Ingenieurwissenschaften und zugeordnete Tätigkeiten
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Eingeladener Vortrag
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Saprotrophic basidiomycetes decompose wood in aerobic environments and can cause economic damage. The availability of nitrogen is determining for decomposition, and diazotrophic bacteria might enhance the nitrogen availability by fixation of atmospheric N2. Simultaneous decomposition by basidiomycetes and diazotrophs may intensify decomposition, because N2 fixation requires ATP, which could be provided during cellulose decomposition. In this study, the interaction was analysed by measurements of the nitrogen content and the δ15N values in biomass. Besides, the activity of basidiomycetes, influenced by different nitrogen sources, was determined. The analysis of the nitrogen content in biomass of Oligoporus placenta and Trametes versicolor proved the efficient uptake of organic nitrogen by wood-decomposing fungi even if only traces were available. In the presence of urea and ammonium chloride, the growth of T. versicolor was intensified. At cultivations in a 15N2/O2 atmosphere, the diazotrophic bacteria Azotobacter croococcum, Beijerinckia acida and Novosphingobium nitrogenifigens covered 1 to 13% of the nitrogen in their biomass by N2 fixation. If basidiomycetes and diazotrophs were co-cultivated, only B. acida fixed N2 and transferred it to both fungi. A. croococcum and N. nitrogenifigens did not coexist with the fungi. The effects of the nitrogen sources, i.e., organic nitrogen in the medium, organic nitrogen in sapwood and N2 from air, on the biomass of the mentioned basidiomycetes were determined in experiments according to full-factorial experimental plans. Organic nitrogen in the medium increased the growth of both basidiomycetes significantly. In additional experiments, the nitrogen source in the medium was replaced by an inoculum of B. acida. Then, atmospheric N2 supported the bacterial growth, which caused a significant decrease of basidiomycetal biomass compared to N2-free conditions. The presence of B. acida increased the biomass of T. versicolor to a low extent, but had no effect on the biomass of O. placenta. In contrast to the previously mentioned organisms, Hypholoma fasciculare and proteobacteria occur together in nature. In experiments, the growth of biomass of H. fasciculare and proteobacteria was supported by organic nitrogen, urea and ammonium chloride. The N2 fixation of the bacteria was significant but amounted to a low extent and was therefore explained by adsorption and not by nitrogenase activity. Competition between H. fasciculare and proteobacteria for the same nitrogen sources appeared more probable than N enrichment by diazotrophic activity.
Up to now only little knowledge has been recorded about the fire behavior and flame retardancy of wood-plastic composites (WPCs). The use of WPCs has increased continuously in recent years. Especially in their main field of application as a decking material, WPCs present a big share of the market. To date no flame-retarded solution has been introduced for WPC materials that fulfils the necessary requirements. But flameretarded materials are indispensable, especially for indoor use and the protection of escape routes. In this study basic knowledge about the fire behavior of WPCs is investigated first. Second, the effectiveness and mode of action of different flame-retardant additives is investigated. Special attention is drawn to products made of WPC material. Therefore WPC was further investigated in its main field of application as decking boards. The fire behavior of materials and products was investigated by means of cone calorimeter measurements as well as radiant panel tests. Furthermore numerical simulations were carried out to study the effects of various thermal material properties on burning behavior. Thermal decomposition was studied using thermogravimetric methods and spectroscopic investigations. Against this background, models for thermal decomposition pathways were built for combinations of WPC material with different flame retardants. WPCs show burning behavior similar to that of pure wood samples with an increased heat release rate due to polymeric fractions. It is shown that all investigated flame retardants had a positive effect on the burning behavior of WPCs. The best results were achieved by the flame retardants ammonium polyphosphate, Paxymer and expandable graphite. Especially in combination with red phosphorus, expandable graphite was highly effective because red phosphorus stabilized formed residue. Apart from the influence of flame retardants, other influencing factors like geometry and moisture content also played an important role concerning the flame retardancy of WPC decking boards. Indeed, hollow decking boards offer a reduced amount of combustible material, but their flame spread is increased in comparison to solid samples.
Ionic Liquids (ILs) are employed in various fields, for example, reaction engineering (reactions with gases, such as hydroformylation (CO, H2), hydrogenation (H2), oxidation (O2)) or separation technology (separations of gases, reactants, and high-volatility reaction products). For the basic engineering of such processes, knowledge of phase equilibria, particularly of mixtures, over a broad (p,T) range is mandatory. This contribution reports on recent experimental results from our laboratory: – for the simultaneous solubility of a binary gas mixture in a pure ionic liquid – for the solubility of a single gas in a binary liquid solvent mixture.
Meteorites are a unique and inspiring material for microstructural studies because if their very specific genesis. Iron meteorites have been formed under unimaginable cooling rates of a few ten Kelvins per million years so that the observable transformation of the formerly huge Fe-Ni single crystals of taenite occurred under nearly-equilibrium conditions. Octahedrites (meteorites having a Ni content between 6...15%) are characterized by ribbons of the low-temperature Fe-Ni phase kamacite separated by rims of residual taenite. This very specific feature is known as Widmanstaetten structure and has been investigated by synchrotron radiation in order to cover a higher volume fraction for a statistically relevant description of orientation relationships. However, plessite – a microstructure mainly consisting of the same phases – reflects the orientation relationship between kamacite and taenite as well. For their characterization, a scanning electron microscope is very suitable in order to investigate crystal orientations or identify phases. Despite the apparently ideal formation circumstances of iron meteorites, Ni concentration profiles prove non-equilibrium conditions. Combined EDS (energy dispersive spectroscopy) and EBSD (electron backscatter diffraction) measurements at a selected plessitic region of the Cape York iron shows that a correlation exists between Ni-concentration and the locally detected orientation relationship.
Automotive brake pads consist of many components but it is still not entirely clear which role each of the elements of this complex composition plays to provide the specified regimes of sliding. This is due to the mutual interaction of multiscale mechanisms, realized during the friction.
In this work we have attempted to partly answer this question using computer simulations. Since the simulation allows us to consider various combinations of the structure of the system being simulated ceteris paribus, it becomes possible to understand the role of each constituent sequentially. The main attention is paid to the structure and composition of the thin film that forms on the surface of both bodies as a result of compaction of the wear product, its chemical composition and oxidation. This layer, also named a third body or friction film, differs in composition and microstructure from the two first bodies. We considered a single contact for the steady state sliding when the structure and composition of friction films already are formed. As a modelling tool we used the method of movable cellular automata, which has well proven itself in solving of such tasks. We investigated the influence of modification of the structure and composition of the third body on the features of system behaviour at friction. To assess the adequacy of the numerical model, experimental studies with an artificial third body were also carried out. The Simulation results are in good agreement with experimental data.
A simple and efficient method of preparing composites of carbon nanotubes and titania (CNT-TiO2) is reported via a microwave-assisted synthesis in an ionic liquid, [bmim][BF4]. CNT-TiO2 nanocomposites were formed by the thermal decomposition of titanium (IV) isopropoxide (Ti(OPri)4) in the presence of CNTs under microwave irradiation. The obtained product was characterized by BET surface area, XRD, SEM, and TEM. TiO2 particles with average size of 9 nm were as anatase. The surface area of the Composites increased with an increase of CNT content. Moreover, the catalytic efficiency of the composite was investigated through the photoelectrodegradation of methylene blue.
In the last two decades, the solubility of gases in ionic liquids has attracted a lot of attention. While at the beginning most publications dealt with the solubility of a single gas in a pure ionic liquid, recently the interest starts to shift to the – from an application-oriented point of view – more challenging area of the simultaneous solubility of several gases in an ionic liquid and/or the solubility of a single gas in solvent mixtures with ionic liquids. The current state of information on experimental data (and the phenomena encountered) in such systems is summarized and discussed.