Répertoire du corps professoral

Utilisation complète des ressources naturelles pour la récupération des métaux critiques et la minéralisation du CO2
Programme: Fonds des leaders John-R.-Evans (FLJR)
Organisme(s) subventionnaire(s): Fondation Canadienne pour l'innovation (La), Ministère de l'Économie et de l'Innovation, VWR International Ltd
Type de financement: Subvention
Établissement tête: Université Laval
Du 1 décembre 2023 au 31 août 2025

Comprehensive utilization of minerla reources and waste CO2 gas for enhanced critical metals recovery and permanent CO2 storage
Programme: Subventions à la découverte SD (individuelles et d'équipe)
Organisme(s) subventionnaire(s): Conseil de recherches en sciences naturelles et génie Canada
Type de financement: Subvention
Établissement tête: Université Laval
Du 1 avril 2023 au 31 mars 2028

Financements des 2 dernières années

Comprehensive utilization of mineral resources and waste CO2 for enhanced critical metals recovery and permanent CO2 storage
Programme: Supplément Tremplin vers la découverte
Organisme(s) subventionnaire(s): Conseil de recherches en sciences naturelles et génie Canada
Type de financement: Subvention
Établissement tête: Université Laval
Du 1 avril 2023 au 31 mars 2024

Kaloucha Kanga nsiama,

Muhammad Zaib Khan,

Rehan Ali Qureshi,

Craig Nsakabwebwe Kabange,

Mojtaba Adelalipour, Doctorat en génie des mines

Kourosh Javdantabar, Doctorat en génie des mines

Publications des 5 dernières années

Acceleration of Iron-Rich Olivine CO2 Mineral Carbonation and Utilization for Simultaneous Critical Nickel and Cobalt Recovery Minerals, 2024/07/28. Fei Wang, David Dreisinger. DOI 10.3390/min14080766

Pre-treatment through reductive calcination for CO2 mineralization and selective battery metal extraction from laterites Separation and Purification Technology, 2024/07. Fei Wang, David Dreisinger, Yuchang Xiao. DOI 10.1016/j.seppur.2024.126818

Enhanced CO2 mineralization and selective critical metal extraction from olivine and laterites Separation and Purification Technology, 2023/09. Fei Wang, David Dreisinger. DOI 10.1016/j.seppur.2023.124268

Accelerated CO2 mineralization and utilization for selective battery metals recovery from olivine and laterites Journal of Cleaner Production, 2023/03. Fei Wang, David Dreisinger, Yuchang Xiao. DOI 10.1016/j.jclepro.2023.136345

The Extraction of Nickel and Cobalt from Laterite Ores with Concurrent Carbon Sequestration Proceedings of the 61st Conference of Metallurgists, COM 2022, 2023. Fei Wang, David Dreisinger. DOI 10.1007/978-3-031-17425-4_90

CO2 Mineralization and Critical Battery Metals Recovery from Olivine and Nickel Laterites Energy Technology 2023, 2023. Fei Wang, David Dreisinger. DOI 10.1007/978-3-031-22638-0_6

An integrated process of CO2 mineralization and selective nickel and cobalt recovery from olivine and laterites Chemical Engineering Journal, 2023/01. Fei Wang. DOI 10.1016/j.cej.2022.139002

Carbon mineralization with concurrent critical metal recovery from olivine Proceedings of the National Academy of Sciences, 2022/08/09. Fei Wang. DOI 10.1073/pnas.2203937119

Utilization of Copper Nickel Sulfide Mine Tailings for CO2 Sequestration and Enhanced Nickel Sulfidization The Minerals, Metals & Materials Series, 2022. Fei Wang. DOI 10.1007/978-3-030-92563-5_24

Status of CO2 mineralization and its utilization prospects Minerals and Mineral Materials, 2022. Fei Wang. DOI 10.20517/mmm.2022.02

CO2 mineralization and concurrent utilization for nickel conversion from nickel silicates to nickel sulfides Chemical Engineering Journal, 2021/02. Fei Wang. DOI 10.1016/j.cej.2020.126761

Kinetic evaluation of mineral carbonation of natural silicate samples Chemical Engineering Journal, 2021/01. Fei Wang. DOI 10.1016/j.cej.2020.126522

Application and optimization of a quantified kinetic formula to mineral carbonation of natural silicate samples Minerals Engineering, 2021/01. Fei Wang. DOI 10.1016/j.mineng.2020.106712