DETERMINATION OF LEAD IN KEROSEN AND IN LUBRICATING OIL BY ANODIC STRIPPING VOLTAMMETRY USING BISMUTH-FILM ELECTRODE AND SAMPLE PREPARATION AS MICROEMULSION / DETERMINAÇÃO DE CHUMBO EM QUEROSENE E EM ÓLEO LUBRIFICANTE POR VOLTAMETRIA DE REDISSOLUÇÃO ANÓDICA USANDO ELETRODO DE FILME DE BISMUTO E MEIO MICROEMULSIONADO
AUTOR(ES)
ELIANE MONSORES MIGUEL
DATA DE PUBLICAÇÃO
2008
RESUMO
In the presente work, was developed an analytical method aiming the determination of lead in kerosen and in lubricating oil. Anodic redissolution voltammetry with a bismuth-film electrode was employed by measuring the analyte in the sample microemulsions. Square-wave scanning mode (SWV) was employed and the BiFE performance was compared to the one achieved using the static drop mercury electrode (HDME), the later a more traditional electrode for voltammetric analysis for metals. The optimization of the composition of kerosene microemulsion (ME) indicated best results, in terms of stability and analytical response, with 77% of 1-propanol , 13% of aqueous phase (5% concentrated nitric acid and 8% water) and 10% of sample (percent values in volume). For the lubricating oil, the ME composition was 80% of buthanol , 10% of aqueous phase (5% concentrated nitric acid and 5% water) and 10% of sample previously dissolved in xylene. In both cases, the nitric acid played a role as a source of electrolytes and in converting lead metallo-organic species in the inorganic form. After the optimization of experimental parameters, limits of detection were in the nmol L-1 range no matter the type of electrode employed. Recovery tests in certified reference materials (NIST 1085a) and in lead-fortified samples (either with inorganic and metallo-organic form) indicated recovered values between 98 and 100%. These results were confirmed by analyzing the same samples by electrothermal atomic absorption spectrometry. A study was also made to evaluate the measurement uncertainty sources and magnitudes of the voltammetric determination of lead and the impact of each of the sources in the combined uncertainty. As a result, the contribution of the preparation of solutions (samples and standards) was found to be the most relevant source of uncertainty, indicating the need for establishing alternative strategies for such procedures, aiming the minimization of the combined uncertainty. This work has demonstrated the viability of using microemulsions for eletroanalytical determination of metals in petroleum fractions.
ASSUNTO(S)
microemulsion oleo lubrificante microemulsao kerosene lubricating oil querosene
ACESSO AO ARTIGO
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