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Marcel Laabs (M.Sc.)
Scientific employee
- Telephone
- +49 561 804-3967
- laabs[at]uni-kassel[dot]de
- Location
- Mönchebergstraße 7
34125 Kassel
- Room
- Ingenieurwissenschaften III, 1314
Curriculum Vitae
2012-2016: Study of Geology/Mineralogy at the TU Bergakademie Freiberg (B.Sc.)
2016-2018: Study of geosciences, specialization in mineralogy at the TU Bergakademie Freiberg (M.Sc.)
2018-2021: Research associate at the TU Bergakademie Freiberg, Institute of Energy Process Engineering and Chemical Engineering.
Since 07/2021: Research associate at the Department of Materials in Civil Engineering and Construction Chemistry at the University of Kassel
Publications
| Vateva, I., Laabs, M., Middendorf, B., Laner, D., 2025. Treatment of fine and medium fractions of MSWI bottom ash for use in concrete: A German case study. Waste Management 198, 117–127. https://doi.org/10.1016/j.wasman.2025.02.050 |
| Vateva, I., Laabs, M., Middendorf, B., Laner, D., 2024. Nutzung von optimierten Fraktionen der Hausmüllverbrennungsasche als Gesteinskörnung und Zementersatz in Betonprodukten, in: Pomberger, R. et al. (Hrsg.), 17. Recy & DepoTech-Konferenz. Montanuniversität Leoben, Österreich, S. 721–724. |
| Reinmoeller, M., Schreiner, M., Laabs, M., Scharm, C., Yao, Z., Guhl, S., Neuroth, M., Meyer, B., Gräbner, M., 2023. Formation and transformation of mineral phases in biomass ashes and evaluation of the feedstocks for application in high-temperature processes. Renewable Energy 210, 627–639. https://doi.org/10.1016/j.renene.2023.04.072 |
| Laner, D., Vateva, I., Laabs, M., Middendorf, B., 2023. Ökologische Optimierung von Betonprodukten durch Nutzung mineralischer Fraktionen von Hausmüllverbrennungs-Rostasche. Aktuelle Entwicklungen bei der Aufbereitung und Verwendung von Hausmüllverbrennungsschlacken. |
| Laabs, M., Istanbuly, Z., Eden, W., Middendorf, B., 2023. Verbesserung der CO2‐Bilanz von Kalksandsteinen durch den Einsatz von Sägeschlamm als Optimierungszuschlag. ce/papers 6, 1613–1617. https://doi.org/10.1002/cepa.2998 |
| Laabs, M., Vateva, I., Laner, D., Middendorf, B., 2023. Simultaneous utilisation of municipal solid waste incineration ash/slag as binder and aggregate substitute, in: KU Leuven (Hrsg.), 8th Slag Valorisation Symposium. Mechelen, S. 113–117. |
| Eden, W., Istanbuly, Z., Laabs, M., Middendorf, B., 2023. Eignung von Sägeschlämmen aus der Fertigung von Kalksandstein-Planelementsystemenbausätzen als Optimierungszusatz für die KS-Produktion. Forschungsvereinigung Kalk-Sand e.V., Hannover. |
| Scharm, C., Küster, F., Laabs, M., Huang, Q., Volkova, O., Reinmoeller, M., Guhl, S., Meyer, B., 2022. Direct reduction of iron ore pellets by H-2 and CO: In-situ investigation of the structural transformation and reduction progression caused by atmosphere and temperature. Minerals Engineering 180, 107459. https://doi.org/10.1016/j.mineng.2022.107459 |
| Laabs, M., Schwitalla, D.H., Ge, Z., Kong, L., Bai, J., Guhl, S., Meyer, B., 2022. Comparison of setups for measuring the viscosity of coal ash slags for entrained-flow gasification. Fuel 307, 121777. https://doi.org/10.1016/j.fuel.2021.121777 |
| Reinmoller, M., Kong, L., Laabs, M., Ge, Z., Hommel, C., Farid, M.M., Shi, W., Schreiner, M., Cao, X., Guhl, S., Bai, J., Meyer, B., 2022. Methods for the determination of composition, mineral phases, and process-relevant behavior of ashes and its modeling: A case study for an alkali-rich ash. Journal of the Energy Institute 100, 137–147. https://doi.org/10.1016/j.joei.2021.11.001 |
| Hommel, C., Laabs, M., Vogt, T., Vogt, C., Guhl, S., Meyer, B., 2022. Continuous measurement of K and S release by means of ETV-ICP OES for high-temperature coal conversion processes. Fuel 316, 123292. https://doi.org/10.1016/j.fuel.2022.123292 |
| Shi, W., Laabs, M., Reinmoeller, M., Bai, J., Guhl, S., Kong, L., Li, H., Meyer, B., Li, W., 2021. In-situ analysis of the effect of CaO/Fe2O3 addition on ash melting and sintering behavior for slagging-type applications. Fuel 285, 119090. https://doi.org/10.1016/j.fuel.2020.119090 |
| Shi, W., Laabs, M., Reinmoeller, M., Kong, L., Vassilevae, S.V., Guhl, S., Bai, J., Meyer, B., Li, W., 2021. The fusion mechanism of complex minerals mixture and prediction model for flow temperature of coal ash for gasification. Fuel 305, 121448. https://doi.org/10.1016/j.fuel.2021.121448 |
| Schwitalla, D.H., Guhl, S., Koerner, J., Laabs, M., Bai, J., Meyer, B., 2021. Meta-study on the effect of P2O5 on single phase slag viscosity and the effect of P2O5 induced liquid phase immiscibility on dispersion viscosity. Fuel 305, 121501. https://doi.org/10.1016/j.fuel.2021.121501 |
| Schwitalla, D.H., Guhl, S., Laabs, M., Reinmoeller, M., Bai, J., Meyer, B., 2021. Thermochemical and analytical approach to describe secondary slag phase formation and local process conditions in a full-scale BGL gasifier. Fuel Processing Technology 217, 106833. https://doi.org/10.1016/j.fuproc.2021.106833 |
| Reinmoeller, M., Sieradzka, M., Laabs, M., Schreiner, M., Mlonka-Medrala, A., Kopia, A., Meyer, B., Magdziarz, A., 2021. Investigation of the thermal behaviour of different biomasses and properties of their low- and high-temperature ashes. Fuel: The Science and Technology of Fuel and Energy 301, 121026. https://doi.org/10.1016/j.fuel.2021.121026 |