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1. Sociotechnical Undergraduate Education for the Future of Natural Resource Production

   https://doi.org/10.3390/mining3020023  

   Smith, Jessica; McClelland, Carrie; Restrepo, Oscar Jaime (June 2023, Mining)

   The greatest challenges for contemporary and future natural resource production are sociotechnical by nature, from public perceptions of mining to responsible mineral supply chains. The term sociotechnical signals that engineered systems have inherent social dimensions that require careful analysis. Sociotechnical thinking is a prerequisite for understanding and promoting social justice and sustainability through one’s professional practices. This article investigates whether and how two different projects enhanced sociotechnical learning in mining and petroleum engineering students. Assessment surveys suggest that most students ended the projects with greater appreciation for sociotechnical perspectives on the interconnection of engineering and corporate social responsibility (CSR). This suggests that undergraduate engineering education can be a generative place to prepare future professionals to see how engineering can promote social and environmental wellbeing. Comparing the different groups of students points to the power of authentic learning experiences with industry engineers and interdisciplinary teaching by faculty. 

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2. Food flows between counties in the United States

   https://doi.org/10.1088/1748-9326/ab29ae  

   Lin, Xiaowen; Ruess, Paul_J; Marston, Landon; Konar, Megan (July 2019, Environmental Research Letters)

   Abstract Food consumption and production are separated in space through flows of food along complex supply chains. These food supply chains are critical to our food security, making it important to evaluate them. However, detailed spatial information on food flows within countries is rare. The goal of this paper is to estimate food flows between all county pairs within the United States. To do this, we develop the Food Flow Model, a data-driven methodology to estimate spatially explicit food flows. The Food Flow Model integrates machine learning, network properties, production and consumption statistics, mass balance constraints, and linear programming. Specifically, we downscale empirical information on food flows between 132 Freight Analysis Framework locations (17 292 potential links) to the 3142 counties and county-equivalents of the United States (9869 022 potential links). Subnational food flow estimates can be used in future work to improve our understanding of vulnerabilities within a national food supply chain, determine critical infrastructures, and enable spatially detailed footprint assessments. 

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3. Material availability assessment using system dynamics: The case of tellurium

   https://doi.org/10.1002/pip.3760  

   Hanna, Francis; Nain, Preeti; Anctil, Annick (December 2023, Progress in Photovoltaics: Research and Applications)

   Abstract With the increased deployment of solar photovoltaic (PV), the cadmium telluride (CdTe) PV market is expected to grow substantially. CdTe PV production is crucial for the clean energy transition but problematic because of the material availability challenges. CdTe PV relies on tellurium, a scarce metal mainly produced as a byproduct of copper. Several studies investigated the availability of tellurium for CdTe PV. However, previous models are static and do not reflect the interconnection between tellurium supply, demand, and price. Despite the efforts, previous studies have inconsistent results and do not provide a clear understanding on the availability of tellurium for CdTe PV applications. This study uses system dynamics modeling to assess tellurium availability between 2023 and 2050. The model considers different scenarios for CdTe PV demand growth and PV material intensity reduction. The model also considers tellurium supply variables such as Te‐rich ores, tellurium yield from anode slimes, and growth in copper mining. The historical data (2000–2020) analysis shows a negative correlation between the tellurium price and the annual tellurium surplus. All the considered demand scenarios exhibit a tellurium supply gap where annual material production falls below demand. Tellurium availability and price could delay the growth of CdTe PV production, and maintaining the current CdTe PV market share of ~4% will be challenging. The low‐demand scenario, which is based on a constant CdTe PV market share, results in a supply gap starting in 2029 and a supply gap peak of 508 metric tons in 2036. Our work shows that having more manufacturing capacity is insufficient if tellurium is unavailable. More importantly, this work shows that fast growth in CdTe PV production can diminish the advantages of dematerialization. The estimated cumulative CdTe PV production by 2050 ranges between 929 and 2250 GWp. The findings also suggest that recycling retired solar panels can contribute to 17% of the total tellurium demand and 34% of the CdTe PV tellurium demand. Sensitivity analysis shows that expanding existing Te‐rich ores does not alleviate tellurium scarcity. Alternatively, improving tellurium yield from copper electrorefining is a more efficient mitigation approach. The system dynamic approach outlined in this study provides a better perspective on the status of various critical metal supply chains, ultimately leading to sustainable materials management and increasing CdTe production. 

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4. Global meta-analysis shows pervasive phosphorus limitation of aboveground plant production in natural terrestrial ecosystems

   https://doi.org/10.1038/s41467-020-14492-w  

   Hou, Enqing; Luo, Yiqi; Kuang, Yuanwen; Chen, Chengrong; Lu, Xiankai; Jiang, Lifen; Luo, Xianzhen; Wen, Dazhi (January 2020, Nature Communications)

   Abstract Phosphorus (P) limitation of aboveground plant production is usually assumed to occur in tropical regions but rarely elsewhere. Here we report that such P limitation is more widespread and much stronger than previously estimated. In our global meta-analysis, almost half (46.2%) of 652 P-addition field experiments reveal a significant P limitation on aboveground plant production. Globally, P additions increase aboveground plant production by 34.9% in natural terrestrial ecosystems, which is 7.0–15.9% higher than previously suggested. In croplands, by contrast, P additions increase aboveground plant production by only 13.9%, probably because of historical fertilizations. The magnitude of P limitation also differs among climate zones and regions, and is driven by climate, ecosystem properties, and fertilization regimes. In addition to confirming that P limitation is widespread in tropical regions, our study demonstrates that P limitation often occurs in other regions. This suggests that previous studies have underestimated the importance of altered P supply on aboveground plant production in natural terrestrial ecosystems. 

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5. A Two-Stage Stochastic Programming Approach for the Design of Renewable Ammonia Supply Chain Networks

   https://doi.org/10.3390/pr12020325  

   Mitrai, Ilias; Palys, Matthew J; Daoutidis, Prodromos (February 2024, Processes)

   This work considers the incorporation of renewable ammonia manufacturing sites into existing ammonia supply chain networks while accounting for ammonia price uncertainty from existing producers. We propose a two-stage stochastic programming approach to determine the optimal investment decisions such that the ammonia demand is satisfied and the net present cost is minimized. We apply the proposed approach to a case study considering deploying in-state renewable ammonia manufacturing in Minnesota’s supply chain network. We find that accounting for price uncertainty leads to supply chains with more ammonia demand met via renewable production and thus lower costs from importing ammonia from existing producers. These results show that the in-state renewable production of ammonia can act as a hedge against the volatility of the conventional ammonia market. 

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