Your search keyword '"Romeu J. Daroda"' showing total 2 results

1. The BIOREMA project—part 3: International interlaboratory comparison for bio-ethanol test methods

Author

Annarita Baldan, R. Hearn, Paul J. Brewer, Andrea Held, Manuela Ulberth-Buchgraber, Adriaan M. H. van der Veen, Hugo Ent, Richard J. C. Brown, Romeu J. Daroda, Michele M. Schantz, Brian E. Lang, and Valnei S. Cunha

Subjects

Reproducibility, Engineering, Measure (data warehouse), business.industry, General Chemical Engineering, Homogeneity (statistics), Comparability, Mechanical engineering, General Chemistry, Standard deviation, Test (assessment), Certified reference materials, Ethanol fuel, Safety, Risk, Reliability and Quality, business, Process engineering, Instrumentation

Abstract

The main objective of the reference materials for biofuel specifications (BIOREMA) project is the development of two test materials (one bio-ethanol material and one biodiesel material) with well-established reference values. Of a series of three papers, this part describes the material preparation, homogeneity study, stability study, and characterisation of the bio-ethanol material. The test material thus obtained was used in an interlaboratory comparison (ILC) to assess current practices and comparability amongst laboratories providing bio-ethanol testing services. Only 13 participants provided data, resulting in a small dataset for evaluation. Further, it appeared that for a number of laboratories, there was not sufficient material for the determination of all requested parameters. In most cases, as far as the data permit, it can be concluded that the consensus values (based on participant’s results) are in good agreement with the reference or the BIOREMA values (obtained by NMIs participating in the project). For three parameters, namely ethanol content, water content, and density, there is good agreement between the reference and consensus values. For these parameters, the reproducibility standard deviation is close to, or even smaller than, the expanded uncertainty associated with the reference value. A number of parameters show very poor reproducibility, for example, pHe, electrolytic conductivity, and acidity. The same applies to sodium and copper content, which are very low and therefore challenging parameters to measure accurately. The results of the ILC underpin the need for certified reference materials and demonstrate the requirement for more robust quality control to improve the precision and trueness of the results from testing laboratories.

Published

2013

2. The BIOREMA project—part 1: Towards international comparability for biofuel analysis

Author

Stephen A. Wise, Annarita Baldan, Valnei S. Cunha, Paul J. Brewer, Adriaan M. H. van der Veen, Richard J. C. Brown, Hugo Ent, Romeu J. Daroda, Michele M. Schantz, Andrea Held, Gavin O'Connor, and Manuela Ulberth-Buchgraber

Subjects

Engineering, 020209 energy, General Chemical Engineering, media_common.quotation_subject, 02 engineering and technology, 7. Clean energy, 01 natural sciences, 12. Responsible consumption, 0202 electrical engineering, electronic engineering, information engineering, Quality (business), Operations management, International System of Units, Safety, Risk, Reliability and Quality, Instrumentation, media_common, Biodiesel, business.industry, 010401 analytical chemistry, Comparability, General Chemistry, Manufacturing engineering, 0104 chemical sciences, Renewable energy, Certified reference materials, 13. Climate action, NIST, business, Quality assurance

Abstract

There is an increasing demand to accurately measure the quality of biofuel products (e.g. biodiesel and bio-ethanol). This demand is driven in Europe by directives promoting the use of renewable sources of energy and worldwide by national and international legislation setting out quality requirements for these fuels. Until now, there has been no international consensus on the minimum technical specifications to ensure biofuel quality. Furthermore, it is unclear which reference materials and measurement techniques are needed to provide the quality assurance and quality control framework to underpin these legislative requirements. As part of the European Commission’s 7th Framework Programme, the BIOREMA project (REference MAterials for BIOfuel specifications) demonstrated the feasibility of preparing biodiesel and bio-ethanol reference materials with reference values traceable to the international system of units for a range of parameters at levels relevant to technical specifications. However, the project concluded also that further research is needed to improve the current measurement capabilities for some parameters. Within the BIOREMA project, two global interlaboratory comparisons were carried out, using the biodiesel and bio-ethanol test materials prepared during the feasibility stage of the project, as well as two biodiesel standard reference materials from the National Institute of Standards and Technology (NIST, USA). The exercises showed that the measurement capabilities of the field laboratories were in many cases satisfactory, whereas for other laboratories the availability and regular use of certified reference materials would likely enhance the measurement capabilities for many of the parameters studied. A general overview of the BIOREMA project is presented in this paper. The details of the production of the two types of BIOREMA reference materials, and the results of the interlaboratory comparison for the bio-ethanol and biodiesel study materials, are discussed in parts 2 and 3 of this series of papers.

Published

2012