VALIDASI METODE UJI SENYAWA CYCLOHEXANE DI UDARA LINGKUNGAN KERJA DENGAN BERBAGAI MODIFIKASI METODE SECARA GAS CHROMATOGRAPHY MASS SPECTROMETRY

JURNAL TECHLINK Pub Date : 2022-03-19 DOI:10.59134/jtnk.v4i1.65

Mochamad Rodjulun Kaffah

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Abstract

Determination of the cyclohexane compound used refers to the National Institute of Occupational Safety and Health (NIOSH) method number 1500. Validation of the determination of cyclohexane in air samples of the work environment needs to be done due to modifications between them in different columns, glass columns 3.0 mx 2-mm , 20% SP-2100 on 80/100 mesh Supelcoport becomes Rtx-5MS column, the injector temperature difference, column temperature, detector temperature, and the test material used is cyclohexane pa to cyclohexane for gas chromatography, differences in measurements using FID detectors to spectrometer detectors mass. This experiment aims to ensure the performance of the cyclohexane determination method in the air sample of PT UP's work environment by gas chromatography mass spectrometry (GCMS) in accordance with the accepted method requirements set by PT. Unilab Prime. If all parameters meet the acceptance requirements, then this method can be used for routine analysis. Validation parameters carried out include linearity test, instrument detection limit (LDI), quantitation limit (LK), precision,accuracy, and strength of the method (robustness) using gas spectrometer mass chromatography. Based on the experimental results obtained by the value of the correlation coefficient linearity test (r) of 0.9998,% SBR for the precision test of 1.64%,% recovery obtained range of 89.26% - 105.35%. The instrument detection limit value is 0,0003mg / mL, the quantization limit is 0.0010mg / mL. Testing the strength parameters of the method (Robustness) produces cyclohexane concentrations in accordance with the accepted requirements of the working range of cyclohexane 0.5000mg / mL. Based on the test results obtained the performance of the cyclohexane determination method that has undergone modification in a sample of working air environment by gas chromatography mass spectrometry (GCMS) in accordance with the requirements set by thecompany so that it can be used for routine analysis in the PT Unilab Perdana environmental laboratory.

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检验工作环境中周期性化合物的方法与气体色谱谱的不同改进

测定所使用的环己烷化合物参照美国国家职业安全与卫生研究所(NIOSH)第1500号方法。验证空气中环己烷的测定工作环境样品由于需要在不同的色谱柱之间进行修改，玻璃柱3.0 mx 2-mm, 20% SP-2100上80/100目Supelcoport变成Rtx-5MS柱，进样器温度差异，柱温差异，检测器温度差异，并且测试材料是环己烷pa气相色谱法环己烷，测量时使用FID检测器到光谱仪检测器的质量差异。本实验旨在确保气相色谱-质谱法(GCMS)测定PT UP公司工作环境空气样品中环己烷的性能符合PT. Unilab Prime公司制定的公认方法要求。若所有参数均满足验收要求，则可采用该方法进行常规分析。进行的验证参数包括线性测试、仪器检出限(LDI)、定量限(LK)、精密度、准确度和方法强度(鲁棒性)。根据实验结果得到的相关系数线性试验值(r)为0.9998，% SBR为精密度试验的1.64%，%回收率为89.26% ~ 105.35%。仪器检测极限值为0.0003 mg / mL，检测方法的强度参数(鲁棒性)产生的环己烷浓度符合环己烷0.5000mg / mL工作范围的公认要求，根据测试结果得出经气相色谱-质谱法(GCMS)修改后的环己烷测定方法在工作空气环境样品中的性能符合公司规定的要求它可以用于PT Unilab Perdana环境实验室的常规分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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