Vidal de la Peña, N. (2026). Mathematical Modelling of Mineral Carbonation in Construction Materials [Doctoral thesis, ULiège - University of Liège]. ORBi-University of Liège. https://orbi.uliege.be/handle/2268/342800 |
Vidal de la Peña, N. (03 October 2025). A MATHEMATICAL MODEL FOR CO2 CAPTURE VIA MINERAL CARBONATION USING HYDRATED LIME [Paper presentation]. C3 symposium conference. |
Vidal de la Peña, N., Marquis, S., Jacques, S., Toye, D., & Léonard, G. (October 2025). CO2 capture using hydrated lime: A study on the role of water evaporation. Chemical Engineering Science, 316, 121958. doi:10.1016/j.ces.2025.121958 |
Vidal de la Peña, N., Léonard, G., & Toye, D. (2025). A Mathematical Model for CO2 Capture via Mineral Carbonation Using Hydrated Lime [Paper presentation]. C3 symposium conference Extended abstract. doi:10.5703/1288284317988 |
Vidal de la Peña, N., Marquis, S., Jacques, S., Aubry, E., Léonard, G., & Toye, D. (30 August 2024). A Mathematical Model for Enhancing CO2 Capture in Construction Sector Using Hydrated Lime. Minerals, 14 (9), 889. doi:10.3390/min14090889 |
Vidal de la Peña, N. (03 June 2024). Modelling study of CO2 sequestration by mineral waste carbonation [Paper presentation]. ESCAP34-PSE24, florence, Italy. |
Vidal de la Peña, N., Toye, D., & Léonard, G. (02 June 2024). Modelling study of CO2 sequestration by mineral waste carbonation process. Computer Aided Chemical Engineering, 53, 733-738. |
Vidal de la Peña, N. (17 January 2024). Modelling study of CO2 sequestration by mineral waste carbonation -FRITCO2T scientific day [Paper presentation]. FRITCO2T scientific day, Liège, Belgium. |
Vidal de la Peña, N., Grigoletto, S., Toye, D., Courard, L., & Léonard, G. (2023). CO2 capture by mineral carbonation of construction and industrial wastes. In Circular Economy Processes for CO2 Capture and Utilization (First edition, pp. 163-185). Francisco M. Baena-Moreno. doi:10.1016/B978-0-323-95668-0.00003-5 |
Yahyaoui, I., & Vidal de la Peña, N. (04 January 2022). Energy Management Strategy for an Autonomous Hybrid Power Plant Destined to Supply Controllable Loads. Sensors, 22 (1), 357. doi:10.3390/s22010357 |