水样中有机磷的微波消解

采用微波消解系统对水样中有机磷进行消解,考察了消解时间、功率等不同实验条件对样品微波消解的影响;并将该法与总磷测定的常规消解方法进行了比较,结果表明,微波消解法简便、快速、准确、可靠     

进口与国产COD消解测定仪测定废水COD的比对研究

应用消解分光光度法,比对了一款进口仪器和一款国产仪器应用于实际水样中COD含量测定的差异性。通过精密度、回收率、方法比对等实验分析得出,2款仪器应用电热消解分光光度法测定COD,实验结果与国标回流滴定法的实验结果基本一致,无显著性差异,具有可比性,可广泛用于水质评价和环境监测。与国产仪器相比,进口测定仪具有较小的偏差,较高的回收率。国产测定仪偏差较大的原因主要在于其比色装置,而不是用于前处理的消解装置。比较分析了2款仪器的购买和使用经济成本,为广大企事业及科研单位选用COD消解测定仪提供了有价值的基础数据和参考建议。     

全自动石墨消解-原子荧光法测定土壤总汞

采用全自动石墨消解-原子荧光光度法对土壤总汞进行测定,确定最佳消解时间为1 h,消解液最佳用量为8.0 m L。方法在总汞质量浓度为0.2~2.0μg/L范围内具有良好的线性,相关系数为0.999 9,当取样量为0.500 0 g时,检出限为0.002 mg/kg;测定不同标准土壤样品总汞的结果均在保证值范围内,精密度为4.0%~7.0%,加标回收率为95.0%~108.5%;对甘肃省实际土壤及沉积物样品测定进一步验证了方法的适用性。该法适合大批量样品分析,对于提高工作效率有重要意义。     

黄河甘宁蒙段表层沉积物中总磷3种提取方法的比较

通过微波消解法、标准测试方法(SMT)和碱熔法分别测定了水系沉积物成分分析标准物质GBW07307a(GSD-7a)中的总磷(TP)含量,并分别采用3种方法对采集于黄河流域甘宁蒙段表层沉积物样品进行TP含量和样品加标回收率的测定。结果表明:测定标准物质的相对误差绝对值:微波消解法碱熔法SMT法;变异系数:微波消解法碱熔法SMT法。同时,微波消解法提取的表层沉积物TP含量的范围为634.3~909.2μg/g;SMT法TP含量的范围为627.1~889.5μg/g;碱熔法TP含量的范围为559.1~784.8μg/g。微波消解法的测定结果相对偏高,SMT法的测定结果相对偏低。样品加标回收率平均值:微波消解法SMT法碱熔法;变异系数:微波消解法碱熔法SMT法。综合测定标准物质中TP含量以及样品加标回收率实验结果的准确度和精密度,对于黄河甘宁蒙段表层沉积物,使用SMT法提取TP较优于微波消解法和碱熔法。     

过氯乙烯滤膜采样-酸消解-钼蓝光度法测定磷酸雾

建立了过氯乙烯滤膜采样 -酸消解 -钼蓝分光光度法测定磷化车间磷酸雾的监测方法。实验室模拟采样的捕集效率为 95 7%～ 99 1 %。单个实验室对含 5μg和 1 5μg样品进行多次测定 ,其相对标准差小于 5% ,样品加标回收率为 98 2 %～ 1 0 0 5% ,方法检测限为 0 0 0 7mg/m3。对标样测定 ,结果均在给定值范围内。用该法与等离子发射光谱法(ICP)对 5个样品进行比对测定 ,结果均令人满意。     

Treatment of digestate from a co-digestion biogas plant by means of vacuum evaporation: Tests for process optimization and environmental sustainability

Vacuum evaporation consists in the boiling of a liquid substrate at negative pressure, at a temperature lower than typical boiling temperature at atmospheric conditions. Condensed vapor represents the so called condensate, while the remaining substrate represents the concentrate.This technology is derived from other sectors and is mainly dedicated to the recovery of chemicals from industrial by-products, while it has not been widely implemented yet in the field of agricultural digestate treatment. The present paper relates on experimental tests performed in pilot-scale vacuum evaporation plants (0.100 and 0.025 m³), treating filtered digestate (liquid fraction of digestate filtered by a screw-press separator). Digestate was produced by a 1 MW_e anaerobic digestion plant fed with swine manure, corn silage and other biomasses. Different system and process configurations were tested (single-stage and two-stage, with and without acidification) with the main objectives of assessing the technical feasibility and of optimizing process parameters for an eventual technology transfer to full scale systems.The inputs and outputs of the process were subject to characterization and mass and nutrients balances were determined.The vacuum evaporation process determined a relevant mass reduction of digestate.The single stage configuration determined the production of a concentrate, still in liquid phase, with a total solid (TS) mean concentration of 15.0%, representing, in terms of mass, 20.2% of the input; the remaining 79.8% was represented by condensate. The introduction of the second stage allowed to obtain a solid concentrate, characterized by a content of TS of 59.0% and representing 5.6% of initial mass.Nitrogen balance was influenced by digestate pH: in order to limit the stripping of ammonia and its transfer to condensate it was necessary to reduce the pH. At pH 5, 97.5% of total nitrogen remained in the concentrate. This product was characterized by very high concentrations of total Kjeldhal nitrogen (TKN), 55,000 mg/kg as average.Condensate, instead, represented 94.4% of input mass, containing 2.5% of TKN. This fraction could be discharged into surface water, after purification to meet the criteria imposed by Italian regulation. Most likely, condensate could be used as dilution water for digestion input, for cleaning floor and surfaces of animal housings or for crop irrigation.The research showed the great effectiveness of the vacuum evaporation process, especially in the two stage configuration with acidification. In fact, the concentration of nutrients in a small volume determines easier transportation and reduction of related management costs. In full scale plants energy consumption is estimated to be 5–8 kWh_e/m³ of digestate and 350 kWh_t/m³ of evaporated water.     

环境生物样品预处理中的微波溶样技术

微波溶样是近年产生的一种崭新的有前途的样品预处理技术，本文评述这一技术在环境、生物样品消解方面的近期应用。     

微波消解法测定农药废水中的总磷

介绍了一种测定农药废水中总磷的新的预处理方法－微波消解法。其消解时间从传统法的40min缩短到8min，精确度和准确度与传统的消解法相比无显著性差异。     

微波消解法快速测定渗滤液化学需氧量

针对国标回流法测定化学需氧量消耗时间长,分析费用高等不足,研究了微波消解法测定垃圾渗滤液的试验方法.通过微波消解功率、消解时间、催化剂用量等试验,确定了微波消解测定渗滤液CODCr的最佳条件.该方法具有省时间、省试剂、准确度高等优点.     

低温短时水热预处理混合及初沉污泥的高温厌氧消化特性研究

以低温短时(90℃、30 min)水热预处理后的混合及初沉污泥为研究对象,分别进行了高温((55±1)℃)厌氧消化连续性试验.研究了该预处理条件下这两类污泥在水力停留时间(HRT)为20 d时的产气量、有机物分解率及物料平衡等,探讨了低温短时水热预处理对提高污泥厌氧消化性能的效果.结果表明:TS约为35 g·L-1的预处理混合污泥与初沉污泥经高温厌氧消化后,投加单位VS的产气量分别为(343.00±9.86)m L·g-1和(365.00±7.61)m L·g-1,VS去除率分别为38.9%和45.8%.COD物料平衡计算结果表明,混合和初沉污泥中分别有33.6%和43.9%的固体有机物被分解转化,生物气中CH4含量均在70%左右.