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  • (-) Keywords ≠ oxygen carrier support
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Granulation processing parameters on the mechanical properties of diatomite-based porous granulates
Liu, Y., Scharf, D., Graule, T., & Clemens, F. J. (2014). Granulation processing parameters on the mechanical properties of diatomite-based porous granulates. Powder Technology, 263, 159-167. https://doi.org/10.1016/j.powtec.2014.04.094
Development of copper impregnated porous granulates for chemical-looping combustion
van Garderen, N., Clemens, F. J., & Graule, T. (2014). Development of copper impregnated porous granulates for chemical-looping combustion. Fuel, 119, 323-327. https://doi.org/10.1016/j.fuel.2013.11.063
Improved γ-alumina support based pseudo-boehmite shaped by micro-extrusion process for oxygen carrier support application
van Garderen, N., Clemens, F. J., Aneziris, C. G., & Graule, T. (2012). Improved γ-alumina support based pseudo-boehmite shaped by micro-extrusion process for oxygen carrier support application. Ceramics International, 38(7), 5481-5492. https://doi.org/10.1016/j.ceramint.2012.03.061
Investigation of clay content and sintering temperature on attrition resistance of highly porous diatomite based material
van Garderen, N., Clemens, F. J., Mezzomo, M., Bergmann, C. P., & Graule, T. (2011). Investigation of clay content and sintering temperature on attrition resistance of highly porous diatomite based material. Applied Clay Science, 52(1-2), 115-121. https://doi.org/10.1016/j.clay.2011.02.008
Investigation of sintering temperature on attrition resistance of highly porous diatomite based material
van Garderen, N., Clemens, F. J., Scharf, D., & Graule, T. (2010). Investigation of sintering temperature on attrition resistance of highly porous diatomite based material. In K. Vafai (Ed.), AIP conference proceedings: Vol. 1254. Porous media and its applications in science, engineering and industry (pp. 260-265). https://doi.org/10.1063/1.3453821