(CWT),探讨了影响银川颗粒物质量浓度的潜在源区及不同源区对银川颗粒物质量浓度的贡献.结果表明,输送距离最长、高度最高、移速最快的西北气流轨迹占总轨迹的比例最高,达66.7%,且气团移动速度和高度与轨迹距离呈正比;输送高度较低、距离最短、移速最慢的北方气流轨迹占总轨迹数的24.3%;东南气团占总轨迹数的9%,输送距离和移速介于前两者之间,但输送高度较西北气流和北方气流低.四季各类气流轨迹变化特征与年变化特征基本一致,春、秋、冬三季,中、短距离西北气流占气流轨迹总数的比例最高,夏季东南气流占比最高,且夏季南方气流和北方气流占比较春、秋两季高,冬季未出现南方气流和北方气流,春季和冬季气流轨迹输送距离普遍比夏季和秋季长;春、夏、秋三季,偏南气流的输送高度均最低,四季长距离西北气流的输送高度均最高.年及四季都表现为西北气流轨迹对应的银川PM_(10)和PM_(2.5)平均浓度均较高,是影响银川颗粒物质量浓度的最重要输送路径,其次是东南气流轨迹,北方气流轨迹对银川颗粒物浓度影响较小.PSCF和CWT分析发现,位于新疆、甘肃、蒙古国、内蒙古、青海的西北源区及四川、陕西的东南源区是影响银川PM_(10)和PM_(2.5)浓度的两个主要潜在源区,各季节区域范围有所差异.