Marcel Laabs (M.Sc.)

Wissenschaftl. Mitarbeiter

Laabs, Marcel
Telefon
+49 561 804-3967
Fax
+49 561 804-2662
E-Mail
Standort
Mönchebergstraße 7
34125 Kassel
Raum
Ingenieurwissenschaften III, 1311

Curriculum Vitae  (Marcel Laabs (M.Sc.))

2012–2016: Studium Geologie/Mineralogie an der TU Bergakademie Freiberg (B.Sc.)

2016–2018: Studium Geowissenschaften, Vertiefungsrichtung Mineralogie an der TU Bergakademie Freiberg (M.Sc.)

2018–2021: Wissenschaftlicher Mitarbeiter an der TU Bergakademie Freiberg, Institut für Energieverfahrenstechnik und Chemieingenieurwesen

Seit 07/2021: Wissenschaftlicher Mitarbeiter am Fachgebiet Werkstoffe des Bauwesens und Bauchemie der Universität Kassel


Publikationen  (Marcel Laabs (M.Sc.))

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
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.
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
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
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
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
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
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
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 301, 121026. https://doi.org/10.1016/j.fuel.2021.121026
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
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
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

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