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Group Constellation: Experiencing the Dynamic Life of a Group from the OutsideDisque, J. Graham, McCarter, C., Mitchell, Clifton W. 16 December 2015 (has links)
Book Summary: In this book, supervisors share more than 50 activities for thesupervision of group work. Activities are organized across foursections: Facilitating Group Development and Process, Model-Based Interventions, Theory-Based Interventions, and Expressive/Creative Arts in Supervision. The group development activities aredesigned to assist supervisors in their ability to recognize andfacilitate the group process, whereas the model- and theory-basedactivities will help supervisors ground their group work in familiarcounseling and supervision frameworks. The activities in theExpressive/Creative Arts section contain action-based methods foruse in the supervision of group work. Published by the Association forSpecialists in Group Work.
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Thesis_Perspective and Dynamic life cycle assessment of critical materials_Tai-Yuan.pdfTai-Yuan Huang (13918935) 01 December 2022 (has links)
<p>Critical materials are crucial to the wide deployment of clean energy technologies and advanced technology such as electric vehicles (EVs), smartphones, high-efficiency lighting, and wind turbines. Particularly, rare earth elements (REEs) and lithium are key elements for clean energy and EVs. However, higher REEs and lithium demand for clean energy transformation, extreme supply reliance on certain area exports, and severe environmental issues during mining and processing cause uncertainty for future clean energy and transportation development. Our study aims to develop dynamic LCA with scenario analysis to simulate the future possible sustainability pathways for critical materials for stakeholders and apply life cycle assessment (LCA) to evaluate the latest REEs and lithium extraction and recycling technologies. Dynamic LCA (DLCA) integrates the temporal datasets to predict the future environmental impact of a product. The databases are mainly from Ecoinvent and Critical Materials Life Cycle Assessment Tool (CMLCAT). Python package Brightway2 and Temporalis are used to simulate the DLCA.</p>
<p>The study of DLCA on the REEs industry reveals the future predictive REEs environmental impact trend, providing a clear policy strategy to reach sustainability goals for stakeholders. The results show that shifting REEs resources from China to Australia and increasing the recycling rate are key factors in reducing environmental impact in the future. Considering the degradation of rare earths ore and storage depletion in China, such as the decreased production of heavy REEs from Ion adsorption clay in southern China, exploration, and inclusion of potential REEs production projects will be the possible sustainable way in the following decade. </p>
<p>LCA of RE recovery from room temperature ionic liquid (RTIL) electrochemical process helps us explore the benefits of recycling RE from the e-waste. Although RTIL contributes a higher impact on ozone depletion and global warming, close-loop recycling RTIL could reduce substantial environmental impact. Lithium recovery from geothermal brine provides the great source for fulfilling the domestic demand of the U.S. Compared to the conventional Li compounds production, this method is efficient and has 25-41% lower global warming potential. The government, researchers, and industry could benefit from this study for exploring advantage and drawback strategies for the future environmental footprint of NdFeB magnet production and identifying environmental hotspots of the latest recycling and extraction process of REEs and lithium.</p>
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