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Li Yuxin Zhong Mingqing He Xianzhi Zhang Ruoyu Fu Yu You Ruolan Tao Feiyan Fang Lei Li Yuanyuan Zhai Qingfeng 《Environmental science and pollution research international》2023,30(9):22176-22187
Environmental Science and Pollution Research - Titanium nanoparticles and pyrethroid pesticides are now being widely used in industrial, agriculture, and biomedical applications. In recent years,... 相似文献
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Chemical characteristics and sources of water-soluble organic aerosol in southwest suburb of Beijing
Ruolan Hu Qingcheng Xu Shuxiao Wang Yang Hu Noshan Bhattarai Jingkun Jiang Yu Song Kaspar R. Daellenbach Lu Qi Andre S.H. Prevot Jiming Hao 《环境科学学报(英文版)》2020,32(9):99-110
PM2.5 filter sampling and components measurement were conducted in autumn and winter from 2014 to 2015 at a suburban site (referred herein as “LLH site”) located in the southwest of Beijing. The offline aerosol mass spectrometry (offline-AMS) analysis and positive matrix factorization (PMF) were applied for measurement and source apportionment of water-soluble organic aerosol (WSOA). Organic aerosol (OA) always dominated PM2.5 during the sampling period, especially in winter. WSOA pollution was serious during the polluted period both in autumn (31.1 µg/m3) and winter (31.9 µg/m3), while WSOA accounted for 54.4% of OA during the polluted period in autumn, much more than that (21.3%) in winter. The oxidation degree of WSOA at LLH site was at a high level (oxygen-to-carbon ratio, O/C=0.91) and secondary organic aerosol (SOA) contributed more mass ratio of WSOA than primary organic aerosol (POA) during the whole observation period. In winter, coal combustion OA (CCOA) was a stable source of OA and on average accounted for 25.1% of WSOA. In autumn, biomass burning OA (BBOA) from household combustion contributed 38.3% of WSOA during polluted period. In addition to oxygenated OA (OOA), aqueous-oxygenated OA (aq-OOA) was identified as an important factor of SOA. During heavy pollution period, the mass proportion of aq-OOA to WSOA increased significantly, implying the significant SOA formation through aqueous-phase process. The result of this study highlights the concentration on controlling the residential coal and biomass burning, as well as the research needs on aqueous chemistry in OA formation. 相似文献
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引述了发电厂厂用电源切换的技术现状和原理,介绍了基于大功率固态开关的双电源快速切换装置的主要功能,并对装置的硬件、软件构成作了简要分析,通过现场安装测试,得出了其性能远优与同类产品这一结论。 相似文献
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对采自河西走廊东大山的青海云杉(Picea crassifolia)树轮样本提取纤维素并测定其稳定氧同位素比率(δ18O),建立过去205年来树轮δ18O年表序列。与观测数据相关分析发现树轮δ18O年表与周边7—8月平均水汽压具有显著的负相关关系(r=?0.643,n=59,p<0.001),因此重建了河西走廊东大山周边过去205年的7—8月平均水汽压变化序列,重建方程方差解释量达41.4%,分段检验表明水汽压重建结果稳定可靠。在重建的205年中,水汽压力偏大阶段有6个,偏低阶段有7个。该重建序列与周边地区的水文气候重建的干湿阶段变化及西北地区极端干旱历史事件具有一定的同步性,并可代表大区域范围水汽压变化,进一步证明了本文重建序列的准确性。空间相关分析结果暗示研究区7—8月水汽主要受亚洲季风影响,同时伴有少量西风水汽传输。 相似文献
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地球化学方法是了解地热系统特点、变化及起源的重要手段,合理开发利用地热资源的前提。基于咸阳地热田XY1地热井1999年与2017年两期水质资料、多年水温变化资料,参考其他学者在研究区取得的研究成果,综合分析了该热水井及区域地热流体地球化学因子的变化特征。根据地热水δD、δ18O、14C同位素分析,探讨了该地区地热水的起源及其同位素水文特征。结果表明:该热水井水温变化不大,水-岩平衡状态未改变,大部分离子组分浓度呈上升趋势,水质变差。水化学类型未改变,为Cl-Na型,其中多种水化学组分浓度达到一定标准,可作为医疗热矿水开发利用。研究区热储层以消耗静态储量为主,无现代降水补给。该井地下热水属于第四纪末次冰期北山山区海拔1200 m大气降水入渗成因,为混入古溶滤水的残存沉积水。建议生产过程中应采取地热水回灌措施,使地热资源开发具有可持续性。 相似文献
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藻类释放的异味化合物导致水体嗅味问题已成为世界性的水环境问题之一,引起了社会的广泛关注.通过室内实验,研究了磷(P)对8种常见微囊藻(Microcystis)释放异味物质—β-环柠檬醛(β-cyclocitral)的影响.结果表明,P对微囊藻生长及释放β-cyclocitral有较大影响,其中,中低P浓度(0~0.5 mg·L-1)有利于多数种类的微囊藻生长,但对藻类活性(Fv/Fm)的影响与叶绿素a(Chl-a)并不一致.铜绿微囊藻(Microcystis aeruginosa)释放β-cyclocitral的能力与P浓度成正比,也是常见微囊藻中β-cyclocitral产率(β-cyclocitral/Chl-a)最高的藻类,可达34.2 ng·μg-1, 其次为华美微囊藻(Microcystis elabens)达24.1 ng·μg-1,惠氏微囊藻(Microcystis wesenbergii)的β-cyclocitral产率最低,仅为0.21 ng·μg-1.数据分析表明不同种微囊藻,在不同P浓度下释放β-cyclocitral的巨大差异与其产率紧密相关,β-cyclocitral产率与藻类活性(Fv/Fm)紧密相关.结合文献报道的野外调查数据分析,同样表明在富营养化湖泊中随着P浓度的升高,铜绿微囊藻(Microcystis aeruginosa)释放β-cyclocitral增加,与室内实验结果一致.本研究通过室内实验,揭示了P对不同微囊藻生长和活性影响的差异,是造成不同微囊藻释放β-cyclocitral差异的重要原因, 得出P是调节微囊藻释放β-cyclocitral的重要因素,这对富营养化水体中异味物质的防治有重要意义. 相似文献
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