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生物气溶胶监测仪是利用激光或紫外光诱导生物粒子发射荧光,从而实现对空气中的生物气溶胶进行监测的仪器。目前,国内尚无生物气溶胶监测仪校准用标准物质和评价方法。以聚苯乙烯微球为核,通过Friedel-Crafts酰基化反应,研制出能够自身受激发产生荧光的聚苯乙烯(PS-PB)微球。PS-PB微球粒径分布的相对标准偏差为1.3%,严格单分散。通过雾化法发尘,将PS-PB微球应用于生物气溶胶监测仪的校准,计数误差在±10%以内。用校准后的仪器检测白色念珠菌(Candida albicans)发生的生物气溶胶和商品化的荧光微球发生的气溶胶,计数误差均与PS-PB微球计数误差接近。研究结果表明,PS-PB微球可作为标准物质用于生物气溶胶监测仪器的校准,基于雾化发尘的静态箱法校准装置可用于生物气溶胶监测仪的评价。 相似文献
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根据宁夏地区电力自助缴费终端运行现状,分析了终端日常运行中票据打印存在的问题,针对终端设备票据计数功能展开研究,对终端票据打印功能进行技术改进。应用结果表明:技术改进后,终端打印缺纸情况实现事前告警提醒功能,解决了终端设备运行中因缺纸无法正常打印的问题,对电力缴费终端应用和健康管理工作提供参考。 相似文献
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为了研究餐厨垃圾油脂中含有的长链脂肪酸(主要是油酸)对两相厌氧发酵中利用乙酸产甲烷过程的影响,采用中温(35±1)℃批式发酵,以浓度为10 g·L~(-1)的餐厨垃圾厌氧发酵产甲烷相出水为接种液,以乙酸为底物,考察了添加不同浓度油酸钠对累积甲烷产量、产甲烷古菌数量以及发酵过程中乙酸代谢和氢气分压的影响.结果表明:1产甲烷延滞期随油酸钠浓度增加而延长.2油酸钠浓度低于6.0 g·L~(-1)的处理组经过延滞期后乙酸代谢恢复正常,可以完全被转化为甲烷,且部分油酸钠也可被转化为甲烷;油酸钠浓度高于8.0 g·L~(-1)的处理组乙酸代谢受到严重抑制,只有少量甲烷生成;油酸钠生成中间代谢产物,且甲烷转化率为0.3油酸钠对厌氧发酵中产甲烷古菌有严重的抑制作用,产甲烷古菌数量大幅度减少是乙酸代谢过程受到抑制的主要原因.4油酸钠的添加量超过6.0 g·L~(-1)时,在发酵初期会引起产甲烷相中氢分压的升高,也证实了油酸钠对厌氧发酵的抑制作用. 相似文献
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春季是呼吸道传染病的多发季节,因受季节的影响容易引发某些呼吸道传染病的局部流行。如流感、流脑、流腮、风疹等。这些传染病虽然具有一定的传染性,但只要预防得当,完全可以控制它的传播流行。 相似文献
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Maud Leloup Rudy Nicolau Virginie Pallier Claude Yprmian Genevive Feuillade-Cathalifaud 《环境科学学报(英文版)》2013,25(6):1089-1097
This work aims at characterizing organic matter produced by an alga Euglena gracilis and a cyanobacteria Microcystis aeruginosa and assessing the evolution of its characteristics during growth. A culture medium was optimized. The species growth phases were monitored using both visible spectrophotometry and flow cytometry cell counting. Organic matter fractionation according to hydrophobicity and specific UV absorbance (SUVA) index were used to specifically characterize the produced algal organic matter (AOM). The AOM characteristics were both growth phase and species dependent. However, a similar evolution was observed. The hydrophilic fraction (HPI) was the major fraction whatever the growth phases and was almost the only one produced during lag and exponential phases. It represented around 75% of AOM during exponential phase and then decreased when the stationary phase appeared. It represented 46% and 60% of the AOM during late decline phase for the cyanobacteria and the alga respectively. The hydrophobic (HPO) and transphilic (TPH) fractions started to appear from the beginning of the stationary phase with more hydrophobic compounds coming from intracellular organic material of dying cells. HPO and TPH percentages still increased during the decline phase probably because of two additional processes: photo-dissolution and leaching of particulate organic matter from cells fragments. A comparison of AOM during late decline phase and natural organic matter (NOM) from Glane River (France) underlined that AOM was more hydrophilic and presented a lower SUVA for each fractions than NOM. However, the difference between NOM and AOM hydrophobicity narrowed during decline phase. 相似文献
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