Experimental comparison of solid phase adsorption (SPA), activated carbon test tubes and tar protocol (DIN CEN/TS 15439) for tar analysis of biomass derived syngas

The quantification of aromatic higher hydrocarbons, so called tar compounds, is crucial for the assessment of gasification processes. The presented work compares three different sampling methods: solid phase adsorption (SPA), adsorption on activated carbon test tubes and DIN CEN/TS 15439 (‘tar-proto...

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Bibliographic Details
Published in:Biomass & bioenergy 2017-10, Vol.105, p.443-452
Main Authors: Neubert, Michael, Reil, Stefanie, Wolff, Martin, Pöcher, Daniel, Stork, Hildegard, Ultsch, Christoph, Meiler, Michael, Messer, Julian, Kinzler, Ludwig, Dillig, Marius, Beer, Stefan, Karl, Juergen
Format: Article
Language:English
Subjects:
Activated carbon test tubes
Analysis
DIN CEN/TS 15439
Solid phase adsorption (SPA)
Tar
Tar-protocol
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Summary:The quantification of aromatic higher hydrocarbons, so called tar compounds, is crucial for the assessment of gasification processes. The presented work compares three different sampling methods: solid phase adsorption (SPA), adsorption on activated carbon test tubes and DIN CEN/TS 15439 (‘tar-protocol’). Two different groups of operators have been sampling simultaneously in the raw syngas from a fixed-bed stratified upstream biomass gasifier in steady state operation The gathered analysis results offer the possibility to investigate the influence of sampling method, sampling equipment and operators collecting the samples. In total, 79 samples by adsorption and four wet absorption samples by DIN CEN/TS 15439 have been collected and analyzed in one single laboratory by gravimetrical analysis as well as gas chromatographic analysis of 22 tar species. In general, the gravimetric analysis of the wet samples showed much higher tar concentrations in comparison to the sum of GC calibrated species. The BTX concentration obtained by means of adsorption with activated carbon test tubes did neither match values from SPA nor DIN CEN/TS 15439 analysis. Moreover, the upper limit of the third quartile of a boxplot of SPA values coincides well with the arithmetic average of the DIN CEN/TS 15439 analysis. This underlines that SPA method offers potential for tar analysis in a similar manner as DIN CEN/TS 15439. •Overview of state-of-the-art tar analysis.•Elaborated analysis of a representative amount of samples of real biomass-derived syngas.•Application of gas chromatography for process control in gasification processes.•Quantitative assessment of SPA method and DIN/CEN TS 15439 method.•Validation of SPA method for tar analysis, which facilitates control of gasification process.
ISSN:0961-9534
1873-2909
DOI:10.1016/j.biombioe.2017.08.006