ADHAV, P., BESSERON, X., ESTUPINAN DONOSO, A. A., & PETERS, B. (15 July 2024). Development and validation of CFD-DEM coupling interface for heat & mass transfer using partitioned coupling approach. International Communications in Heat and Mass Transfer, 157, 107801. doi:10.1016/j.icheatmasstransfer.2024.107801 Peer Reviewed verified by ORBi |
ESTUPINAN DONOSO, A. A., Gravier, P., Ichikawa, R. U., & MICHELS, A. (2024). Unraveling grain growth of metallic tungsten: Investigating the nanoscale realm of hydrogen reduction of tungsten oxides. Powder Technology, 119672. doi:10.1016/j.powtec.2024.119672 Peer Reviewed verified by ORBi |
ESTUPINAN DONOSO, A. A. (08 September 2023). What do we know about industrial tungsten synthesis [Paper presentation]. XDEM workshop 2023, Koblenz, Germany. |
ESTUPINAN DONOSO, A. A., Arenas, M., Borchuluun, M., HILLAH, L. E. A., BESSERON, X., Rousset, A., & MICHELS, A. (06 June 2023). Determination of Kinetic Parameters for Heterogeneous Reaction System Employing Discrete Element Methods under HPC Platforms [Poster presentation]. WCCE11-11th World Congers of Chemical Engineering, Buenos Aires, Argentina. |
ESTUPINAN DONOSO, A. A., BESSERON, X., & ROUSSET, A. (06 June 2023). Determination of Kinetic Parameters for Heterogeneous Reaction System Employing Discrete Element Methods under HPC Platforms [Poster presentation]. WCCE11-11th World Congers of Chemical Engineering, Buenos Aires, Argentina. |
ESTUPINAN DONOSO, A. A., & MICHELS, A. (19 May 2023). Determination of Reaction Rate Parameters in Heterogeneous Particulate Systems [Paper presentation]. 14th International Supercomputing Camp 2023, Cartagena, Colombia. |
AMINNIA, N., ESTUPINAN DONOSO, A. A., & PETERS, B. (2022). Developing a DEM-Coupled OpenFOAM solver for multiphysics simulation of additive manufacturing process. Scipedia.com. doi:10.23967/eccomas.2022.084 Peer reviewed |
PETERS, B., BESSERON, X., & ESTUPINAN DONOSO, A. A. (July 2022). Analysis of Coke Particle Gasification in the Raceway of a Blast Furnace. IFAC-PapersOnLine, 55 (20), 277-282. doi:10.1016/j.ifacol.2022.09.108 Peer Reviewed verified by ORBi |
ADHAV, P., BESSERON, X., ESTUPINAN DONOSO, A. A., PETERS, B., & ROUSSET, A. (09 June 2022). HEAT AND MASS TRANSFER BETWEEN XDEM & OPENFOAM USING PRECICE COUPLING LIBRARY [Paper presentation]. 8th European Congress on Computational Methods in Applied Sciences and Engineering, OVA Spektrum, Lillestrøm, Norway. |
ESTUPINAN DONOSO, A. A., AMINNIA, N., PETERS, B., & MICHELS, A. (31 May 2022). On the Reduction of Computational Costs for Tungsten Powder Bed Processes [Paper presentation]. 20 Plansee seminar, Reutte, Austria. |
AMINNIA, N., ESTUPINAN DONOSO, A. A., & PETERS, B. (31 May 2022). CFD-DEM simulation of melt pool formation and evolution in powder bed fusion process [Poster presentation]. 20 Plansee seminar, Reutte, Austria. |
Amani, H., Alamdari, E. K., PETERS, B., & ESTUPINAN DONOSO, A. A. (12 March 2022). XDEM study of burden distribution in iron ore pellet firing. Ironmaking and Steelmaking, 49 (6), 615-625. doi:10.1080/03019233.2022.2036084 Peer reviewed |
Amani, H., Alamdari, E. K., Ale Ebrahim, H., ESTUPINAN DONOSO, A. A., & PETERS, B. (2021). Mathematical modeling of thermal behavior of single iron ore pellet during heat hardening oxidation. Journal of Thermal Analysis and Calorimetry. doi:10.1007/s10973-020-10532-1 Peer reviewed |
ESTUPINAN DONOSO, A. A. (26 January 2021). Discrete Element Methods Applied to Selective Laser processes in Additive Manufacturing [Paper presentation]. Winter Workshop on Manufacturing, Mechanics & Characterisation of Advanced Engineering Materials, Virtual, Luxembourg. |
ESTUPINAN DONOSO, A. A. (2019). Computational Study of the Industrial Synthesis of Tungsten Powders. Powder Technology. doi:10.1016/j.powtec.2018.12.065 Peer Reviewed verified by ORBi |
KABORE, B. W., ESTUPINAN DONOSO, A. A., PETERS, B., & Baroli, D. (2019). Identification of optimal process parameters in selective laser sintering [Paper presentation]. II International Conference on Simulation for Additive Manufacturing - Sim-AM 2019, Pavia, Italy. |
PETERS, B., BANIASADI, M., BANIASADI, M., BESSERON, X., ESTUPINAN DONOSO, A. A., MOHSENI, S., & POZZETTI, G. (2019). The XDEM Multi-physics and Multi-scale Simulation Technology: Review on DEM-CFD Coupling, Methodology and Engineering Applications. Particuology, 44, 176 - 193. doi:10.1016/j.partic.2018.04.005 Peer Reviewed verified by ORBi |
COPERTARO, E., ESTUPINAN DONOSO, A. A., & PETERS, B. (04 December 2018). A Discrete-Continuous Method for Predicting Thermochemical Phenomena in a Cement Kiln and Supporting Indirect Monitoring. Engineering Journal, 22 (6), 165-183. doi:10.4186/ej.2018.22.6.165 Peer reviewed |
ESTUPINAN DONOSO, A. A. (30 August 2018). Humidity Measurement Analysis for Flow Simulations [Paper presentation]. XDEM workshop 2018, Metz,, France. |
ESTUPINAN DONOSO, A. A., & PETERS, B. (2018). Why Do Discrete Element Analysis? (Ellis, D. and Prinja, N). NAFEMS. |
ESTUPINAN DONOSO, A. A., & PETERS, B. (2018). Exploring a Multiphysics Resolution Approach for Additive Manufacturing. JOM. doi:10.1007/s11837-018-2964-3 Peer reviewed |
COPERTARO, E., ESTUPINAN DONOSO, A. A., & PETERS, B. (2018). A comparison between discrete analysis and a multiphase approach for predicting heat conduction in packed beds. In Proceedings of the 10th International Conference on Computer Modeling and Simulation. doi:10.1145/3177457.3177497 Peer reviewed |
ESTUPINAN DONOSO, A. A. (2016). A DISCRETE-CONTINUOUS APPROACH TO MODEL POWDER METALLURGY PROCESSES [Doctoral thesis, Unilu - University of Luxembourg]. ORBilu-University of Luxembourg. https://orbilu.uni.lu/handle/10993/27324 |
COPERTARO, E., Chiariotti, P., ESTUPINAN DONOSO, A. A., Paone, N., PETERS, B., & Revel, G. M. (2016). XDEM for Tuning Lumped Models of Thermochemical Processes Involving Materials in the Powder State. Engineering Journal, 20 (5), 187-201. doi:10.4186/ej.2016.20.5.187 Peer reviewed |
ESTUPINAN DONOSO, A. A., PETERS, B., Copertaro, E., Chiariotti, P., Paone, N., & Revel, G. M. (May 2015). A discrete-continuous approach to describe CaCO3 decarbonation in non-steady thermal conditions. Powder Technology, 275, 131-138. doi:10.1016/j.powtec.2015.01.072 Peer Reviewed verified by ORBi |
ESTUPINAN DONOSO, A. A., & PETERS, B. (27 April 2015). XDEM Used for Predicting Tungsten-Oxide Reduction [Paper presentation]. Computer Aided Process Engineering (CAPE) Forum 2015, Paderborn, Germany. |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., MAHMOUDI, A. H., & MOHSENI, S. (2015). A discrete/continuous numerical approach to multi-physics. IFAC-PapersOnLine, 28 (1), 645-650. doi:10.1016/j.ifacol.2015.05.141 Peer Reviewed verified by ORBi |
ESTUPINAN DONOSO, A. A., & PETERS, B. (2015). Predicting Tungsten Oxide Reduction with the Extended Discrete Element Method. Advances in Powder Metallurgy & Particulate Materials, (Proceedings of the 2015 International Conference on Powder Metallurgy Particulate Materials), 02.35--02.48. Peer reviewed |
ESTUPINAN DONOSO, A. A. (2014). Introduction to the eXtended Discrete Element Method. |
ESTUPINAN DONOSO, A. A., & PETERS, B. (2014). eXtended Discrete Element Method used for predicting tungsten-oxide reduction in a dry-hydrogen atmosphere. In L. LLanes (Ed.), eXtended Discrete Element Method used for predicting tungsten-oxide reduction in a dry-hydrogen atmosphere (pp. 179-180). Peer reviewed |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., Hoffmann, F., MICHAEL, M., MAHMOUDI, A. H., & Vogel, F. (2014). Beschreibung des Transportes von Schwimmkörpern bei Flutwasser über eine Euler-Lagrange Kopplung. In Dresdner Wasserbauliche Mitteilungen. |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., HOFFMANN, F., MICHAEL, M., & MAHMOUDI, A. H. (2014). The extended discrete element method (XDEM) applied to drying of a packed bed. Industrial Combustion, 14, 1-16. Peer Reviewed verified by ORBi |
ESTUPINAN DONOSO, A. A., & PETERS, B. (2014). XDEM employed to predict reduction of tungsten oxide in a dry hydrogen atmosphere. International Journal of Refractory Metals and Hard Materials. doi:10.1016/j.ijrmhm.2014.08.012 Peer Reviewed verified by ORBi |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., HOFFMANN, F., MICHAEL, M., & MAHMOUDI, A. (2013). The Extended Discrete Element Method (XDEM) for Multi-Physics Applications. In Finnish-Swedish Flame Days 2013. Peer reviewed |
ESTUPINAN DONOSO, A. A., HOFFMANN, F., & PETERS, B. (February 2013). eXtended Discrete Element Method used for convective heat transfer predictions. International Review of Mechanical Engineering, 7 (2), 329-336. Peer Reviewed verified by ORBi |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., HOFFMANN, F., MICHAEL, M., MAHMOUDI, A. H., Dziugys, A., & Vogel, F. (2013). Die Extended Discrete Element Method (XDEM) für multiphysikalische Anwendungen [Paper presentation]. 31. CADFEM User Meeting. |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., HOFFMANN, F., MICHAEL, M., & MAHMOUDI, A. H. (2013). Application of the Extended Discrete Element Method (XDEM) in Computer-Aided Process Engineering [Paper presentation]. CAPE Forum 2013 Computer Aided Process Engineering. |
PETERS, B., BESSERON, X., ESTUPINAN DONOSO, A. A., HOFFMANN, F., MICHAEL, M., & MAHMOUDI, A. H. (2013). Enhanced Thermal Process Engineering by the Extended Discrete Element Method (XDEM). Universal Journal of Engineering Science, 1, 139-145. Peer reviewed |