Through the link of existing software (HSC Chemistry, Granta Selector and openLCA), TripleLink will allow improvements to product-oriented assessment and the circularity of products. It will also provide the possibility to calculate resource indicators describing criticality from a resource-economic perspective and from a conflict perspective, with simple application and clear interpretation.
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The overarching goal was to evaluate the potential for aquaponics to be a responsible and sustainable solution to maintaining Canadian food security. Specifically, this thesis aimed to identify environmental and economic barriers faced by small-scale Canadian aquaponics systems and provide options for reducing barriers and environmental impacts through the application of life cycle assessment (LCA) and life cycle cost (LCC) analysis.
Hosted by UN Environment
Critical review of existing methods for assessing impacts of mineral resource use in life cycle assessment (LCA); recommendations for application-dependent use of these methods and for future methodological development
Policy pathways towards achieving sustainable food security in an island state (Jamaica), 2019-2021
Life cycle assessment of biobased materials and chemicals
As global consumption of resources and human populations increase, the search for energy and materials cause the “commodity frontiers” to expand.
Cascaded use and sustainable management of lithium-ion batteries from electric vehicles
Industrial ecology of "conflict minerals" - tin, tantalum, tungsten and gold (3TG)
Flows and drivers of electronics waste (e-waste) from mobile phones in British Columbia
Critical resources and raw materials use in vehicles; recycling and remanufacturing
Assessing priority utilization pathways for Canadian biorefining
Water metabolism, 2017-2018
Conducting Long-term Socio-ecological Research (LTSER) on the Greek Island of Samothraki to support a sustainability transition
Recycling as a strategy to mitigate environmental impacts and supply risks of energy critical materials
Developing efficient resource recovery routes from electronic waste