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In contrast to a conventional fuel cell the electrons in a microbial fuel cell (MFC) originate from the metabolic conversion of organic substrates by special bacteria instead of using molecular hydrogen. Recent research in our group has shown that the maximum electrical power density in a MFC correlates with the biomass concentration in batch MFC experiments. In continuous MFC systems additionally the dilution rate D could have an effect on the specific power density. Therefore two steady state conditions are adjusted and the resulting specific power densities, and the biomass and substrate concentrations were measured. These results were implemented in a mathematical description of the continuous MFC-process and the visualization of the model is presented.
The identification and quantification of compounds in the gas phase becomes of increasing interest in the context of environmental protection, as well as in the analytical field. In this respect, the high extinction coefficients of vapours and gases in the ultraviolet wavelength region allow a very sensitive measurement system. In addition, the increased performance of the components necessary for setting up a measurement system, such as fibres, light sources and detectors has been improved. In particular the light sources and detectors offer improved stability, and the deep UV performance and solarisation resistance of fused silica fibres allow have been significantly optimized in the past years. Therefore a compact and reliable detection system with high measuring accuracy is developed. Within this paper possible applications of the system under development and recent results will be discussed.