共查询到19条相似文献,搜索用时 93 毫秒
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针对室内空气家中的甲醛特点,对传统的乙酰丙酮分光光度法在采样时间、样品收集、采样流量等方面进行优化,优化后的空气质量测定方法提高了室内空气监测准确性、拥有简便性快捷性的特点。对某市12户住宅室内的甲醛含量进行了检测,其中8户住宅超过了国家室内空气质量标准GB/T18883-2002规定的甲醛质量浓度0.1 mg/m3。 相似文献
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试验研究试样冷冻期间搅拌对脆性温度测定结果的影响。结果表明:在其他试验条件不变的情况下,搅拌使胶料的脆性温度测定结果升高,且搅拌的速度越快,温升幅度越大;在用单试样法测定胶料的脆性温度时,试样冷冻期间不应启动搅拌器。 相似文献
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依据GB/T14074-2006《木材胶粘剂及其树脂检验方法》中3.16.2的试验方法来测定脲醛胶中游离甲醛含量,探讨测定温度、亚硫酸钠加入后溶液的搅拌时间、碳酸钠加入后溶液的反应时间对脲醛胶中游离甲醛含量的影响。结果表明:测定温度和亚硫酸钠加入后的搅拌时间对脲醛胶的游离甲醛含量有较大的影响,测定温度控制在0-5℃、搅拌时间控制在14~16min,游离甲醛含量测定结果的重现性好;而碳酸钠加入后溶液的反应时间对游离甲醛含量测定结果几乎没有影响。 相似文献
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室内空气中甲醛的快速测定 总被引:1,自引:0,他引:1
介绍了甲醛(HCHO)的理化特性、来源、毒理学研究和流行病学研究结果。通过对室内空气中甲醛不同测定方法的分析,选择了较为适宜的测定方法。研究了该方法氧化剂的选择、酸度、显色温度、显色时间与吸光度的关系、检测试剂的空白值,得到了该方法的灵敏度为2.7μg/吸光度、检出限为0.05μg/5 mL、方法的相对标准差为2.6%~4.2%、回收率为95%~103%等法特征和注意事项,找出了整个检测过程中质量控制方面的因素,提高了室内空气中甲醛检测的速度和质量。 相似文献
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本文通过对甲醛含量的测定,找出影响试验结果准确性因素,采取合理有效的质量控制,提高检验结果的准确性。 相似文献
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采用酚试剂比色法并合理使用甲醛测量装置对甲醛含量进行了测定,测量结果的精度能够达到装置标称的5%。该方法实用、可靠,可以满足客户要求,具有良好的社会效益。 相似文献
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研究了水样中所含甲醛对测定微量氨的影响情况,并采取了对水样酸性加热除甲醛的办法,消除了甲醛对测定微量氨的影响,提高了测定微量氨的准确度,测定结果的相对偏差从20%以上降至<1%以下。 相似文献
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按季度对室内甲醛进行监测,同步记录采样点温度。监测数据按季度进行统计分析,发现宾馆内甲醛释放浓度受温度影响显著(r=0.829),且二者年变化规律呈倒"V"型,峰值出现在第3季度;在一定的时间区间内,甲醛合格率年变化趋势呈正"V"型,第3季度甲醛合格率达到全年最低点,其与采样点温度之间呈极显著负相关(r=-0.941)。甲醛的释放具有很强的季节性,其释放周期应按年进行统计。 相似文献
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阐述了GB 18582-2001和GB 18583-2001标准中采用乙酰丙酮分光光度法测定游离甲醛含量的检测方法差异,主要包括乙酰丙酮的试剂要求、标准曲线的绘制、测定波长的选择和样品前处理等方面的差异。在详细分析两种检测结果差异原因的基础上,对两种测试标准进行改进,提出了适合水性涂料和水性胶粘剂中游离甲醛含量的测定方法;其线性范围为1~25μg,相关系数为0.9999;按照改进的测试方法,水性涂料和水性胶粘剂样品中甲醛含量的测定结果的相对标准偏差分别为1.9%和2.3%,平均回收率分别为94.2%和95.8%。 相似文献
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Owing to their widespread use in interior applications, PVC products are frequently discussed in studies of indoor air quality. This paper reports results from the study of products in use and also products based on laboratory formulations that incorporate both unnaturally high and low levels of ingredients that could volatilize into the indoor air, thus giving a worst and best case scenario in terms of indoor emissions. Both PVC wallcovering and PVC flooring formulations have been studied, and laboratory produced samples have been subjected to gas chromatographic analysis to determine both the chemical species and the concentrations at which these can be emitted in typical interior applications. In all cases, including the worst ones, the level of these species in the indoor air is well below the permitted interior levels for the species concerned. These results, plus some outline of the concern over indoor health, are presented. 相似文献
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吸附法技术成熟、操作简单、现有系统完善,且一次性固定投资小,被广泛应用于室内气相污染物的净化处理。本文简单综述了吸附法在净化室内甲醛方面的研究,从原生碳吸附剂、改性碳吸附剂、无机非碳基吸附剂和有机非碳基吸附剂几个方面介绍了不同类型吸附剂的研究现状,对比了吸附性能,简要介绍了甲醛与吸附剂表面的作用机理,并详细总结了影响吸附效果的主要因素。指出整体上改性碳吸附剂性能最优,其他类型吸附剂之间差异不大,并与商品吸附剂没有明显差别;吸附剂结构和表面物化性质是影响吸附效果的首要因素,其织构特征、表面酸碱性、表面含氧/含杂原子官能团以及表面第二相等均对吸附效果产生重要影响。评述了吸附条件如甲醛浓度、吸附温度和湿度、吸附剂粒径等同样影响最终吸附效果。 相似文献
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Engineered wood materials, such as the urea-formaldehyde resin adhesives used to make plywood, are known to be one of the primary sources of formaldehyde emissions in the building industry. This study presents the results of measuring indoor formaldehyde concentrations in newly built apartment buildings at the pre-occupancy stage for more than three years. Formaldehyde emissions from engineered wood materials used in floorings and furniture were measured using the small chamber method. Indoor formaldehyde concentrations were measured by following, for the most part, the procedure proposed by the Korean Ministry of Environment. These measurements verified that improving the engineered wood materials used in the apartment buildings had an effect on lowering the formaldehyde concentrations. The results showed apparent decrease in formaldehyde concentrations when low-emission engineered wood materials were used. Regardless of the absolute decrease, seasonal fluctuations in formaldehyde concentrations were also observed. It was assumed that these fluctuations were caused by changes in the indoor air temperature and relative humidity. Nevertheless, it will be necessary to conduct further studies to identify the factors causing the weak correlation of formaldehyde concentrations with the indoor air temperature and relative humidity in each housing unit. 相似文献