More Like this

1. Models for Decarbonization in the Chemical Industry

   https://doi.org/10.1146/annurev-chembioeng-100522-114115  

   Yao, Yuan; Lan, Kai; Graedel, Thomas E.; Rao, Narasimha D. (June 2024, Annual Review of Chemical and Biomolecular Engineering)

   Various technologies and strategies have been proposed to decarbonize the chemical industry. Assessing the decarbonization, environmental, and economic implications of these technologies and strategies is critical to identifying pathways to a more sustainable industrial future. This study reviews recent advancements and integration of systems analysis models, including process analysis, material flow analysis, life cycle assessment, techno-economic analysis, and machine learning. These models are categorized based on analytical methods and application scales (i.e., micro-, meso-, and macroscale) for promising decarbonization technologies (e.g., carbon capture, storage, and utilization, biomass feedstock, and electrification) and circular economy strategies. Incorporating forward-looking, data-driven approaches into existing models allows for optimizing complex industrial systems and assessing future impacts. Although advances in industrial ecology–, economic-, and planetary boundary–based modeling support a more holistic systems-level assessment, more effects are needed to consider impacts on ecosystems. Effective applications of these advanced, integrated models require cross-disciplinary collaborations across chemical engineering, industrial ecology, and economics. Expected final online publication date for the Annual Review of Chemical and Biomolecular Engineering , Volume 15 is June 2024. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates. 

   more » « less
2. A household-scale life cycle assessment model for understanding the food-energy-water nexus

   https://doi.org/10.3389/fenvs.2023.1059301  

   Daignault, Jessica; Wallace, Charles; Watkins, David; Handler, Robert; Yang, Yi; Heaney, Danielle; Ahamed, Sonya (February 2023, Frontiers in Environmental Science)

   Vörösmarty, C. (Ed.)

   The household is an important locus of decision-making regarding food, energy, and water (FEW) consumption. Changes in household FEW consumption behaviors can lead to significant reductions in environmental impacts, but it can be difficult for consumers to compare the relative impacts of their consumption quantitatively, or to recognize the indirect impacts of their household consumption patterns. We describe two novel tools designed to address this problem: A hybrid life cycle assessment (LCA) framework to translate household consumption of food, energy, and water into key environmental impacts including greenhouse gas emissions, energy use, and water use; and a novel software application calledHomeTrackerthat implements the framework by collecting household FEW data and providing environmental impact feedback to households. We explore the question:How can a life cycle assessment-based software application facilitate collection and translation of household consumption data to meaningful environmental impact metrics?A case study in Lake County, Illinois is presented to illustrate use of theHomeTrackerapplication. Output data describing environmental impacts attributable to household FEW consumption in the study area are shown in order to illustrate key features and trends observed in the case study population. The framework and its associated output data can be used to support experimental research at the household scale, allowing for examination of what users purchase and consume over an extended period of time as well as increased understanding of household behavior trends and environmental impacts, and as future work. 

   more » « less
3. Implications of Identity in AI: Creators, Creations, and Consequences

   https://doi.org/10.1609/aaaiss.v3i1.31268  

   Tadimalla, Sri Yash; Maher, Mary Lou (May 2024, Proceedings of the AAAI Symposium Series)

   The field of Artificial Intelligence (AI) is rapidly advancing, with significant potential to transform society. However, it faces a notable challenge: lack of diversity, a longstanding issue in STEM fields. In this context, this position paper examines the intersection of AI and identity as a pathway to understanding biases, inequalities, and ethical considerations in AI development and deployment. We present a multifaceted definition of AI identity, which encompasses its creators, applications, and their broader impacts. Understanding AI's identity involves analyzing the diverse individuals involved in AI's development, the technologies produced, and the social, ethical, and psychological implications. After exploring the AI identity ecosystem and its societal dynamics, We propose a framework that highlights the need for diversity in AI across three dimensions: Creators, Creations, and Consequences through the lens of identity. This paper presents a research framework for examining the implications and changes needed to foster a more inclusive and responsible AI ecosystem through the lens of identity. 

   more » « less
4. Designing industrial landscapes for mitigating air pollution with spatially‐explicit techno‐ecological synergy

   https://doi.org/10.1002/aic.17347  

   Charles, Michael; Bakshi, Bhavik_R (June 2021, AIChE Journal)

   Abstract Air pollution has posed health and environmental threats since the Industrial Revolution. Technological solutions present major expenses for industry, yet nature's ecosystems also provide pollution uptake. In the pursuit of techno‐ecological sustainable design, this work presents a framework for spatially‐explicit industrial site design that determines where and when ecological restoration should be considered. The framework considers land use changes and identifies the cheapest balance between technological and ecological uptake for industrial landscapes, including the impacts of long term ecological growth dynamics. This work presents the framework's construction along with a case study conducted for a coal‐fired power station in Ohio. The results provide spatial maps of proposed restoration areas, projected savings values, and spatial‐temporal maps that consider annual budget constraints. The results demonstrate a significant sensitivity to land use restoration costs and highlights ecological advantages, like simultaneous uptake of different chemical species. 

   more » « less
5. Environmental impacts of circularity strategies for social distancing plastic shields made of polymethyl methacrylate in the United States

   https://doi.org/10.1177/0734242X241237102  

   Silva_de_Souza_Lima_Cano, Nathalia; Hossain, Md Uzzal; Bilec, Melissa M (April 2024, Waste Management & Research: The Journal for a Sustainable Circular Economy)

   One application of plastics that grew during the COVID-19 pandemic is for social distancing plastic shields, or protective barriers, made from polymethyl methacrylate (PMMA) such as transparent face guards. Although available for other applications, end-of-life impacts for barriers are currently lacking in the literature, and there is a need to fill in this gap to guide decisions. This study evaluated the end-of-life environmental impacts of PMMA barriers in the United States by using life cycle assessment. We evaluated five strategies including landfilling, waste-to-energy, mechanical recycling, chemical recycling and reuse. Data were sourced from literature and various life cycle inventory databases. The Tool for Reduction and Assessment of Chemicals and Other Environmental Impacts (TRACI) was used as the life cycle impact assessment method. Landfilling exhibited the highest impact in all indicators and reuse demonstrated optimal results for global warming potential. A scenario analysis was conducted to explore a combination of strategies, revealing that the most promising approach involved a mix of 40% reuse, 20% mechanical recycling and 40% chemical recycling. Circular economy recommendations are proposed for managing these sources of plastic waste in the United States. 

   more » « less