In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral alterations that lead to improved extractability of nickel from olivine ((Mg,Fe)2SiO4). The precept is that by altering the morphology and the mineralogy of the ore via mineral carbonation, the comminution requirements and the acid consumption during hydrometallurgical processing can be reduced. Furthermore, carbonation pre-treatment can lead to mineral liberation and concentration of metals in physically separable phases. In a first processing step, olivine is fully carbonated at high CO2 partial pressures (35 bar) and optimal temperature (200 °C) with the addition of pH buffering agents. This leads to a powdery product containing high carb...
Carbonation of Mg-rich minerals offers an intriguing candidate carbon sequestration process technolo...
Known fossil fuel reserves, especially coal, can support global energy demands for centuries to come...
The potential success of integrating mineral carbonation, as a pathway to CO₂ sequestration, in mini...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
CO2 sequestration by reaction with abundant, reactive minerals such as olivine has often been consid...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
Mineral carbonation used for CO2 sequestration faces three main challenges: increasing the overall c...
Carbon dioxide mitigation through mineral carbonation is still economically inefficient, despite the...
Carbonation of Mg-rich minerals offers an intriguing candidate carbon sequestration process technolo...
Known fossil fuel reserves, especially coal, can support global energy demands for centuries to come...
The potential success of integrating mineral carbonation, as a pathway to CO₂ sequestration, in mini...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
In this work, we explore a novel mineral processing approach using carbon dioxide to promote mineral...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
CO2 sequestration by reaction with abundant, reactive minerals such as olivine has often been consid...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
International audienceCO 2 sequestration by carbonation of olivine: a new process for optimal separa...
Mineral carbonation used for CO2 sequestration faces three main challenges: increasing the overall c...
Carbon dioxide mitigation through mineral carbonation is still economically inefficient, despite the...
Carbonation of Mg-rich minerals offers an intriguing candidate carbon sequestration process technolo...
Known fossil fuel reserves, especially coal, can support global energy demands for centuries to come...
The potential success of integrating mineral carbonation, as a pathway to CO₂ sequestration, in mini...