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磷, NOx

磷, NOx. 安 排. 预习时: 清洗实验 2.11 磷测定 ( 快速消解法 ) 所需器皿。 采集实验 3.2 大气 NOx 样品,清洗 3.2 所需器皿。 考虑 2 周后的自主实验。 实验: 上午,磷的测定,考试实验。 下午,测定大气 NOx 。. 2.11. Determination of Orthophosphates. Purpose:

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磷, NOx

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  1. 磷, NOx

  2. 安 排 预习时: • 清洗实验2.11磷测定(快速消解法)所需器皿。 • 采集实验3.2大气NOx样品,清洗3.2所需器皿。 • 考虑2周后的自主实验。 实验: • 上午,磷的测定,考试实验。 • 下午,测定大气NOx。

  3. 2.11. Determination of Orthophosphates Purpose: • To understand the principles of determination of orthophosphate, and to master one of the sample pretreatment methods, oxidative digestion. • To get familiar with the operation of UV-Vis spectrophotometer.

  4. Sample Filter (through 0.45μm membrane) Digestion Total phosphorus Residue Solution Digestion • Dissolved Orthophosphate Dissolved Total Phosphorus

  5. Samples: • Diluted organophosphorous pesticide waste water • One blank and one sample for each student.

  6. Method principle • Phosphoantimonylmolybdenum blue method • Maximum absorbance wavelength at 700-900 nm. • Calibration curve for quantification. • Digestion to get total phosphates.

  7. Procedure 1. Digestion diluted waste water + oxidizing reagent 160℃ for 15min 2. Color development transferring, adding reagents, preparing calibration curve 3. Detection 700 nm, water as the reference

  8. Questions • Should the solutions of the calibration curve be digested as the samples? And why? • Yes. • Do we need to add the color developing reagents accurately? • Yes.

  9. 3.2. Determination of Nitrogen Oxides (NOx) Purpose: • To understand the principle of determination of NOx, • and to grasp the method of NOx determination and the use of spectrophotometer; • as well as to master one of the air sampling methods, solution absorption.

  10. Method principle • NO2 in the air is dissolved in the absorbing solution and forms nitrous acid. • Nitrous acid reacts with sulfanilic acid, then couples with N-(1-naphthyl)-ethylenediamine dihydrochloride and forms rose-colored azo dye. • The determination of azo dye is carried out at 540 nm.

  11. Air CrO3 Drying Pump Waste Bottle Soln NOx = NO + NO2 + N2O

  12. Production of NOx in the lab 3 Cu + 8 HNO3(diluted) = 3 Cu(NO3)2 + 2 NO + 4 H2O Cu + HNO3 = Cu(NO3)2 + 2 NO2 + 2 H2O 4 HNO3 + (heat) = 4 NO2 + 2 H2O + O2

  13. Procedure • Collect the sample 2. Prepare the calibration curve 3. Detection at 540 nm

  14. Additional Questions • What are the possible factors to cause the method blank? • Is the NOx level you determined within the normal range?

  15. calculation • NOx (μg/m3) = Calibration curve: Y = bX + a Here, Bs = 1/b; A0 = a

  16. 什么是空白 包括现场空白、仪器空白和方法空白。以水样为例。 • 现场空白:在采样现场带上纯水。经历与其他样品相同的采集、储存、运输、分析全过程。 • 仪器空白(溶剂空白):不含目标物的水或溶剂为样品,经历仪器分析的全过程。 • 方法空白(样品制备空白) :不含目标物的水或溶剂为样品,经历样品预处理和仪器分析的全过程。

  17. 空白值只能说明是否玷污,不能说明玷污有多少。空白值只能说明是否玷污,不能说明玷污有多少。 测定结果能不能扣除空白? • 如果用的是工作曲线法,分光光度测定中可以扣除空白。 • 如果是单点测定,一般不宜扣除空白。除非测定20次,且偏差在允许范围内。 • Excel“趋势线格式”中选择截距不为零。

  18. 空白 • 空白值指试剂经过同样的样品处理后的吸光值,即被测物浓度为零的样品吸光值。 • 空白有化学意义,用于检验试剂的纯度和样品处理过程的玷污程度。 • 报告数据时必须报告空白值。 * 偏差 * * * * * * * * *

  19. 工作曲线是否可以过原点? • 试剂在工作曲线的其他点的溶液中同样存在,量也一样,处理过程一样,因此空白应当成为工作曲线上的一个点。空白所在的点不等于原点。没有理由要求工作曲线通过每一个点。 * 偏差 * * * * * * * * *

  20. 可以在样品测值中扣除空白的吸光值,即使工作曲线平移。但工作曲线不应强求过原点。可以在样品测值中扣除空白的吸光值,即使工作曲线平移。但工作曲线不应强求过原点。 • 如果以空白做参比,则无法得知试剂的污染程度。即使以空白做参比,工作曲线仍然不应强求过原点。 * * * * * * * * * *

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