Your search keyword '"Green & Sustainable Science & Technology"' showing total 847 results

1. Small-Angle Neutron Scattering Insights into 2-Ethylhexyl Laurate : A Remarkable Bioester

Author

Hammond, Oliver S., Morris, Daniel C., Bousrez, Guillaume, Li, Sichao, de Campo, Liliana, Recsei, Carl, Moir, Michael, Glavatskih, Sergei, Rutland, Mark W., Mudring, Anja-Verena, Hammond, Oliver S., Morris, Daniel C., Bousrez, Guillaume, Li, Sichao, de Campo, Liliana, Recsei, Carl, Moir, Michael, Glavatskih, Sergei, Rutland, Mark W., and Mudring, Anja-Verena

Abstract

Commercial (protiated) samples of the green and biodegradable bioester 2-ethylhexyl laurate (2-EHL) were mixed with D-2-EHL synthesized by hydrothermal deuteration, with the mixtures demonstrating bulk structuring in small-angle neutron scattering measurements. Analysis in a polymer scattering framework yielded a radius of gyration (R (g)) of 6.5 angstrom and a Kuhn length (alternatively described as the persistence length or average segment length) of 11.2 angstrom. Samples of 2-EHL dispersed in acetonitrile formed self-assembled structures exceeding the molecular dimensions of the 2-EHL, with a mean aggregation number (N-agg) of 3.5 +/- 0.2 molecules across the tested concentrations. We therefore present structural evidence that this ester can function as a nonionic (co)-surfactant. The available surfactant-like conformations appear to enable performance beyond the low calculated hydrophilic-lipophilic balance value of 2.9. Overall, our data offer an explanation for 2-EHL's interfacial adsorption properties via self-assembly, resulting in strong emolliency and lubricity for this sustainable ester-based bio-oil.

Published

2024

2. Atmospheric water recycling an essential feature of critical natural asset stewardship

Author

Keys, Patrick W., Collins, Pamela M., Chaplin-Kramer, Rebecca, Wang-Erlandsson, Lan, Keys, Patrick W., Collins, Pamela M., Chaplin-Kramer, Rebecca, and Wang-Erlandsson, Lan

Abstract

Non-technical summary. In this paper, we explore how critically important ecosystems on the land provide evaporation to the atmosphere, which will later fall as precipitation elsewhere. Using a model-based analysis that tracks water flowing through the atmosphere, we find that more than two-thirds of the precipitation over critically important ecosystem areas is supplied by evaporation from other land. Likewise, more than 40% of the evaporation from critically important ecosystems falls as precipitation on other land. We conclude our work by discussing the policy implications for how these critically important ecosystems connect spatially distant wild and working lands via the atmospheric water cycle.Technical summary. Global ecosystems are interconnected via atmospheric water vapor flows. Land use change can modify evaporation from land, altering atmospheric moisture recycling and potentially leading to significant changes in downwind precipitation and associated ecological impacts. We combine insights on global ecosystem-regulated moisture recycling with an analysis of critical natural assets (CNA, the 30% of global land providing most of nature's contributions to people) to reveal the sources and sinks of atmospheric water cycle regulation. We find that 65% of the precipitation over CNA is supplied by evaporation from other land areas. Likewise, CNA regions supply critical moisture as precipitation to terrestrial natural ecosystems and production systems worldwide, with 44% of CNA evaporation falling on terrestrial surfaces. Specifically, the Congo River basin emerges as a hotspot of overlap between local atmospheric water cycle maintenance and concentration of nature's contributions to people. Our results suggest global priority areas for conservation efforts beyond and in support of CNA, emphasizing the importance of sparsely populated managed forests and rangelands, along with wild forests, for fostering moisture recycling to and within CNA. This work also und

Published

2024

3. Operationalizing ambiguity in sustainability science : embracing the elephant in the room

Author

Lazurko, Anita, Haider, L. Jamila, Hertz, Tilman, West, Simon, Mccarthy, Daniel D. P., Lazurko, Anita, Haider, L. Jamila, Hertz, Tilman, West, Simon, and Mccarthy, Daniel D. P.

Abstract

Ambiguity is often recognized as an intrinsic aspect of addressing complex sustainability challenges. Nevertheless, in the practice of transdisciplinary sustainability research, ambiguity is often an ‘elephant in the room’ to be either side-stepped or reduced rather than explicitly mobilized in pursuit of solutions. These responses threaten the salience and legitimacy of sustainability science by masking the pluralism of real-world sustainability challenges and how research renders certain frames visible and invisible. Critical systems thinking (CST) emerged from the efforts of operational researchers to address theoretical and practical aspects of ambiguity. By adapting key concepts, frameworks, and lessons from CST literature and case studies, this paper aims to establish (1) an expansive conceptualization of ambiguity and (2) recommendations for operationalizing ambiguity as a valuable means of addressing sustainability challenges. We conceptualize ambiguity as an emergent feature of the simultaneous and interacting boundary processes associated with being, knowing, and intervening in complex systems, and propose Reflexive Boundary Critique (RBC) as a novel framework to help navigate these boundary processes. Our characterization of ambiguity acknowledges the boundary of a researcher’s subjective orientation and its influence on how ambiguity is exposed and mediated in research (being), characterizes knowledge as produced through the process of making boundary judgments, generating a partial, contextual, and provisional frame (knowing), and situates a researcher as part of the complexity they seek to understand, rendering any boundary process as a form of intervention that reinforces or marginalizes certain frames and, in turn, influences action (intervening). Our recommendations for sustainability scientists to operationalize ambiguity include (1) nurturing the reflexive capacities of transdisciplinary researchers to navigate persistent ambiguity (e.g., using ou

Published

2024

4. Scoping article : research frontiers on the governance of the Sustainable Development Goals

Author

Hickmann, Thomas, Biermann, Frank, Sénit, Carole-Anne, Sun, Yixian, Bexell, Magdalena, Bolton, Mitzi, Bornemann, Basil, Censoro, Jecel, Charles, Aurelie, Coy, Dominique, Dahlmann, Frederik, Elder, Mark, Fritzsche, Felicitas, Gehre Galvão, Thiago, Grainger-Brown, Jarrod, Inoue, Cristina, Jönsson, Kristina, Koloffon Rosas, Montserrat, Krellenberg, Kerstin, Moallemi, Enayat, Lobos Alva, Ivonne, Malekpour, Shirin, Ningrum, Dianty, Paneva, Aneliya, Partzsch, Lena, Ramiro, Rodrigo, Raven, Rob, Szedlacsek, Eszter, Thompson, John, van Driel, Melanie, Viani Damasceno, Jéssica, Webb, Robert, Weiland, Sabine, Hickmann, Thomas, Biermann, Frank, Sénit, Carole-Anne, Sun, Yixian, Bexell, Magdalena, Bolton, Mitzi, Bornemann, Basil, Censoro, Jecel, Charles, Aurelie, Coy, Dominique, Dahlmann, Frederik, Elder, Mark, Fritzsche, Felicitas, Gehre Galvão, Thiago, Grainger-Brown, Jarrod, Inoue, Cristina, Jönsson, Kristina, Koloffon Rosas, Montserrat, Krellenberg, Kerstin, Moallemi, Enayat, Lobos Alva, Ivonne, Malekpour, Shirin, Ningrum, Dianty, Paneva, Aneliya, Partzsch, Lena, Ramiro, Rodrigo, Raven, Rob, Szedlacsek, Eszter, Thompson, John, van Driel, Melanie, Viani Damasceno, Jéssica, Webb, Robert, and Weiland, Sabine

Abstract

Non-Technical Summary This article takes stock of the 2030 Agenda and focuses on five governance areas. In a nutshell, we see a quite patchy and often primarily symbolic uptake of the global goals. Although some studies highlight individual success stories of actors and institutions to implement the goals, it remains unclear how such cases can be upscaled and develop a broader political impact to accelerate the global endeavor to achieve sustainable development. We hence raise concerns about the overall effectiveness of governance by goal-setting and raise the question of how we can make this mode of governance more effective. Technical Summary A recent meta-analysis on the political impact of the Sustainable Development Goals (SDGs) has shown that these global goals are moving political processes forward only incrementally, with much variation across countries, sectors, and governance levels. Consequently, the realization of the 2030 Agenda for Sustainable Development remains uncertain. Against this backdrop, this article explores where and how incremental political changes are taking place due to the SDGs, and under what conditions these developments can bolster sustainability transformations up to 2030 and beyond. Our scoping review builds upon an online expert survey directed at the scholarly community of the 'Earth System Governance Project' and structured dialogues within the 'Taskforce on the SDGs' under this project. We identified five governance areas where some effects of the SDGs have been observable: (1) global governance, (2) national policy integration, (3) subnational initiatives, (4) private governance, and (5) education and learning for sustainable development. This article delves deeper into these governance areas and draws lessons to guide empirical research on the promises and pitfalls of accelerating SDG implementation. Social Media Summary As SDG implementation lags behind, this article explores 5 governance areas asking how to strengthen the g

Published

2024

5. Glycerol Ketal Biobased Product Preparation from Biomass-Derived Reactants Using an H-ZSM-5 Catalyst for Oil Color Painting Application

Author

Davisayahvorakul, Ratikorn, Muangmeesri, Suthawan, Jiraroj, Duangkamon, Lohanut, Supanat, Samec, Joseph S. M., Tungasmita, Duangamol N., Davisayahvorakul, Ratikorn, Muangmeesri, Suthawan, Jiraroj, Duangkamon, Lohanut, Supanat, Samec, Joseph S. M., and Tungasmita, Duangamol N.

Abstract

Condensation of glycerol with bioderived carbonyls yields cyclic ketals with unique properties. In this study, efficient solvent-free heterogeneously catalyzed ketalization has been achieved to give the corresponding products in good to excellent yields. Substrate-to-glycerol ratios of 1:1 have been used; the reactions were performed at 120 °C for 30 min. By using an acid-treated H-ZSM-5 catalyst, high selectivity to a five-membered ring was achieved. Furthermore, the catalyst could be recycled up to 4 times without losing activity. The ketal from glycerol and levulinic acid (GLK) was isolated and applied as a solvent in oil color paint and showed advantageous properties over commercial paint solvents in terms of aging.

Published

2024

6. Recycling of Polyesters by Organocatalyzed Methanolysis Depolymerization : Environmental Sustainability Evaluated by Life Cycle Assessment

Author

Muangmeesri, Suthawan, Baddigam, Kiran Reddy, Navare, Kranti, Apostolopoulou Kalkavoura, Varvara, Witthayolankowit, Kuntawit, Håkansson, Helena, Mathew, Aji P., Van Acker, Karel, Samec, Joseph S. M., Muangmeesri, Suthawan, Baddigam, Kiran Reddy, Navare, Kranti, Apostolopoulou Kalkavoura, Varvara, Witthayolankowit, Kuntawit, Håkansson, Helena, Mathew, Aji P., Van Acker, Karel, and Samec, Joseph S. M.

Abstract

Polyethylene terephthalate (PET) is one of the most common plastics and can be cascaded mechanically during its life cycle. However, recycling affects the mechanical properties of the material, and the virgin material is constantly in demand. If a worn material could be depolymerized to its chemical building blocks, then a virgin polymer could be generated from old fibers. In this work, we have developed a benign organo-catalytic depolymerization of PET to yield dimethyl terephthalate (DMT) and ethylene glycol (EG) without the need for purification of generated monomers. By recirculating the solvent and organo-catalyst, a solvent/substrate ratio of 3:1 was achieved. The depolymerization was successfully applied to other polyesters, polycarbonates, and polycotton. The cotton isolated from the polycotton depolymerization was successfully processed into viscose fibers with a tenacity in the range of nonwaste cotton-derived viscose filaments. The global warming potential (GWP) of PET depolymerization was evaluated by using life cycle assessment (LCA). The GWP of 1 kg PET recycling is 2.206 kg CO2 equivalent, but the process produces DMT, EG, and heat, thereby avoiding the emissions equivalent to 4.075 kg CO2 equivalent from the DMT, EG, and steam-energy production through conventional pathways. Thus, the net result potentially avoids the emission of 1.88 kg of CO2 equivalent. The impact of this process is lower than that of waste PET incineration and conventional PET recycling technologies.

Published

2024

7. Navigating complexity with the four pillars of social sustainability

Author

Nilsson, Caroline, Levin, Tarina, Colding, Johan, Sjöberg, Stefan, Barthel, Stephan, Nilsson, Caroline, Levin, Tarina, Colding, Johan, Sjöberg, Stefan, and Barthel, Stephan

Abstract

The concept of social sustainability has long been a subject of discussion within academic literature and practitioners. However, there remains a lack of clarity in its definition and scholars argue that this can impacting the legitimacy of addressing social sustainability challenges. Through a systematic literature review and a content analysis, we shed light on the multifaceted discourse surrounding the concept of social sustainability, elucidating its diverse applications and meanings portrayed and defined within scholarly discourse. Our findings show that the concept predominantly revolves around four prevalent categories: Equity, Well-being, Participation and Influence, and 'Social Capital. Based on results, we develop and present a novel analytical framework of the four pillars of social sustainability, referred to as the SoSuCompass, representing a conceptual framework to clarify the concept's multifaceted nature. The framework can serve as a tool for a fuller comprehension of the definition of social sustainability.

Published

2024

8. A science-based heuristic to guide sector-level SDG investment strategy

Author

Maniatakou, Sofia, Crona, Beatrice, Jean-Charles, Isabelle, Ohlsson, Moa, Lillepold, Kate, Causevic, Amar, Maniatakou, Sofia, Crona, Beatrice, Jean-Charles, Isabelle, Ohlsson, Moa, Lillepold, Kate, and Causevic, Amar

Abstract

Aligning investments with Sustainable Development Goals (SDGs) has been a longstanding ambition for many private investors. The assessment of corporate impact on the SDGs is not a trivial task, and most present-day attempts often overlook SDG interactions, and lack scientific anchoring and transparency. We present an evidence-based review approach for investors to assess sector-level impacts on individual SDGs, and score these using a traffic-light system. Our initial review documents impacts of 81 economic sectors on SDGs 1-16. Results show that environmental SDGs are impacted negatively by most economic sectors, and that primary sector activities negatively impact the highest number of SDGs. Using the agricultural sector as a case, we draw on Causal Loop methodology to illustrate spillovers resulting from SDG interactions. Our findings point to three key considerations of relevance for sustainable investment strategies; the necessity to capture ‘impact shadows’, spillovers across SDGs, and the hierarchical nature of the SDGs.

Published

2024

9. Comparison of optimized data-driven models for landslide susceptibility mapping

Author

Ghayur Sadigh, Armin, Alesheikh, Ali Asghar, Bateni, Sayed M., Jun, Changhyun, Lee, Saro, Nielson, Jeffrey R., Panahi, Mahdi, Rezaie, Fatemeh, Ghayur Sadigh, Armin, Alesheikh, Ali Asghar, Bateni, Sayed M., Jun, Changhyun, Lee, Saro, Nielson, Jeffrey R., Panahi, Mahdi, and Rezaie, Fatemeh

Abstract

Locations prone to landslides must be identified and mapped to prevent landslide-related damage and casualties. Machine learning approaches have proven effective for such tasks and have thus been widely applied. However, owing to the rapid development of data-driven approaches, deep learning methods that can exhibit enhanced prediction accuracies have not been fully evaluated. Several researchers have compared different methods without optimizing them, whereas others optimized a single method using different algorithms and compared them. In this study, the performances of different fully optimized methods for landslide susceptibility mapping within the landslide-prone Kermanshah province of Iran were compared. The models, i.e., convolutional neural networks (CNNs), deep neural networks (DNNs), and support vector machine (SVM) frameworks were developed using 14 conditioning factors and a landslide inventory containing 110 historical landslide points. The models were optimized to maximize the area under the receiver operating characteristic curve (AUC), while maintaining their stability. The results showed that the CNN (accuracy = 0.88, root mean square error (RMSE) = 0.37220, and AUC = 0.88) outperformed the DNN (accuracy = 0.79, RMSE = 0.40364, and AUC = 0.82) and SVM (accuracy = 0.80, RMSE = 0.42827, and AUC = 0.80) models using the same testing dataset. Moreover, the CNN model exhibiting the highest robustness among the three models, given its smallest AUC difference between the training and testing datasets. Notably, the dataset used in this study had a low spatial accuracy and limited sample points, and thus, the CNN approach can be considered useful for susceptibility assessment in other landslide-prone regions worldwide, particularly areas with poor data quality and quantity. The most important conditioning factors for all models were rainfall and the distances from roads and drainages.

Published

2024

10. Enhancing catalytic and antibacterial activity with size-controlled yttrium and graphene quantum dots doped MgO nanostructures: A molecular docking analysis

Author

Universitat Rovira i Virgili, Siddique, MA; Imran, M; Haider, A; Shahzadi, A; Ul-Hamid, A; Nabgan, W; Batool, M; Khan, K; Ikram, M; Somaily, HH; Mahmood, A, Universitat Rovira i Virgili, and Siddique, MA; Imran, M; Haider, A; Shahzadi, A; Ul-Hamid, A; Nabgan, W; Batool, M; Khan, K; Ikram, M; Somaily, HH; Mahmood, A

Abstract

Designing efficient catalysts that possess large number of active sites, high catalytic activity and selectivity while also exhibiting strong antimicrobial activity is a challenging task because of poor control over material fabrication. Therefore, developing new and innovative approaches for the synthesis of catalytic materials is crucial for addressing these challenges. Here, we report the controlled fabrication of GQDs/Y-doped MgO nanoparticles achieved by co doping of yttrium (Y) and graphene quantum dots (GQDs) in magnesium oxide (MgO) based nanostructures (NSs) using the co-precipitation method. The co-doping of GQDs and Y was controlled by manipulating the ratio of precursors where introduction of GQD resulted in higher surface area and enhanced conductivity while the doping of Y enhanced the number of active sites in the final product. The GQDs/Y-doped MgO exhibited an average particle size of similar to 50 nm and a bandgap of 3.6 eV. Owing to these excellent characteristics, the GQDs/Y-doped MgO was utilized as a catalyst for treatment of the organic pollutants from water as well as antibacterial activity. The modified GQDs/Y-doped MgO nanostructure exhibited excellent activity of over 99.9 % for dye removal and versatility in a broad range of pH which clearly indicated the application in a range of different environments. Furthermore, the GQDs/Y-doped MgO exhibited excellent antibacterial activity against Escherichia Coli (E. Coli) bacteria. To gain further insights into the origins of this excellent activity response, the molecular docking simulations (MDS) is utilized against DNA gyrase and FabI (two enzymes critical to nucleic acid and fatty acid biosynthesis, respectively), to uncover the mechanism behind the observed antibacterial effects. In summary, the

Published

2024

11. Current progress on lignocellulosic bioethanol including a technological and economical perspective

Author

Enginyeria Química, Universitat Rovira i Virgili, Ceaser R; Montané D; Constantí M; Medina F, Enginyeria Química, Universitat Rovira i Virgili, and Ceaser R; Montané D; Constantí M; Medina F

Abstract

Growing interest in lignocellulosic bioethanol stems from the European Union's renewable energy directive, targeting a global bioethanol output of 130 billion L to achieve a minimum threshold of 42.5%. Despite industrialization challenges, recent advancements, especially in crucial stages like pretreatment, hydrolysis, and fermentation, are transforming the landscape. This review delves into the progress of bioethanol production, addressing technological, environmental, and economic hurdles. Innovations such as deep eutectic solvent pretreatment and mechanocatalysis, offering advantages like 30% and 100% solid loading, respectively, surpass traditional techniques and enzymatic hydrolysis in yielding better results. Improved pretreatment methods, enzyme exploration, saccharification techniques, genetic engineering, and integrated biorefineries contribute to overall economic viability. Ongoing research involves techno-economic analysis for cost-effective strategies, aiming to enhance the competitiveness of lignocellulosic bioethanol production. Scrutinizing the feasibility of these innovative approaches not only highlights their potential to overcome existing shortcomings but also envisions a more attractive future for industrial bioethanol production. Embracing these advancements could pave the way for a vibrant and sustainable bioethanol industry.

Published

2024

12. Classroom Emotion Monitoring Based on Image Processing

Author

Universitat Rovira i Virgili, Llurba, C; Fretes, G; Palau, R, Universitat Rovira i Virgili, and Llurba, C; Fretes, G; Palau, R

Abstract

One challenge of teaching and learning the lack of information during these processes, including information about students’ emotions. Emotions play a role in learning and processing information, impacting accurate comprehension. Furthermore, emotions affect students’ academic engagement and performance. Consideration of students’ emotions, and therefore their well-being, contributes to building a more sustainable society. A new way of obtaining such information is by monitoring students’ facial emotions. Accordingly, the purpose of this study was to explore whether the use of such advanced technologies can assist the teaching–learning process while ensuring the emotional well-being of secondary school students. A model of Emotional Recognition (ER) was designed for use in a classroom. The model employs a custom code, recorded videos, and images to identify faces, follow action units (AUs), and classify the students’ emotions displayed on screen. We then analysed the classified emotions according to the academic year, subject, and moment in the lesson. The results revealed a range of emotions in the classroom, both pleasant and unpleasant. We observed significant variations in the presence of certain emotions based on the beginning or end of the class, subject, and academic year, although no clear patterns emerged. Our discussion focuses on the relationship between emotions, academic performance, and sustainability. We recommend that future research prioritise the study of how teachers can use ER-based tools to improve both the well-being and performance of students.

Published

2024

13. Spatial patterns of built structures co-determine nations level of resource demand

Author

Universitat Rovira i Virgili, Duro, JA; Perez-Laborda, A; Löw, M; Matej, S; Plank, B; Krausmann, F; Wiedenhofer, D; Haberl, H, Universitat Rovira i Virgili, and Duro, JA; Perez-Laborda, A; Löw, M; Matej, S; Plank, B; Krausmann, F; Wiedenhofer, D; Haberl, H

Abstract

Societies’ use of material resources is increasingly recognized as a key factor behind sustainability problems. The mass of materials used per capita and year differs substantially between countries. However, a limited range of variables (mostly per-capita gross domestic product [GDP]) were analyzed to explain this variation. Spatial patterns of cities influence their resource use, but the role of patterns of settlements and infrastructures as co-determinants of national-level material use is unknown, mainly due to lacking data to investigate their effects at that scale. Here we start closing this gap by systematically analyzing a broad set of potential determinants of national per-capita material demand, including built structures. Material demand is represented by both production- and consumption-based indicators. Among its potential determinants, we analyze eight novel indicators representing extent and spatial patterns of settlements and transport infrastructures in each country, along with GDP and other indicators considered so far. Analyzing 123 countries inhabited by 91% of the world population and accounting for 92% of world GDP, we show that built structures strongly co-determine resource use. Indicators of extent and spatial patterns of built structures have substantial additional explanatory power beyond GDP and other conventional indicators for both production- and consumption-based material flow indicators. The area of built-up land per capita emerges as the strongest predictor, but several other indicators representing built structures are also highly relevant. Limiting built-up land and designing spatial patterns of built structures hence deserve attention in attempts to reduce societies’ resource throughput.

Published

2024

14. The bioeconomy in spain as a new economic paradigm: the role of key sectors with different approaches

Author

Universitat Rovira i Virgili, Ferreira, V; Pié, L; Mainar-Causapé, A; Terceño, A, Universitat Rovira i Virgili, and Ferreira, V; Pié, L; Mainar-Causapé, A; Terceño, A

Abstract

The bioeconomy includes the sectors that use renewable biological resources to produce value added products, such as food, feed, energy, and bio-based products. Its importance has been demonstrated by its inclusion as a priority in specific and related policies such as the bioeconomy strategy, the Sustainable Development Goals, the European Green Deal, and the Next Generation recovery plan. Spain has not lagged behind and considers the bioeconomy as a priority in its policy strategies to achieve a more sustainable economy. Despite its importance, the analysis of the potential of the bioeconomy sectors in Spain is limited. To carry out policy-relevant impact assessment in support of bioeconomy development, specific databases describing bio-based products are required. Hence, this work based on the Bio Social Accounting Matrix (BioSAM) for Spain for the year 2010 with a high disaggregation of bio products to perform a structural analysis based on two different and complementary methods: the traditional and the Hypothetical Extraction approach. The structural analysis results reveal promising products as key wealth generators and growth promoters and allow to identify the most suitable to be stimulated with policies to promote the development of the Spanish bioeconomy. Therefore, this paper provides some proposed avenues that should be considered by policymakers.

Published

2024

15. The impacts of the European chemical industry on the planetary boundaries

Author

Universitat Rovira i Virgili, Barnosell, I; Pozo, C, Universitat Rovira i Virgili, and Barnosell, I; Pozo, C

Abstract

The European chemical industry plays a crucial role in the economy, manufacturing thousands of products that find applications across many sectors. On the other hand, the sector is also one of the largest energy consumers, and emits significant amounts of greenhouse gases, together with toxic, bioaccumulative and persistent chemicals. Acknowledging the need for a shift towards a greener industry model, this contribution assesses the absolute sustainability level of the chemical sector by contrasting the impacts it causes with the ecological capacity of the planet, as given by the planetary boundaries framework. Results indicate that impacts incurred by the European chemical industry transgress CO2-based thresholds significantly, with burdens on atmospheric CO2 concentration, energy imbalance, and ocean acidification being 15, 16 and 6 times larger than planetary limits. The biosphere integrity boundary, assessed here based on functional diversity, is also transgressed by 3 %. The five chemicals with the highest production volume, namely ammonia, polypropylene, high-density polyethylene, styrene, and benzene, are responsible for around 50 % of impacts in all the planetary boundaries. This suggests that they should be the target of dedicated research and policies. Finally, the study assesses a set of improvement pathways for the European chemical industry to become sustainable. It is found that the deployment of carbon capture and storage technologies to compensate for the greenhouse gases emitted by the sector would allow the chemical industry to meet all the planetary boundaries concurrently, yet burden-shifting would still cause other planetary boundaries to be deteriorated. This evidences the need to employ holistic approaches to assess the wide implications of any so

Published

2024

16. Methanesulfonic Acid (MSA) in Hydrometallurgy

Author

Peter Tom Jones and Koen Binnemans

Subjects

Technology, Science & Technology, FERRIC METHANESULFONATE, TRIFLIC ACID, Metals and Alloys, RECOVERY, Environmental Science (miscellaneous), RARE-EARTH, Electrometallurgy, JAROSITE RESIDUE, LEAD, METHANE, Extractive metallurgy, MOLECULAR-DYNAMICS, DISSOLUTION, Mechanics of Materials, AQUEOUS-SOLUTIONS, Hydrometallurgy, Leaching, Science & Technology - Other Topics, Metallurgy & Metallurgical Engineering, Green & Sustainable Science & Technology, Solution chemistry

Abstract

This paper reviews the properties of methanesulfonic acid (MSA) and its potential for use in hydrometallurgy. Although MSA is much less known than sulfuric, hydrochloric or nitric acid, it has several appealing properties that makes it very attractive for the development of new circular flowsheets in hydrometallurgy. Unlike other organic acids such as acetic acid, MSA is a very strong acid (pKa = − 1.9). In addition, it is very stable against chemical oxidation and reduction, and has no tendency to hydrolyze in water. In terms of its environmental impact, MSA has low toxicity and is biodegradable. In nature, it is part of the geochemical sulfur cycle. A useful property is the high solubility of its salts in water: methanesulfonate salts have a much higher solubility in water than sulfate salts. Additionally, MSA and its salts are compatible with the electrowinning of metals because the anode reaction involves the formation of oxygen gas (unlike chlorine gas formation in chloride electrolytes) and no cathodic reduction of the anion occurs (unlike nitrate reduction in nitrate electrolytes). MSA is particularly interesting for lead hydrometallurgy, where it offers more environment-friendly alternatives to HBF4 and H2SiF6. However, MSA can also be adopted in all hydrometallurgical processes that require strong Brønsted acids. It can be used in the metallurgy of copper, zinc, cobalt, nickel, and rare earths, as well as in the recycling of metals from end-of-life products. Although MSA itself is a non-oxidizing acid, in combination with hydrogen peroxide it yields strongly oxidizing lixiviants that can leach copper from chalcopyrite or dissolve metallic silver. The global production of MSA is expected to increase rapidly in the near future thanks to both the industrialization of a new sustainable synthesis process and its many applications (cleaning fluids, electrolytes for electroplating, redox-flow batteries, catalysts in organic synthesis, and as a solvent for high-molecular-weight polymers). As a result, MSA will become more widely available and a lower price will make it an increasingly attractive option. Graphical Abstract

Published

2022

17. The Twelve Principles of Circular Hydrometallurgy

Author

Peter Tom Jones and Koen Binnemans

Subjects

OF-THE-ART, Technology, Science & Technology, METALLURGICAL INDUSTRY, Circular economy, XRF ANALYSIS, SOLVENT-EXTRACTION, NITRATE HYDROMETALLURGY, METAL REMOVAL, IRON CONTROL, Metals and Alloys, Environmental Science (miscellaneous), Sustainability, Extractive metallurgy, Mechanics of Materials, METHANESULFONIC-ACID, Hydrometallurgy, Science & Technology - Other Topics, Metallurgy & Metallurgical Engineering, Green & Sustainable Science & Technology, Solution chemistry, FLUIDIZED-BED ELECTRODE, ACID-MINE DRAINAGE

Abstract

In this academic position paper, we propose the 12 Principles of a novel and more sustainable approach to hydrometallurgy that we call “circular hydrometallurgy.” The paper intends to set a basis for identifying future areas of research in the field of hydrometallurgy, while providing a “sustainability” benchmark for assessing existing processes and technological developments. Circular hydrometallurgy refers to the designing of energy-efficient and resource-efficient flowsheets or unit processes that consume the minimum quantities of reagents and result in minimum waste. The application of a circular approach involves new ways of thinking about how hydrometallurgy is applied for both primary and secondary resources. In either case, the emphasis must be on the regeneration and reuse of every reagent in the process. This refers not only to the acids and bases employed for leaching or pH control, but also any reducing agents, oxidizing agents, and other auxiliary reagents. Likewise, the consumption of water and energy must be reduced to an absolute minimum. To consolidate the concept of circular hydrometallurgical flowsheets, we present the 12 Principles that will boost sustainability: (1) regenerate reagents, (2) close water loops, (3) prevent waste, (4) maximize mass, energy, space, and time efficiency, (5) integrate materials and energy flows, (6) safely dispose of potentially harmful elements, (7) decrease activation energy, (8) electrify processes wherever possible, (9) use benign chemicals, (10) reduce chemical diversity, (11) implement real-time analysis and digital process control, and (12) combine circular hydrometallurgy with zero-waste mining. Although we realize that the choice of these principles is somewhat arbitrary and that other principles could be imagined or some principles could be merged, we are nevertheless convinced that the present framework of these 12 Principles, as put forward in this position paper, provides a powerful tool to show the direction of future research and innovation in hydrometallurgy, both in industry and in academia. Graphical Abstract

Published

2022

18. Conversion of Lithium Chloride into Lithium Hydroxide by Solvent Extraction

Author

Sofía Riaño, Koen Binnemans, Ward Caytan, Clio Deferm, Viet Tu Nguyen, and Peter Tom Jones

Subjects

Technology, Science & Technology, Solvent extraction, MONOHYDRATE, STABILITY, CHLORINATION, PHASE-TRANSFER CATALYSIS, Metals and Alloys, Aliquat 336, Lithium, RECOVERY, Environmental Science (miscellaneous), EXTRACTABILITY, MEDIA, Antisolvent precipitation, Mechanics of Materials, BETA-SPODUMENE, DILUENT, Hydrometallurgy, SEPARATION, Science & Technology - Other Topics, Metallurgy & Metallurgical Engineering, Green & Sustainable Science & Technology, Ion exchange

Abstract

UNLABELLED: A hydrometallurgical process is described for conversion of an aqueous solution of lithium chloride into an aqueous solution of lithium hydroxide via a chloride/hydroxide anion exchange reaction by solvent extraction. The organic phase comprises a quaternary ammonium chloride and a hydrophobic phenol in a diluent. The best results were observed for a mixture of the quaternary ammonium chloride Aliquat 336 and 2,6-di-tert-butylphenol (1:1 molar ratio) in the aliphatic diluent Shellsol D70. The solvent extraction process involves two steps. In the first step, the organic phase is contacted with an aqueous sodium hydroxide solution. The phenol is deprotonated, and a chloride ion is simultaneously transferred to the aqueous phase, leading to in situ formation of a quaternary ammonium phenolate in the organic phase. The organic phase, comprising the quaternary ammonium phenolate, is contacted in the second step with an aqueous lithium chloride solution. This contact converts the phenolate into the corresponding phenol by protonation with water extracted to the organic phase, followed by a transfer of hydroxide ions to the aqueous phase and chloride ions to the organic phase. As a result, the aqueous lithium chloride solution is transformed into a lithium hydroxide solution. The process has been demonstrated in continuous counter-current mode in mixer-settlers. Solid battery-grade lithium hydroxide monohydrate was obtained from the aqueous solution by crystallization or by antisolvent precipitation with isopropanol. The process consumes no chemicals other than sodium hydroxide. No waste is generated, with the exception of an aqueous sodium chloride solution. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s40831-022-00629-2. ispartof: JOURNAL OF SUSTAINABLE METALLURGY vol:9 issue:1 pages:107-122 ispartof: location:Netherlands status: published

Published

2022

19. Mapping the automation of Twitter communications on climate change, sustainability, and environmental crises - a review of current research

Author

Daume, Stefan, Bjersér, Petter, Galaz, Victor, Daume, Stefan, Bjersér, Petter, and Galaz, Victor

Abstract

Online social media such as the microblog Twitter are key digital arenas shaping the public discourse on important societal topics. Automated social media accounts, so-called ‘social bots,’ have emerged as a controversial phenomenon, proven to both disrupt and support online communications on topics such as political elections and public health. To what extent social bots also impact online conversations on climate change, environmental crises, and sustainability remains unknown however. We present a review of current research on social bots and their potential impact on Twitter discourses around climate, environmental, and sustainability topics; we collect the methods used to detect social bots, approaches to determine their online impact, extract a high-level normative assessment of automation, and summarize the recommendations for stakeholders to manage the challenges created by automation. We note a lack of common, comparable methodologies to robustly assess the impacts of social bots, which contributes to simplistic causal claims about their impact on public opinion and behavior. We identify research needs and offer methodological recommendations for future research on this topic of growing importance.

Published

2023

20. Going beyond carbon : An Earth system impact score to better capture corporate and investment impacts on the earth system

Author

Crona, Beatrice, Parlato, Giorgio, Lade, Steven J., Fetzer, Ingo, Maus, Victor, Crona, Beatrice, Parlato, Giorgio, Lade, Steven J., Fetzer, Ingo, and Maus, Victor

Abstract

Corporations are responsible for a significant portion of observed impacts on the Earth system, including greenhouse gas (GHG) emissions, but also water extraction, landuse change and other pressures on nature. These nature-related impacts are essential to consider and capture because they have local impacts on a range of ecosystem functions on which companies and economies depend, but they also fundamentally affect our ability to mitigate and adapt to a changing climate. Furthermore, climate, land and water interact and affect each other in various ways, such that climate change can be exacerbated by degraded ecosystems, which in turn are dependent on water. This paper tests a novel metric developed to capture corporate Earth system impact (ESI) beyond merely direct GHG emissions and explores how such a tool could be used to improve assessments of corporate environmental impacts and support decisions on where to direct public and private investments. We use the mining sector as a test case to illustrate the applicability of the ESI score and examine the impact of the the five largest (by market cap) mining companies in the precious metal mining sector and the top five in the non-precious metal mining sector. We find that many of the mining assets have non-negligible impacts on land and water, and we show that the ESI metric identifies a different set of asset for targeted action than conventional carbon intensity scores would do.

Published

2023

21. Sustainable fashion : to define, or not to define, that is not the question

Author

Palm, Celinda and Palm, Celinda

Abstract

Fashion's unsustainability needs transformative action, as policymakers, business, and wider society all agree. The lack of a clear definition of sustainable fashion is often given as a major reason behind fashion's increasing unsustainability. Taking a social-ecological system perspective, augmented by a feminist critical realist understanding of being (ontology) and knowledge of being (epistemology), I examine the past two decades of academic literature mentioning the concept sustainable fashion. I find a definition is indeed lacking in various academic discourses and approaches related to sustainable fashion. This lack is problematic because it means the fashion industry can talk preposterously without making useful progress on decreasing its negative impacts on people and the living planet. However, the ever-changing patterns and contexts of fashion would soon outdate a single fixed definition. What is presented as a two-sided problem - whether or not to define sustainable fashion - is instead a problematique. Sustainable fashion is better understood as an unsolvable predicament in a complex dynamic intertwined social-ecological system. While no solution exists, there are appropriate reflexive responses. These start by using a critical systems approach that includes fashion's social (non-material) and ecological (material) aspects. A social-ecological system approach prevents businesses from exploiting the slipperiness of inconsistent definitions, aids policymaking by providing context and structure for the many contributory concepts (e.g., slow, green, or circular fashion), and fosters vital transdisciplinary research on sustainable fashion.

Published

2023

22. Solventless Amination of Lignin and Natural Phenolics using 2-Oxazolidinone

Author

Liu, Liyang, Wan, Xue, Chen, Siwei, Boonthamrongkit, Panpipat, Sipponen, Mika H., Renneckar, Scott, Liu, Liyang, Wan, Xue, Chen, Siwei, Boonthamrongkit, Panpipat, Sipponen, Mika H., and Renneckar, Scott

Abstract

Reactive amine compounds are critical for a vast array of useful chemicals in society, yet a limited number of them are derived from renewable resources. This study developed an efficient route to obtain aminated building blocks from phenolic resources derived from nature, such as lignin and tannic acid, for enhancing their utility in applications such as epoxy resins, nylons, polyurethanes, and other polymeric materials. The reaction utilized a carbon storage compound, 2-oxazolidinone as a solvent and as a reagent circumventing the need of hazardous chemistry of conventional amination routes such as those involving formaldehyde. Both free acids and hindered phenolics were readily converted into aminoethyl derivatives resulting in aromatics with primary amine functionality. The aminated compounds, with the potential for enhanced reactivity, can pave the way toward more advanced renewable building blocks.

Published

2023

23. Exploring sufficiency in energy policy : insights from Sweden

Author

Lindgren, Oskar, Hahn, Thomas, Karlsson, Mikael, Malmaeus, Mikael, Lindgren, Oskar, Hahn, Thomas, Karlsson, Mikael, and Malmaeus, Mikael

Abstract

Energy efficiency and renewable energy strategies have been insufficient in achieving rapid and profound reductions of energy-related greenhouse-gas (GHG) emissions. Consequently, energy sufficiency has gained attention as a complementary strategy over the past two decades. Yet, most research on energy sufficiency has been theoretical and its implementation in policy limited. This study draws on the growing sufficiency literature to examine the presence of sufficiency as a strategy for reducing energy-related GHG emissions in Sweden, a country often regarded as a climate-progressive country. By conducting a keyword and content analysis of energy policies and parliamentary debates during four governmental terms of office (2006-2022), this research explores the extent to which sufficiency is integrated into Swedish energy policy, as well as potential barriers to its adoption. The analyses revealed a scarcity of sufficiency elements. Although some policies could potentially result in energy savings, they are infrequent and overshadowed by the prevailing emphasis on efficiency and renewable energy. Furthermore, Sweden lacks a target for sufficiency or absolute energy reductions. The main impediments to sufficiency implementation include the disregard of scientific evidence in the policy-making process and the perceived contradiction between sufficiency and industrial competitiveness. This study thus concludes that sufficiency at best remains at the periphery of Swedish energy policy. Given the reinforced ambitions within the European Union, this raises questions regarding the validity of Sweden's reputation as a climate-progressive country.

Published

2023

24. Study of the Effects of Daylighting and Artificial Lighting at 59° Latitude on Mental States, Behaviour and Perception

Author

Favero, Federico, Lowden, Arne, Bresin, Roberto, Ejhed, Jan, Favero, Federico, Lowden, Arne, Bresin, Roberto, and Ejhed, Jan

Abstract

Although there is a documented preference for daylighting over artificial electric lighting indoors, there are comparatively few investigations of behaviour and perception in indoor day-lit spaces at high latitudes during winter. We report a pilot study designed to examine the effects of static artificial lighting conditions (ALC) and dynamic daylighting conditions (DLC) on the behaviour and perception of two groups of participants. Each group (n = 9 for ALC and n = 8 for DLC) experienced one of the two conditions for three consecutive days, from sunrise to sunset. The main results of this study show the following: indoor light exposure in February in Stockholm can be maintained over 1000 lx only with daylight for most of the working day, a value similar to outdoor workers’ exposure in Scandinavia; these values can be over the recommended Melanopic Equivalent Daylight Illuminance threshold; and this exposure reduces sleepiness and increases amount of activity compared to a static artificial lighting condition. Mood and feeling of time passing are also affected, but we do not exactly know by which variable, either personal or group dynamics, view or variation of the lighting exposure. The small sample size does not support inferential statistics; however, these significant effects might be large enough to be of importance in practice. From a sustainability point of view, daylighting can benefit energy saving strategies and well-being, even in the Scandinavian winter., This study was funded by Bertil och Britt Svenssons Stiftelse för belysningsteknik.

Published

2023

25. Assessing Stakeholders' Preferences for Future Rice Farming Practices in the Mekong Delta, Vietnam

Author

Berg, Håkan, Dang, Simon, Tam, Nguyen Thanh, Berg, Håkan, Dang, Simon, and Tam, Nguyen Thanh

Abstract

Rice farming is the dominating agriculture activity in the Mekong Delta and has been of significant importance for the region's economic development, but it has also had an impact on the environment. Recent governmental policies emphasize the need for sustainable and climate-resilient agriculture; however, policy reforms pushing for transformation towards sustainable socio-agricultural systems are compounded by a lack of coherent and shared visions. Gaps between policy making and implementation and stakeholders' divergent visions of what is meant by sustainable agriculture and how that can be achieved hinder progress. To address this, the Q-methodology was used to elucidate and integrate different perspectives from 41 stakeholders on 35 statements related to agriculture developments in the Mekong Delta. Under the theoretical lens of sustainability, and ecosystem services, the results unveiled four major development schemes, namely production through intensification, sustainable intensification, production through nature, and people and nature in balance. The majority of the stakeholders in this study believed that future agriculture strategies in the Mekong Delta should be designed to promote more diverse and integrated farming methods, emphasizing the environmental and social dimensions of sustainable development. They acknowledged the multifunctional benefits of rice field ecosystems and emphasized the importance of supporting, regulating, and cultural ecosystem services for a long-term and healthy production of food and increased resilience of the Delta's social-ecological systems.

Published

2023

26. Kraft Lignin : A Valuable, Sustainable Resource, Opportunities and Challenges

Author

Argyropoulos, Dimitris D. S., Crestini, Claudia, Dahlstrand, Christian, Furusjö, Erik, Gioia, Claudio, Jedvert, Kerstin, Henriksson, Gunnar, Hulteberg, Christian, Lawoko, Martin, Pierrou, Clara, Samec, Joseph S. M., Subbotina, Elena, Wallmo, Henrik, Wimby, Martin, Argyropoulos, Dimitris D. S., Crestini, Claudia, Dahlstrand, Christian, Furusjö, Erik, Gioia, Claudio, Jedvert, Kerstin, Henriksson, Gunnar, Hulteberg, Christian, Lawoko, Martin, Pierrou, Clara, Samec, Joseph S. M., Subbotina, Elena, Wallmo, Henrik, and Wimby, Martin

Abstract

Kraft lignin, a by-product from the production of pulp, is currently incinerated in the recovery boiler during the chemical recovery cycle, generating valuable bioenergy and recycling inorganic chemicals to the pulping process operation. Removing lignin from the black liquor or its gasification lowers the recovery boiler load enabling increased pulp production. During the past ten years, lignin separation technologies have emerged and the interest of the research community to valorize this underutilized resource has been invigorated. The aim of this Review is to give (1) a dedicated overview of the kraft process with a focus on the lignin, (2) an overview of applications that are being developed, and (3) a techno-economic and life cycle asseeements of value chains from black liquor to different products. Overall, it is anticipated that this effort will inspire further work for developing and using kraft lignin as a commodity raw material for new applications undeniably promoting pivotal global sustainability concerns.

Published

2023

27. Bringing the Nature Futures Framework to life : creating a set of illustrative narratives of nature futures

Author

Paz Duran, América, Kuiper, Jan J., Aguiar, Ana Paula Dutra, Cheung, William W. L., Diaw, Mariteuw Chimère, Halouani, Ghassen, Hashimoto, Shizuka, Gasalla, Maria A., Peterson, Garry D., Schoolenberg, Machteld A., Abbasov, Rovshan, Acosta, Lilibeth A., Armenteras, Dolors, Davila, Federico, Denboba, Mekuria Argaw, Harrison, Paula A., Harhash, Khaled Allam, Karlsson-Vinkhuyzen, Sylvia, Kim, HyeJin, Lundquist, Carolyn J., Miller, Brian W., Okayasu, Sana, Pichs-Madruga, Ramon, Sathyapalan, Jyothis, Saysel, Ali Kerem, Yu, Dandan, Pereira, Laura M., Paz Duran, América, Kuiper, Jan J., Aguiar, Ana Paula Dutra, Cheung, William W. L., Diaw, Mariteuw Chimère, Halouani, Ghassen, Hashimoto, Shizuka, Gasalla, Maria A., Peterson, Garry D., Schoolenberg, Machteld A., Abbasov, Rovshan, Acosta, Lilibeth A., Armenteras, Dolors, Davila, Federico, Denboba, Mekuria Argaw, Harrison, Paula A., Harhash, Khaled Allam, Karlsson-Vinkhuyzen, Sylvia, Kim, HyeJin, Lundquist, Carolyn J., Miller, Brian W., Okayasu, Sana, Pichs-Madruga, Ramon, Sathyapalan, Jyothis, Saysel, Ali Kerem, Yu, Dandan, and Pereira, Laura M.

Abstract

To halt further destruction of the biosphere, most people and societies around the globe need to transform their relationships with nature. The internationally agreed vision under the Convention of Biological Diversity—Living in harmony with nature—is that “By 2050, biodiversity is valued, conserved, restored and wisely used, maintaining ecosystem services, sustaining a healthy planet and delivering benefits essential for all people”. In this context, there are a variety of debates between alternative perspectives on how to achieve this vision. Yet, scenarios and models that are able to explore these debates in the context of “living in harmony with nature” have not been widely developed. To address this gap, the Nature Futures Framework has been developed to catalyse the development of new scenarios and models that embrace a plurality of perspectives on desirable futures for nature and people. In this paper, members of the IPBES task force on scenarios and models provide an example of how the Nature Futures Framework can be implemented for the development of illustrative narratives representing a diversity of desirable nature futures: information that can be used to assess and develop scenarios and models whilst acknowledging the underpinning value perspectives on nature. Here, the term illustrative reflects the multiple ways in which desired nature futures can be captured by these narratives. In addition, to explore the interdependence between narratives, and therefore their potential to be translated into scenarios and models, the six narratives developed here were assessed around three areas of the transformative change debate, specifically, (1) land sparing vs. land sharing, (2) Half Earth vs. Whole Earth conservation, and (3) green growth vs. post-growth economic development. The paper concludes with an assessment of how the Nature Futures Framework could be used to assist in developing and articulating transformative pathways towards desirable nature futures.

Published

2023

28. Solvent-free synthesis of photoluminescent carbon nanoparticles from lignin-derived monomers as feedstock

Author

A. da Cruz, Márcia G., Onwumere, Joy N., Chen, Jianhong, Beele, Björn, Yarema, Maksym, Budnyk, Serhiy, Slabon, Adam, M. Rodrigues, Bruno V., A. da Cruz, Márcia G., Onwumere, Joy N., Chen, Jianhong, Beele, Björn, Yarema, Maksym, Budnyk, Serhiy, Slabon, Adam, and M. Rodrigues, Bruno V.

Abstract

Photoluminescent carbon nanoparticles (CNPs), such as carbon dots (CDs), have attracted much attention owing to a unique set of properties, like high and tunable fluorescence. In this way, the use of carbon-rich lignin has been demonstrated to be a sustainable approach to producing a broad range of photoluminescent CNPs. However, the valorization of this complex polyphenol is limited when it comes to green and efficient ways of conversion. In addition, the existing solvothermal approaches using lignin often result in CDs with low photoluminescence, while flammable and/or toxic solvents are employed. Here, we depolymerized technical lignins, i.e. kraft and soda, through electroreductive cleavage in two different sustainable media: deep eutectic solvent and levulinic acid. After depolymerization, lignin-derived monomers were generated, with a predominance of aryl ether and phenolic groups, which were further combined with 1,2-Phenylenediamine to produce N-doped CNPs in a solvent-free approach. Photoluminescent CNPs with varied sizes were generated (5–50 nm), which presented a wide photoluminescence emission, from blue to red, depending on solvent polarity. These results demonstrate a feasible and sustainable route for the solvent-free synthesis of photoluminescent CNPs using lignin-derived monomers as carbon source, which may find applications in a wide range of fields.

Published

2023

29. Modeling desirable futures at local scale by combining the nature futures framework and multi-objective optimization

Author

Haga, Chihiro, Maeda, Marimi, Hotta, Wataru, Matsui, Takanori, Nakaoka, Masahiro, Morimoto, Junko, Shibata, Hideaki, Hashimoto, Shizuka, Saito, Osamu, Okayasu, Sana, Kim, HyeJin, Peterson, Garry, Haga, Chihiro, Maeda, Marimi, Hotta, Wataru, Matsui, Takanori, Nakaoka, Masahiro, Morimoto, Junko, Shibata, Hideaki, Hashimoto, Shizuka, Saito, Osamu, Okayasu, Sana, Kim, HyeJin, and Peterson, Garry

Abstract

Envisioning positive scenarios that recognize the multiple values of nature is fundamental for designing transformative changes in local socio-ecological systems. This study developed a protocol with three specifications for operationalizing the Nature Futures Framework (NFF) in a landscape scenario analysis using a multi-objective optimization framework composed of: (1) exploring nature-positive futures, (2) seeking alternative pathways for targets satisfying visions of plural values, and (3) screening key direct drivers to achieve the targets. This research conducted a case study of a rural landscape in northeastern Japan. First, 110 strategies of landscape management options were simulated from 2015 to 2100 using a forest landscape model, LANDIS-II. The simulation developed a data frame of four integrated indicators of the NFF values for each year and strategy. Second, nature-positive strategies were screened using the common values. Pareto optimal strategies were then identified to obtain equally good solutions. Finally, the key response options to achieve good nature-positive futures were identified using decision tree analysis. Our protocol identified (1) multiple, but few nature-positive and Pareto optimal strategies that satisfied NFF visions, (2) nature-positive, but not Pareto optimal strategies, and (3) non-nature-positive strategies. In most Pareto optimal strategies, the maximized value perspectives changed over time. Our protocol also identified key response options to achieve three different NFF value perspectives in the case study area: (1) clear or selective cutting in forestry and (2) solar PV installation on abandoned pastureland in agriculture and energy sectors. We discussed the implication for local landscape management, localizing NFF narratives to develop future scenarios and modeling practice of NFF. The protocol does not depend on a specific model and indicator. Thus, our scalable protocol can be applied to scenarios and model practices in

Published

2023

30. Development of In Situ Formed Metal Pyrophosphates (MP2O7, Where M = Sn, Ti, and Zr)/PA/PBI Based Composite Membranes for Fuel Cells

Author

Wang, Z., Zhang, J., Lu, S., Xiang, Y., Shao, Zongping, Jiang, San Ping, Wang, Z., Zhang, J., Lu, S., Xiang, Y., Shao, Zongping, and Jiang, San Ping

Abstract

Development of high temperature polymer electrolyte membrane fuel cells (HT-PEMFCs) at elevated temperatures is important for the enhancement of tolerance toward CO impurities and for the development of non-precious metal catalysts. The key challenge in such HT-PEMFCs is the high temperature polymer electrolyte membranes. Herein, the development of in situ formed metal pyrophosphates (MP2O7, where M = Sn, Ti, and Zr) in phosphoric acid doped polybenzimidazole (PA/PBI) composite membranes for HT-PEMFCs is reported. The formation mechanism of MP2O7, and characteristics of MP2O7/PA/PBI composite membranes are studied in detail. In contrast to the rapid decay in performance of pristine PA/PBI membrane cells, the in situ formed MP2O7/PA/PBI composite membranes show significantly higher proton conductivity, improved performance, and stability at elevated temperatures of 200–250 °C. The best results are obtained on the in situ formed SnP2O7/PA/PBI composite membrane cells, exhibiting a high peak power density of 476 mW cm−2 and proton conductivity of 51.3 mS cm−1 at 250 °C. The excellent durability of SnP2O7/PA/PBI composite membrane is due to the uniform distribution of in situ formed SnP2O7 nanoparticles in PBI membranes and the formation of a gel-like region, thin and irregular amorphous layer on the SnP2O7 with the high acid retention ability. This effectively alleviates the PA leaching at elevated temperatures of the new HT-PEMFCs.

Published

2023

31. Green Hydrogen and Social Sciences: Issues, Problems, and Future Challenges

Author

Universitat Rovira i Virgili, Vallejos-Romero, A; Cordoves-Sánchez, M; Cisternas, C; Sáez-Ardura, F; Rodríguez, I; Aledo, A; Boso, A; Prades, J; Alvarez, B, Universitat Rovira i Virgili, and Vallejos-Romero, A; Cordoves-Sánchez, M; Cisternas, C; Sáez-Ardura, F; Rodríguez, I; Aledo, A; Boso, A; Prades, J; Alvarez, B

Abstract

The article presents a review of the research on green hydrogen from the social sciences, identifying its main lines of research, its problems, and the relevant challenges due to the benefits and impacts that this energy vector has on energy transitions and climate change. The review analyzes a corpus of 78 articles indexed in the Web of Science (WoS) and SCOPUS, published between 1997 and 2022. The review identified three research areas related to green hydrogen and the challenges for the social sciences in the future: (a) risks, socio-environmental impacts, and public perception; (b) public policies and regulation and (c) social acceptance and willingness to use associated technologies. Our results show that Europe and Asia lead the research on green hydrogen from the social sciences. Also, most of the works focus on the area of public policy and regulation and social acceptance. Instead, the field of social perception of risk is much less developed. We found that little research from the social sciences has focused on assessments of the social and environmental impacts of hydrogen on local communities and indigenous groups, as well as the participation of local authorities in rural locations. Likewise, there are few integrated studies (technical and social) that would allow a better assessment of hydrogen and cleaner energy transitions. Finally, the lack of familiarity with this technology in many cases constitutes a limitation when evaluating its acceptance.

Published

2023

32. Methodology for the Identification of Vehicle Congestion Based on Dynamic Clustering

Author

Gestió d'Empreses, Universitat Rovira i Virgili, Reyes, G; Tolozano-Benites, R; Lanzarini, L; Estrebou, C; Bariviera, AF; Barzola-Monteses, J, Gestió d'Empreses, Universitat Rovira i Virgili, and Reyes, G; Tolozano-Benites, R; Lanzarini, L; Estrebou, C; Bariviera, AF; Barzola-Monteses, J

Abstract

Addressing sustainable mobility in urban areas has become a priority in today's society, given the growing population and increasing vehicular flow in these areas. Intelligent Transportation Systems have emerged as innovative and effective technological solutions for addressing these challenges. Research in this area has become crucial, as it contributes not only to improving mobility in urban areas but also to positively impacting the quality of life of their inhabitants. To address this, a dynamic clustering methodology for vehicular trajectory data is proposed which can provide an accurate representation of the traffic state. Data were collected for the city of San Francisco, a dynamic clustering algorithm was applied and then an indicator was applied to identify areas with traffic congestion. Several experiments were also conducted with different parameterizations of the forgetting factor of the clustering algorithm. We observed that there is an inverse relationship between forgetting and accuracy, and the tolerance allows for a flexible margin of error that allows for better results in precision. The results showed in terms of precision that the dynamic clustering methodology achieved high match rates compared to the congestion indicator applied to static cells.

Published

2023

33. Techno-economic analysis of residential rooftop photovoltaics in Spain

Author

Universitat Rovira i Virgili, Saez, R; Boer, D; Shobo, AB; Vallès, M, Universitat Rovira i Virgili, and Saez, R; Boer, D; Shobo, AB; Vallès, M

Abstract

In response to the European Commission's renewable energy targets for 2030, this study presents a comprehensive, data-driven evaluation of the potential for electricity self-consumption in the Spanish residential sector based on rooftop PV systems. Utilizing real-time hourly electricity demand data and various surplus compensation policies, the research highlights the significance of data granularity, indicating that annual data-based PV estimations can lead to rooftop PV self-consumption capacity overestimations when compared to hourly data assessments. Furthermore, geographical variations reveal distinct rooftop PV self-consumption capacities between urban and rural areas, driven mainly by the prevalent building typologies. This discrepancy suggests that while rural regions, with their predominance of single-family dwellings, offer higher PV generation potential due to more available rooftop space, urban areas, dominated by multi-story buildings, face significant constraints in rooftop surface availability. Economically, the current surplus compensation policy in Spain reduces the profitability of PV installations, underscoring the necessity for enhanced policies to fully utilize all the available rooftop areas in the residential sector. The study's findings, particularly the revelation that residential rooftops in Spain may not be enough to meet the current electricity demand, emphasize the need for adaptive, region-specific policies and the potential role of energy communities. Policymakers and industry stakeholders are urged to prioritize rooftop utilization, ensuring the deployment of PV systems is both promoted and economically viable, steering Spain closer to its renewable energy and sustainability aspirations.

Published

2023

34. The burgeoning field of sustainable investment: Past, present and future

Author

Universitat Rovira i Virgili, Beisenbina, Marzhan; Fabregat-Aibar, Laura; Barbera-Marine, Maria-Gloria; Sorrosal-Forradellas, Maria-Teresa, Universitat Rovira i Virgili, and Beisenbina, Marzhan; Fabregat-Aibar, Laura; Barbera-Marine, Maria-Gloria; Sorrosal-Forradellas, Maria-Teresa

Abstract

The current concern with sustainability issues pervades all scientific fields. Sustainable investment is not an exception judging by the significant increase in the literature. This work provides an extensive up-to-date overview of studies on sustainable investment, revealing current trends, identifying gaps and future research topics. A total of 1091 documents are reviewed and bibliometric analysis is used with two approaches: data analysis and conceptual structure of the field. Additionally, a classification into 12 categories by topic is proposed. The results show that more than 40% of the publications belong to analysis of classical investment tools with a gradual evolution towards the concept of "green" instruments. Socially Responsible Investment (SRI) strategies have changed over time from "screening" to the current "best-in-class", "Environmental, Social and Governance (ESG) integration" and "impact investing." The results of the study are valuable for academics and practitioners, as they show the current state of knowledge, evolution paths and emerging topics.

Published

2023

35. Temperature-Responsive Lactic Acid-Based Nanoparticles by RAFT-Mediated Polymerization-Induced Self-Assembly in Water

Author

Universitat Rovira i Virgili, Woods, SE; Tinkler, JD; Bensabeh, N; Palà, M; Martin, SJ; Martin-Fabiani, I; Lligadas, G; Hatton, FL, Universitat Rovira i Virgili, and Woods, SE; Tinkler, JD; Bensabeh, N; Palà, M; Martin, SJ; Martin-Fabiani, I; Lligadas, G; Hatton, FL

Abstract

This work demonstrates for the first-time biobased, temperature-responsive diblock copolymer nanoparticles synthesized by reversible addition-fragmentation chain-transfer (RAFT) aqueous emulsion polymerization-induced self-assembly (PISA). Here, monomers derived from green solvents of the lactic acid portfolio, N,N-dimethyl lactamide acrylate (DMLA) and ethyl lactate acrylate (ELA), were used. First, DMLA was polymerized by RAFT aqueous solution polymerization to produce a hydrophilic PDMLA macromolecular chain transfer agent (macro-CTA), which was chain extended with ELA in water to form amphiphilic PDMLA-b-PELA diblock copolymer nanoparticles by RAFT aqueous emulsion polymerization. PDMLAx homopolymers were synthesized targeting degrees of polymerization, DPx from 25 to 400, with relatively narrow molecular weight dispersities (Đ < 1.30). The PDMLA64-b-PELAy diblock copolymers (DPy = 10-400) achieved dispersities, Đ, between 1.18 and 1.54 with two distinct glass transition temperatures (Tg) identified by differential scanning calorimetry (DSC). Tg(1) (7.4 to 15.7 °C) representative of PELA and Tg(2) (69.1 to 79.7 °C) of PDMLA. Dynamic light scattering (DLS) studies gave particle z-average diameters between 11 and 74 nm (PDI = 0.04 to 0.20). Atomic force microscopy (AFM) showed evidence of spherical particles when dispersions were dried at ∼5 °C and film formation when dried at room temperature. Many of these polymers exhibited a reversible lower critical solution temperature (LCST) in water with a concomitant increase in z-average diameter for the PDMLA-b-PELA diblock copolymer nanoparticles.

Published

2023

36. A Novel H2O/LiBr Absorption Heat Pump with Condensation Heat Recovery for Combined Heating and Cooling Production: Energy Analysis for Different Applications

Author

Universitat Rovira i Virgili, Prieto, J; Ayou, DS; Coronas, A, Universitat Rovira i Virgili, and Prieto, J; Ayou, DS; Coronas, A

Abstract

The aim of this study is to analyze the feasibility of the single-effect H2O/LiBr absorption heat pump cycle to produce combined heating and cooling. To achieve this, first, the main changes that the absorption cycle requires are described in comparison with the conventional single-effect absorption chiller. Then, the cycle’s operational limits in terms of temperature lift and LiBr crystallization are evaluated. In this sense, driving heat temperatures required for these applications range from 85 °C to 120 °C. The energy and exergy performance (in terms of cooling and heating capacities, cooling and heating coefficient of performance, and exergy coefficient of performance) of the cycle is theoretically studied for five different types of applications that require simultaneous heating and cooling: building air conditioning, a 4th generation district heating and cooling network, a sports center with an indoor swimming pool, a hybrid air conditioning system with an absorption heat pump and a desiccant evaporative cooling system, and simultaneous cooling and water purification application for coastal areas. The system performance in terms of the cooling coefficient of performance varies in the range of 0.812–0.842, in terms of heating coefficient of performance from 0.58 to 1.842, and in terms of exergy coefficient of performance from 0.451 to 0.667. The application with the highest exergy coefficient of performance is the 4th generation district heating and cooling network.

Published

2023

37. Microalgae Biofuel for a Heavy-Duty Transport Sector within Planetary Boundaries

Author

Universitat Rovira i Virgili, Cabrera-Jiménez, R; Tulus, V; Gavalda, J; Jiménez, L; Guillén-Gosálbez, G; Pozo, C, Universitat Rovira i Virgili, and Cabrera-Jiménez, R; Tulus, V; Gavalda, J; Jiménez, L; Guillén-Gosálbez, G; Pozo, C

Abstract

In this contribution, we study the extent to which 68 scenarios for microalgae biofuels could help the heavy-duty transport sector operate within planetary boundaries. The proposed scenarios are built considering a range of alternative configurations based on three types of fuel production processes (i.e., transesterification, hydrodeoxygenation, and hydrothermal liquefaction), different carbon sources (such as natural gas power plants and direct air capture), byproduct treatments, and two electricity mixes. Our results reveal that microalgae biofuels could significantly reduce the environmental and human health impacts of the business-as-usual (fossil-based) heavy-duty transport sector. Moreover, relative to standard biofuels that show large land-use requirements, we find that microalgae biofuels also decrease the damage on biosphere integrity substantially. Notably, pathways resorting to hydrodeoxygenation of microalgae oil and direct air capture and carbon storage could reduce the current impact induced globally on climate change by the heavy transport by 77%, while attaining six-fold reductions in biosphere integrity impacts, both relative to conventional biofuels.© 2023 The Authors. Published by American Chemical Society.

Published

2023

38. Hunting sustainable refrigerants fulfilling technical, environmental, safety and economic requirements

Author

Enginyeria Química, Universitat Rovira i Virgili, Albà, CG; Alkhatib, III; Llovell, F; Vega, LF, Enginyeria Química, Universitat Rovira i Virgili, and Albà, CG; Alkhatib, III; Llovell, F; Vega, LF

Abstract

An urgent action to mitigate climate change is the replacement of hydrofluorocarbons used in refrigeration systems, for low-global warming potential (GWP) alternatives, with stringent legislations in place. However, very limited options exist for single-component low-GWP refrigerants with similar technical performance. This work presents an integrated approach for the rational design of low-GWP refrigerant blends, focused on replacing R134a (GWP 1430), and R410A (GWP 2088), used in automotive and domestic air-conditioning, and in high pressure commercial and industrial refrigeration, respectively. A 4 E analysis (energy, exergy, economic and environmental) was employed to select suitable candidates. The molecular polar soft-SAFT theory was used in a predictive manner to fill the gap in thermodynamic data required for evaluating the technical performance based on initial selection criteria including GWP, toxicity, flammability, and degree of azeotropy. Potential candidates from a pool of 432 options were narrowed down and evaluated using a drop-in analysis to replace the working fluids R134a and R410A in today's refrigeration and air conditioning cycles, resulting in seven promising blends. Environmental and cost rate evaluation (geographically dependent based on electricity cost, HFC utilization taxes, and carbon emission factors) quantified the impact associated with their use and emissions, allowing to identify suitable replacements: three blends for replacing R134a: (90/10) wt.% R1243yf + R152a, (90/10) wt.% R1243yf + R134a, and (60/40) wt.% R1243zf + R1234ze(E), and one for replacing R410A: (90/10) wt.% R1123 + R32. This work showcases the importance of using robust thermodynamic models in the search of low-GWP refrigerants blends, considering the 4 E criteria.

Published

2023

39. Catalytic pyrolysis of recycled polypropylene using a regenerated FCC catalyst

Author

Universitat Rovira i Virgili, Palmay P; Medina C; Donoso C; Barzallo D; Bruno JC, Universitat Rovira i Virgili, and Palmay P; Medina C; Donoso C; Barzallo D; Bruno JC

Abstract

The increasing generation of plastic wastes forces us to search for final disposal technologies environmentally friendly such as pyrolysis, which becomes an interesting technique because it takes advantage of the wastes obtaining important products. In addition, catalytic pyrolysis by using commercial catalysts, e.g. such zeolites, alumina or recovered from other industrial processes, it allows decreases the activation energy and selectivity in the obtained products. In this study, we report the evaluation of the catalytic pyrolysis with a regenerated fluid catalytic cracking catalyst using thermogravimetry with polypropylene and a pyrolytic process carried out in a batch reactor with polypropylene in a 1:10 ratio (catalyst-plastic). The regeneration studies were carried using two solvents (ethanol and toluene) at different contact times, then a thermal regeneration at two heating ramps was performed and the best treatment was evaluated by scanning electron microscopy energy-dispersive X-ray spectroscopy and surface area analysis. The results showed a better action of the ethanol in the chemical treatment at 14 h of contact in the heat treatment due to longer gasification of the coke. The degradation process using recovered catalyst decreases the degradation temperature compared to the no-catalyst process. As a consequence, the yield of the liquid fraction decreases by 10% with greater orientation to aliphatic components. Graphical abstract: [Figure not available: see fulltext.].

Published

2023

40. A taxonomy of short-term solar power forecasting: Classifications focused on climatic conditions and input data

Author

Bazionis, Ioannis K, Kousounadis-Knousen, Markos A, Georgilakis, Pavlos S, Shirazi, Elham, Soudris, Dimitrios, and Catthoor, Francky

Subjects

Technology, Science & Technology, NEURAL-NETWORK, Energy & Fuels, power system management, solar power, Engineering, Electrical & Electronic, solar photovoltaic systems, MODEL, OUTPUT, Engineering, EXTREME LEARNING-MACHINE, power system stability, Science & Technology - Other Topics, RADIATION, STRATEGY, Green & Sustainable Science & Technology, renewable energy sources, GENERATION

Abstract

ispartof: IET RENEWABLE POWER GENERATION vol:17 issue:9 pages:2411-2432 status: published

Published

2023

41. Green Solvent Selection for Green-to-Blue Upconversion Based on TTA

Author

Giulia Quaglia, Filippo Campana, Loredana Latterini, and Luigi Vaccaro

Subjects

upconversion, Technology, Engineering, Chemical, Science & Technology, Renewable Energy, Sustainability and the Environment, Chemistry, Multidisciplinary, green photovoltaic, General Chemical Engineering, General Chemistry, TTA-UC, Chemistry, Engineering, energy-transfer reactions, Physical Sciences, SINGLET, Science & Technology - Other Topics, Environmental Chemistry, triplet-triplet annihilation, Green & Sustainable Science & Technology, green solvents

Abstract

ispartof: ACS SUSTAINABLE CHEMISTRY & ENGINEERING vol:10 issue:28 pages:9123-9130 status: published

Published

2022

42. Ionic Liquids and Deep-Eutectic Solvents in Extractive Metallurgy: Mismatch Between Academic Research and Industrial Applicability

Author

Koen Binnemans and Peter Tom Jones

Subjects

RARE-EARTH-ELEMENTS, Technology, Science & Technology, Metals and Alloys, RECOVERY, DEGRADATION, Environmental Science (miscellaneous), THERMOPHYSICAL PROPERTIES, Extractive metallurgy, CHOLINE CHLORIDE, Mechanics of Materials, ACID, Hydrometallurgy, Leaching, SEPARATION, Science & Technology - Other Topics, COBALT, Metallurgy & Metallurgical Engineering, Solvometallurgy, METALS, SELECTIVE DISSOLUTION, Green & Sustainable Science & Technology, Solution chemistry

Abstract

The past 10–20 years have seen numerous academic papers describing the benefits of ionic liquids (ILs) and deep-eutectic solvents (DESs) for leaching, solvent extraction and electrowinning. The scientific community—including the authors of this opinion article—have frequently proclaimed these neoteric solvents as game-changers in extractive metallurgy. Despite this, there have been no commercial breakthroughs. In this paper we reflect on the reasons why ILs and DESs seem to have failed to impact on the metallurgical industry. These include: (1) issues with high viscosity; (2) limited chemical stability under the conditions of metallurgical processes; (3) difficulties with recycling and reuse; (4) a lack of demonstrated unit processes and flowsheets on the pilot scale; (5) insufficient material-property data available for engineering purposes; (6) the administrative burden of obtaining licenses and safety permits; (7) very high costs for large-scale operations; and (8) minimal added value compared to state-of-the-art hydrometallurgical processes. Our belief is that innovations in hydrometallurgy based on ILs or DESs are unlikely. Instead, we should be aiming for a deeper understanding of hydrometallurgical processes at the molecular level. This is because advances are more likely to derive from the refocused efforts of experienced IL/DES researchers investigating the speciation and chemical thermodynamics of hydrometallurgical solutions, which will then hasten the transition from linear to low-energy-input, circular hydrometallurgy. Graphical Abstract

Published

2023

43. A Longitudinal Study Examining the Association between Cognitive Behavior and Rational Abilities and the Effect of Sleep Quality on Construction Laborers

Author

Sathvik Sharath Chandra, Krishnaraj Loganathan, Bankole Osita Awuzie, and Faming Wang

Subjects

Science & Technology, STRESS, construction laborers, rational abilities, cognitive behavior, sleep quality, DISORDERS, IMPACT, Renewable Energy, Sustainability and the Environment, Environmental Studies, OF-LIFE, DURATION, LEVEL, Geography, Planning and Development, Environmental Sciences & Ecology, Building and Construction, Management, Monitoring, Policy and Law, SHIFT WORK, MANAGEMENT, Science & Technology - Other Topics, DEPRIVATION, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Construction laborers are constantly subjected to irregular work hours, leading to insomnia and poor sleep quality, which impacts cognitive and rational behavior. This negatively influences decision-making capabilities, resulting in accidents on site. This study determined the effect of sleep quality on the cognitive behavior and rational ability of construction laborers. A quantitative research design comprised of a questionnaire survey was conducted for data collection purposes. Respondents comprised a randomly selected sample of construction workers, and a statistical analysis of the results was performed to investigate existing correlations. Data were collected using questionnaires from 575 and 310 respondents in the initial and latter phases, respectively, from five construction companies in Southern India, and analyzed using inferential statistics. Shift work negatively affects both the early and late phases of rational abilities. A negative correlation was observed between age and disturbed rationality in the late phase, despite not being observed in the early phase. Gender, rational ability, age, shift work, sleep quality, and cognitive behavior were not correlated in either the early or late phases. Furthermore, age, shift work, and sleep quality were not correlated with cognitive behavior. Rather, sleep quality and shift schedules were associated with rational ability and cognitive behavior impairment. There was a transient relationship between insufficient sleep and the ability to make rational decisions. This study contributes to the current discourse regarding the improvement of the sleep health of construction workers to enhance their well-being and productivity.

Published

2023

44. A review of European low-voltage distribution networks

Author

Dirk Saelens, Simon Meunier, Christina Protopapadaki, and Rui Guo

Subjects

Technology, Science & Technology, Energy & Fuels, STRATEGIES, Renewable Energy, Sustainability and the Environment, IMPACT, POWER, Techno-economic data, PV, Low -carbon technologies, Low -voltage distribution network, Europe, PHOTOVOLTAIC SYSTEMS, ENERGY, Science & Technology - Other Topics, DISTRIBUTION GRIDS, Grid reinforcements, Green & Sustainable Science & Technology, REINFORCEMENT COST, INTEGRATION

Abstract

ispartof: RENEWABLE & SUSTAINABLE ENERGY REVIEWS vol:173 status: published

Published

2023

45. The influence of energy output and substitution on the environmental impact of waste-to-energy operation: quantification by means of a case study

Author

G. Wauters, Jo Van Caneghem, Jan-Kees De Voogd, and Elizabeth Zoe Boakes

Subjects

Technology, Economics and Econometrics, Environmental Engineering, Circular economy, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Life cycle assessment, Engineering, Material recovery from waste, MANAGEMENT, CARBON CAPTURE, Environmental Chemistry, Environmental impact assessment, CO2 CAPTURE, Green & Sustainable Science & Technology, MUNICIPAL SOLID-WASTE, Science & Technology, CLIMATE-CHANGE, Waste management, Waste-to-energy, LCA, Substitution (logic), Engineering, Environmental, Sustainable waste management, RECOVERY, General Business, Management and Accounting, LIFE-CYCLE ASSESSMENT, Environmental science, Science & Technology - Other Topics, TECHNOLOGIES, INCINERATION, Life Sciences & Biomedicine, Energy (signal processing), Environmental Sciences

Abstract

A Life Cycle Assessment (LCA) was conducted to evaluate the total environmental impact of state-of-the-art Waste-to-Energy (WtE) in Belgium, with respect to recovered energy utilization and addition of Carbon Capture and Storage (CCS). Four energy output scenarios were modelled on Umberto LCA software using primary data of mass and energy flows surrounding the six incinerators at the considered WtE plant, and predefined processes from the Ecoinvent 3.6 database. The normalized LCA results suggest that by utilizing all the recovered energy as steam, the WtE plant can avoid an equivalent annual environmental impact value of approximately 21200, 36800, 6700, 15800, 37000 and 6900 average European citizens in the impact categories ‘climate change’, ‘freshwater and terrestrial acidification’, ‘freshwater eutrophication, ‘photochemical ozone creation’ and ‘respiratory effects, inorganics’, ‘terrestrial eutrophication’, respectively. The ‘Electricity and Steam with CCS’ scenario resulted in the most avoided environmental impact in the impact category ‘climate change’. However, in all other impact categories, it resulted in less avoided environmental impact compared to the ‘Steam’ scenario. The comparative analysis showed that 19 out of 24 of the LCA results varied by more than 50% between two energy substitution models, thus quantifying the influence of energy substitution in LCA modelling. This study exemplifies the environmental benefit WtE technology can realize by substituting conventional energy production processes that are reliant on fossil resources, whilst performing its primary function that is reducing the volume of non-recyclable waste, destroying hazardous organic components it contains and recovering useful materials from it.

Published

2022

46. Waste-Minimized Continuous-Flow Synthesis of Oxindoles Exploiting a Polymer-Supported N Heterocyclic Palladium Carbene Complex in a CPME/Water Azeotrope

Author

Nihad Salameh, Francesco Ferlin, Federica Valentini, Ioannis Anastasiou, and Luigi Vaccaro

Subjects

Technology, Engineering, Chemical, CHEMICAL-REACTIONS, Chemistry, Multidisciplinary, CPME solvent, General Chemical Engineering, EFFICIENT, ACTIVATION, Engineering, C BOND FORMATION, INTRAMOLECULAR ALPHA-ARYLATION, Environmental Chemistry, Green & Sustainable Science & Technology, C-H activation, ENANTIOSELECTIVE SYNTHESIS, NHC catalyst, CATALYST, Science & Technology, Renewable Energy, Sustainability and the Environment, waste minimization, General Chemistry, Chemistry, heterogeneous catalysis, BIOMASS-DERIVED SOLVENTS, ECO-FRIENDLY SOLVENTS, Physical Sciences, Science & Technology - Other Topics, LIGANDS, oxindoles

Abstract

ispartof: ACS SUSTAINABLE CHEMISTRY & ENGINEERING vol:10 issue:11 pages:3766-3776 status: published

Published

2022

47. Ammonolytic Hydrogenation of Secondary Amides: An Efficient Method for the Recycling of Long-Chain Polyamides

Author

Robin Coeck, Anthony De Bruyne, Thomas Borremans, Wouter Stuyck, and Dirk E. De Vos

Subjects

TRANSAMIDATION, Technology, Engineering, Chemical, nylon, Chemistry, Multidisciplinary, General Chemical Engineering, CATALYSTS, recycling, Engineering, WATER, Environmental Chemistry, Green & Sustainable Science & Technology, LACTIC-ACID, Science & Technology, Renewable Energy, Sustainability and the Environment, niobia, ACID-BASE PROPERTIES, General Chemistry, NYLON-6, DEGRADATION, Chemistry, CONVERSION, ammonolysis, NIOBIUM OXIDE, DEPOLYMERIZATION, Physical Sciences, Science & Technology - Other Topics, long-chain polyamides

Abstract

ispartof: Acs Sustainable Chemistry & Engineering vol:10 issue:9 pages:3048-3056 status: published

Published

2022

48. Effect of Reduction Parameters on the Size and Morphology of the Metallic Particles in Carbothermally Reduced Stainless Steel Dust

Author

Lichun Zheng, Annelies Malfliet, Hongyu Ren, Zhouhua Jiang, Bart Blanpain, and Muxing Guo

Subjects

Morphology, MECHANISM, Technology, Science & Technology, STEELMAKING, PHASE-DIAGRAMS, WASTE, Metals and Alloys, RECOVERY, Environmental Science (miscellaneous), Carhothermal reduction, Stainless steel dust, ZINC, Metallic particles, Mechanics of Materials, ARC FURNACE DUST, Science & Technology - Other Topics, M7C3 carbide, Metallurgy & Metallurgical Engineering, THERMODYNAMIC PROPERTIES, OXIDES, Green & Sustainable Science & Technology, IRON-POWDER

Abstract

ispartof: JOURNAL OF SUSTAINABLE METALLURGY vol:8 issue:1 pages:297-309 status: published

Published

2022

49. On-demand, in situ, generation of ammonium caroate (peroxymonosulfate) for the dihydroxylation of alkenes to vicinal diols

Author

Benjamin J. Deadman, Sarah Gian, Violet Eng Yee Lee, Luis A. Adrio, Klaus Hellgardt, King Kuok (Mimi) Hii, and Engineering & Physical Science Research Council (EPSRC)

Subjects

MECHANISM, PEROXODISULFATE, Science & Technology, EPOXIDATION, Chemistry, Multidisciplinary, Organic Chemistry, OXIDATION, Pollution, ACTIVATION, Chemistry, Physical Sciences, ACID, Science & Technology - Other Topics, POTASSIUM PERSULFATE DECOMPOSITION, Environmental Chemistry, ION, Green & Sustainable Science & Technology, 03 Chemical Sciences, KINETICS

Abstract

Using the dihydroxylation of alkenes as a benchmark, the reactivities of fresh and aged solutions of (NH4)2S2O8 (electrochemically generated) were compared to commercially-procured peroxydisulfate and Oxone®. The study revealed that peroxymonosulfate (Caro’s acid, PMS) is the active oxidant in such reactions. Using complementary redox colorimetry and in situ IR spectroscopy to monitor the oxidants, the competitive decomposition of peroxydisulfate in an acidic solution into PMS and H2O2 can be quantified for the first time. The new insight enabled the design and implementation of both batch and flow processes to maximise the concentration of active PMS oxidant. The utility of these oxidants for organic synthesis is demonstrated by the dihydroxylation of eight styrenes and seven alkyl alkenes, where the ammonium PMS solutions performed better than Oxone® (counterion effect). Last but not least, a non-chromatographic method for isolating and purifying the water-soluble diol product was developed.

Published

2022

50. Matching emerging formic acid synthesis processes with application requirements

Author

Johan Martens, Barbara Thijs, and Jan Rongé

Subjects

CATALYST, Science & Technology, Chemistry, Multidisciplinary, CO2 REDUCTION, Pollution, Chemistry, CARBON-DIOXIDE, ELECTROCHEMICAL REDUCTION, Physical Sciences, mental disorders, Science & Technology - Other Topics, Environmental Chemistry, HYDROGENATION, FORMATE, Green & Sustainable Science & Technology, SYNGAS

Abstract

Electrolytic formic acid synthesis delivers green formic acid at the right concentration for emerging applications.

Published

2022