The rare earth magnet market experiences serious turmoil: prices fluctuate heavily while the demand is growing exponentially driven by wind turbines and electric vehicles. Recycling helps to reduce... Show moreThe rare earth magnet market experiences serious turmoil: prices fluctuate heavily while the demand is growing exponentially driven by wind turbines and electric vehicles. Recycling helps to reduce the pressure on rare earth mining, while presenting a solution for growing waste flows. While the development of recycling technologies is ongoing, we investigate the further development of short-loop recycling from small scale to industrial scale. This ex-ante LCA study combines input from expert technology forecasts, thermodynamic modelling, manufacturer data for equipment, and energy scenarios. Our approach systematically considers all mechanisms for performance changes when upscaling, from size scaling to decarbonizing electricity. The results show the effect of process design choices and the effect of end-of-life product inputs. Moreover, the assessment of multiple process improvements leads to an outlook of potential development pathways towards low-emission magnet recycling. Our systematic approach, which involves the active participation of technology developers, can be extended to support the upscaling of other emergent technologies. Show less
Material circularity and energy efficiency are highly relevant and intertwined issues for the transition towards a carbon-neutral and circular built environment. In the Netherlands, the building... Show moreMaterial circularity and energy efficiency are highly relevant and intertwined issues for the transition towards a carbon-neutral and circular built environment. In the Netherlands, the building sector has been rendered a priority towards a circular and low-carbon society. This thesis explored potential solutions for these twin issues in light of a novel technological system. This system presents an energy–material efficiency solution for energy renovation of building stocks with prefabricated concrete elements (PCEs) with recycled CDW as feedstock. Life cycle assessment (LCA) and life cycle costing (LCC) were combined with dynamic material flow analysis (MFA) to estimate the economic and environmental implications at both a product level and a national level. Show less
