CRITICAL APPLICATIONS OF SW 846 US EPA METHODS TO EVALUATION OF MARINE SAMPLES QUALITY

Technical evaluation of analytical data is of extreme relevance considering it can be used for comparisons with environmental quality standards and decision-making as related to the management of disposal of dredged sediments and the evaluation of salt and brackish water quality in accordance with CONAMA 357/05 Resolution. It is, therefore, essential that the project manager discusses the environmental agency`s technical requirements with the laboratory contracted for the follow-up of the analysis underway and even with a view to possible re-analysis when anomalous data are identified. The main technical requirements are: (1) method quantitation limits (QLs) should fall below environmental standards; (2) analyses should be carried out in laboratories whose analytical scope is accredited by the National Institute of Metrology (INMETRO) or qualified or accepted by a licensing agency; (3) chain of custody should be provided in order to ensure sample traceability; (4) control charts should be provided to prove method performance; (5) certified reference material analysis or, if that is not available, matrix spike analysis, should be undertaken and (6) chromatograms should be included in the analytical report. Within this context and with a view to helping environmental managers in analytical report evaluation, this work has as objectives the discussion of the limitations of the application of SW 846 US EPA methods to marine samples, the consequences of having data based on method detection limits (MDL) and not sample quantitation limits (SQL), and present possible modifications of the principal method applied by laboratories in order to comply with environmental quality standards.

Effects of catalyst load in Pt and Pb-based catalysts using formic acid oxidation as a model

In this paper, we discuss the effects of catalyst load with respect to carbon powder for several Pt and Pb-based catalysts, using formic acid as a model molecule. The discussion is based on electrochemical tests, a complete morphological investigation and theoretical calculations. We show that the Pt and Pb-based catalysts presented activity in formic acid oxidation at very low catalyst loads (e.g., 0.5% in respect to the carbon content). Physical characterisations demonstrate that the electrodes are composed of separated phases of Pt and lead distributed in Pt nanometric-sized islands that are heterogeneously dispersed on the carbon support and Pb ultra-small particles homogeneously distributed throughout the entire carbon surface, as demonstrated by the microscopy studies. At high catalyst loads, very large clusters of Pb(x)O(y) could be observed. Electrochemical tests indicated an increase in the apparent resistance of the system (by a factor of 19.7 Omega) when the catalyst load was increased. The effect of lead in the materials was also studied by theoretical calculations (OFT). The main conclusion is that the presence of Pb atoms in the catalyst can improve the adsorption of formic acid in the catalytic system compared with a pure Pt-based catalyst. (C) 2011 Elsevier B.V. All rights reserved.

Metodologia de avaliação metrológica da medição de energia para analisadores de desfibriladores e cardioversores

Neste artigo descreve-se uma pesquisa na qual se desenvolveu um analisador de desfibriladores e cardioversores e se executou sua avaliação metrológica, sendo apresentados os resultados obtidos. A avaliação das incertezas de medição do analisador foi realizada de acordo com as determinações da versão brasileira do EA-4/02 - Expressão da Incerteza de Medição de Calibração publicado pelo INMETRO. Os resultados obtidos mostraram-se adequados às exigências de exatidão determinadas pelas normas ANSI/AAMI DF2 (American..., 1996) e ANSI/AAMI DF80 (American..., 2003), tendo apresentado uma incerteza expandida relativa para as medições de energia igual a 1,0% no pior caso. Nesta pesquisa foi também realizada uma análise da incerteza definicional do processo de calibração utilizado e avaliou-se a capacidade do processo. Para os cálculos da capacidade do processo, foi determinado um erro máximo para as medições de energia igual a 5% ou 1,0 J, o que for maior. Este erro máximo é igual a 1/3 do erro máximo admissível para a energia entregue pelos desfibriladores, em outras palavras, é igual ao erro máximo admissível para um instrumento de medição pela Norma ANSI/AAMI DF2 (American..., 1996). Os resultados obtidos para a capacidade do procedimento de calibração mostraram-se adequados para as especificações de um analisador de desfibriladores e cardioversores, tendo obtido como resultado, no pior caso, um índice de capacidade Cm igual a 2,87, que é bem superior, portanto, a 1,0, sendo este o limite mínimo para que o procedimento seja considerado capaz de calibrar a medição de energia sem atribuir uma incerteza definicional demasiadamente grande.