Your search keyword '"Sustainable"' showing total 716 results

1. Composting as a Sustainable Solution for the Management of Plant Biomass Contaminated with Hg and As from Puddles Generated by Small-Scale Gold Mining in the Municipality of Unión Panamericana, Colombian Pacific.

Author

Rengifo-Mosquera, Gysela, Salas-Moreno, Manuel, Gutierréz-Palacios, Harry, Palacios-Torres, Yuber, Romaña-Palacios, Allien, and Marrugo-Negrete, José

Abstract

ASGM in the Chocó region (Colombian Pacific) has generated abandoned puddles with concentrations of Hg; however, these sites can generate ecosystem services from contaminated biomass with a circular economy approach. (1) Background: The plant biomass contaminated with Hg from these puddles could be used to produce compost as a bioremediation strategy and as an alternative to generate ecosystem resources (organic fertilizer) with nature-based solutions, representing a circular economy approach and sustainable management of contaminated biomass. (2) Methods: Six treatments were established to produce compost; closed-system plastic composters were used, with a capacity of 15 kg of biomass and organic waste, consisting of contaminated and uncontaminated biomass of macrophytes with Hg and fruit and vegetable waste (fruit and vegetable waste, pruning waste, and poultry manure). The concentrations of As and total and bioavailable Hg were monitored during the composting process by atomic absorption spectroscopy and so were properties such as pH; electrical conductivity; temperature; CO, TN, S, and SiO2 contents; and C/N ratio. (3) Conclusions: The concentrations of bioavailable Hg during the composting process were between 658.1 and 1.2 µg/kg, decreasing in the following order: T-2 > T-3 > T-1 > C-3 > C-2 > C-1. Composting in the treatments was shown to be an efficient bioremediation technique, as all of the treatments reduced the bioavailability of Hg to below 1.5%, and the physicochemical properties of pH (r: −0.3675; p < 0.007) and %S content (r: −0.6303; p < 0.0025) showed a significant moderate negative correlation with bioavailable Hg concentrations, playing a crucial role in reducing the bioavailability of Hg during the purification process of composting. The results show that all treatments significantly reduced Hg bioavailability below 1.5%; however, T-2 proportionally showed the highest reductions during the process. Compost production was proven to be a sustainable strategy for the management of biomass contaminated with mercury, which is very important for recovering ecosystem services in communities. [ABSTRACT FROM AUTHOR]

Published

2024

2. ChatGPT-Supported Education in Primary Schools: The Potential of ChatGPT for Sustainable Practices.

Author

Uğraş, Hilal, Uğraş, Mustafa, Papadakis, Stamatios, and Kalogiannakis, Michail

Abstract

This study aims to evaluate the potential of using ChatGPT at the primary school level from the teachers' perspective within a sustainability framework. The research was conducted as a qualitative case study involving 40 primary school teachers in Turkey during the 2023–2024 academic year, all of whom had no prior experience with ChatGPT. Data collection tools included semi-structured interview forms and researcher diaries developed by the researchers. The data obtained were analysed using content analysis. The findings indicate that most primary school teachers believe ChatGPT is suitable for primary education and can contribute to Sustainable Development Goal (SDG) 4. Additionally, teachers noted that ChatGPT enriches the teaching process and is user-friendly. These findings suggest potential contributions to SDG 4.1 and SDG 4.2. However, concerns were raised regarding ChatGPT's potential to provide false information, which may negatively impact SDG 4.7. The study also identified that ChatGPT is particularly suitable for mathematics, Turkish, and English courses. This study's main contribution is that it shows how ChatGPT can help sustainable practices in primary education by getting teachers more involved and meeting specific curriculum needs. This gives us useful information for incorporating AI tools into education that is in line with SDG 4. It is recommended that training programs about ChatGPT and similar AI-supported tools be organised for teachers and parents. [ABSTRACT FROM AUTHOR]

Published

2024

3. Influence of Microbial Treatments on Vine Growth and Must Quality: Preliminary Results.

Author

Mercanti, Nicola, Macaluso, Monica, Pieracci, Ylenia, Bertonelli, Leonardo, Flamini, Guido, and Zinnai, Angela

Abstract

Microorganisms play a crucial role in addressing the challenges related to the increasing detrimental effects of intensive agriculture in vineyards by contributing to various aspects, from maintaining soil health and vine vitality to influencing fermentation and the overall wine features. Among microorganisms, mycorrhizal fungi are widely distributed in both natural and agricultural ecosystems, and their mutually beneficial relationship with most terrestrial plants provides valuable ecological benefits. Nowadays, the wine industry is increasingly moving toward the production of organic wines, highlighting the need for novel and healthier strategies that prioritize both the consumer well-being and the quality of the final wine product. Following our previous study in collaboration with the Bioma SA Company (Quartino, Switzerland), the investigation was continued by extending the organic practice to the cultivation. The present work, indeed, aimed to evaluate the influence of the treatment with mycorrhizal fungi on the metabolism of "Sangiovese" grapevines. In particular, the chemical parameters, including alcohol content, pH, acidity, phenolic composition, and sulfur dioxide, were assessed on the must, while the analysis of the volatile emission was conducted both on whole and pressed grapes, on must, as well as on the grape skins. To the best of our knowledge, this is the first study investigating the mycorrhizal fungi association effect on the quality of "Sangiovese" grapes and, further, its effect on the VOCs emission. [ABSTRACT FROM AUTHOR]

Published

2024

4. Review of Bio-Inspired Green Synthesis of Titanium Dioxide for Photocatalytic Applications.

Author

Mulay, Manasi R., Patwardhan, Siddharth V., and Martsinovich, Natalia

Abstract

Titanium dioxide (TiO2) is an important photocatalyst that is widely studied for environmental applications, especially for water treatment by degradation of pollutants. A range of methods have been developed to produce TiO2 in the form of nanoparticles and thin films. Solution-based synthesis methods offer the opportunity to tune the synthesis through a choice of reagents, additives and reaction media. In particular, the use of biomolecules, such as proteins and amino acids, as bio-inspired additives in TiO2 synthesis has grown over the last decade. This review provides a discussion of the key factors in the solution-based synthesis of titania, with a focus on bio-inspired additives and their interaction with Ti precursors. In particular, the role of bio-inspired molecular and biomolecular additives in promoting the low-temperature synthesis of titania and controlling the phase and morphology of the synthesised TiO2 is discussed, with a particular focus on the interaction of TiO2 with amino acids as model bio-inspired additives. Understanding these interactions will help address the key challenges of obtaining the crystalline TiO2 phase at low temperatures, with fast kinetics and under mild reaction conditions. We review examples of photocatalytic applications of TiO2 synthesised using bio-inspired methods and discuss the ways in which bio-inspired additives enhance photocatalytic activity of TiO2 nanomaterials. Finally, we give a perspective of the current challenges in green synthesis of TiO2, and possible solutions based on multi-criteria discovery, design and manufacturing framework. [ABSTRACT FROM AUTHOR]

Published

2024

5. Lycopene-Loaded Emulsions: Chitosan Versus Non-Ionic Surfactants as Stabilizers.

Author

Álvarez-García, Sonia, Couarraze, Lucie, Matos, María, and Gutiérrez, Gemma

Subjects

*NONIONIC surfactants, *HAZARDOUS substances, *CORONARY disease, *SOY oil, *BIOMEDICAL materials, *LYCOPENE, *BIODEGRADABLE materials

Abstract

Lycopene is a natural carotenoid with well-known benefits due to its antioxidant properties, including an anti-inflammatory effect in colorectal cancer and anti-angiogenic effects along with a reduction in the risk of prostate cancer and coronary heart disease. Due to their poor water solubility, photosensitivity and heat sensitivity, their incorporation in cosmetic and food matrices should be through encapsulation systems. In the present work, lycopene-loaded emulsions were prepared using two different types of stabilizers: non-ionic surfactants, testing several ratios of Tween 80 and Span 80, and chitosan, using chitosans of different viscosities and molecular weights. Soybean oil was found to be a suitable candidate for O/W emulsion preparation. Lycopene encapsulation efficiency (EE) of 70–75% and loading capacities of 0.14 mg/g were registered in stable emulsions stabilized either by non-ionic surfactants or acidified chitosans. Therefore, chitosan is a good alternative as a sustainable stabilizer to partially replace traditional synthetic ingredients with a new biodegradable, renewable and biocompatible material which could contribute to reduce the environmental impact as well as the ingestion of synthetic toxic materials by humans, decreasing their risk of suffering from chronic and complex pathologies, among which several types of cancer stand out. [ABSTRACT FROM AUTHOR]

Published

2024

6. Blockchain-Enabled Supply Chain Finance: A Bibliometric Review and Research Agenda.

Author

Abdullah, Asaduddin, Satria, Arif, Mulyati, Heti, Arkeman, Yandra, and Indrawan, Dikky

Subjects

BIBLIOMETRICS, DEVELOPING countries, BLOCKCHAINS, SUPPLY chains, TRANSACTION records

Abstract

The COVID-19 pandemic has revealed weaknesses in traditional supply chain finance systems, highlighting the need for digital change. Blockchain technology, with its ability to create secure and transparent records of transactions, offers a potential solution. This study uses bibliometric analysis and a literature review to examine research on blockchain-enabled supply chain finance, drawing on a database of 446 articles from ScienceDirect and Scopus. The findings show a growing interest in how blockchain can improve transparency, efficiency, and security in supply chain finance, addressing challenges like information asymmetry. This study suggests future research should focus on real-world applications of blockchain, how it can be used with other technologies, regulations and governance, and the social and environmental impacts of blockchain-based supply chain finance. This research also highlights the different priorities of the Global North and South in blockchain-enabled supply chain finance. The North focuses on efficiency and traceability, while the South emphasizes adding value and transparency. A lack of research on fair pricing, especially in the Global South, points to a critical gap that future research needs to address to ensure fairness in global trade. [ABSTRACT FROM AUTHOR]

Published

2024

7. Research on a Non-Stationary Groundwater Level Prediction Model Based on VMD-iTransformer and Its Application in Sustainable Water Resource Management of Ecological Reserves.

Author

Zheng, Hexiang, Hou, Hongfei, and Qin, Ziyuan

Abstract

The precise forecasting of groundwater levels significantly influences plant growth and the sustainable management of ecosystems. Nonetheless, the non-stationary characteristics of groundwater level data often hinder the current deep learning algorithms from precisely capturing variations in groundwater levels. We used Variational Mode Decomposition (VMD) and an enhanced Transformer model to address this issue. Our objective was to develop a deep learning model called VMD-iTransformer, which aims to forecast variations in the groundwater level. This research used nine groundwater level monitoring stations located in Hangjinqi Ecological Reserve in Kubuqi Desert, China, as case studies to forecast the groundwater level over four months. To enhance the predictive performance of VMD-iTransformer, we introduced a novel approach to model the fluctuations in groundwater levels in the Kubuqi Desert region. This technique aims to achieve precise predictions of the non-stationary groundwater level conditions. Compared with the classic Transformer model, our deep learning model more effectively captured the non-stationarity of groundwater level variations and enhanced the prediction accuracy by 70% in the test set. The novelty of this deep learning model lies in its initial decomposition of multimodal signals using an adaptive approach, followed by the reconfiguration of the conventional Transformer model's structure (via self-attention and inversion of a feed-forward neural network (FNN)) to effectively address the challenge of multivariate time prediction. Through the evaluation of the prediction results, we determined that the method had a mean absolute error (MAE) of 0.0251, a root mean square error (RMSE) of 0.0262, a mean absolute percentage error (MAPE) of 1.2811%, and a coefficient of determination (R2) of 0.9287. This study validated VMD and the iTransformer deep learning model, offering a novel modeling approach for precisely predicting fluctuations in groundwater levels in a non-stationary context, thereby aiding sustainable water resource management in ecological reserves. The VMD-iTransformer model enhances projections of the water level, facilitating the reasonable distribution of water resources and the long-term preservation of ecosystems, providing technical assistance for ecosystems' vitality and sustainable regional development. [ABSTRACT FROM AUTHOR]

Published

2024

8. Improving Water Quality by Combined Sedimentation and Slow Sand Filtration: A Case Study in a Maasai Community, Tanzania †.

Author

Bachar, Nadav, Lindenstrauss, Noga, David, Saar, Mirkin, Micha, Polani, Noam, Gueta, Osher, Partush, Shaked, and Ronen, Avner

Subjects

SAND filtration (Water purification), WATER purification, WATER pollution, WATER quality, WATER shortages

Abstract

Featured Application: The biofilm-based slow sand filtration system developed in this research offers a sustainable and effective solution for improving water quality in rural and resource-limited environments. The biofilm layer enhances filtration efficiency and removes organic matter and other contaminants from the water. This low-tech approach can be easily implemented and maintained using locally available materials, providing a reliable and long-term solution for reducing water turbidity and contaminant levels, thereby improving public health and living conditions. Some Maasai communities in northern Tanzania face severe water quality and scarcity issues, significantly impacting the health and living conditions of the local population. To address the water quality challenges faced by one of the Maasai communities, where thousands of residents consume water with high turbidity and contaminants, a team of volunteers, primarily engineering students from Ben-Gurion University of the Negev, conducted a project in 2023. This project aimed to improve water quality through the implementation of combined sedimentation and biofilm-based slow sand filtration systems. These systems utilized mechanical filtration via sand bed percolation and biological filtration through biofilm formation, which effectively reduced turbidity and removed contaminants. The biofilm maturation significantly enhanced filtration efficiency, achieving turbidity reduction from levels exceeding 10,000 to below 5 NTU, meeting WHO standards. Comprehensive water quality assessments revealed contamination in the water sources, with elevated levels of lead (up to 11 mg/L), which pose health risks. In addition, we evaluated locally accessible materials such as chalk and limestone for coagulation and precipitation, enhancing water clarity and removing contaminants. Despite constraints that shortened the mission duration, the results provide a solid foundation for future efforts to improve water quality in the region. This study highlights the potential of low-tech biofilm-based filtration systems for sustainable water purification in resource-limited environments. It demonstrates the effectiveness of small-scale household systems and presents a development protocol optimized for local materials and water contamination characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

9. A Model for a Green, Lean Sustainable Improvement with Performance Measurement.

Author

Berlec, Tomaž and Peperko, Aljoša

Subjects

RATE of return, AUTOMOBILE industry, INDUSTRIAL costs, PRICES, DESIRE

Abstract

With a turbulent market and a desire to withstand force, many companies lower the production price of their products using different approaches. On the one hand, they often use lean principles to reduce production costs, while they are compelled by the government to adopt green practices on the other. The proposed approach (model) is a combination of green, lean sustainable improvement, leading a company through the green, lean process with measurable results and optimization functions. In addition to its return on investment (ROI), a company can calculate its output (from material to emission flow) based on its input. Based on the radar chart we have produced, they can also know what they have achieved and in which direction they need to optimize to develop in as green and sustainable a way as possible. One example of a Slovenian automotive company demonstrates how the implementation of the proposed measures can effectively reduce environmental impact, while also ensuring a quick return on investment. [ABSTRACT FROM AUTHOR]

Published

2024

10. Energy and Environmental Aspects of the Sustainability of Clothing Production.

Author

Rogale, Dubravko and Firšt Rogale, Snježana

Abstract

The textile and clothing industries are very often lumped together when it comes to the environmental aspect such that the negative connotation of the textile industry from an environmental aspect is automatically transferred to the clothing industry. However, the two industries should be considered separately, particularly with regard to the machinery used and energy consumption in the production process. The energy consumption of electricity, compressed air, vacuum, steam, and other energy sources in the clothing industry is low compared to other related industries. Furthermore, no carcinogenic and allergenic waste is generated during the production of clothing, which has a low carbon footprint, i.e., it practically does not pollute the air, soil, and water. The waste produced during cutting is clean and unused and is immediately recycled. All of this contributes to the sustainability of the clothing industry from the energy and environmental aspects. This article describes the cutting and joining techniques used in the manufacture of clothing, from the energy and environmental aspects as well as aspects of the weaves, the necessary machine elements and mechanisms, and the energy used in all joining techniques, from which the above claims and facts can be seen. [ABSTRACT FROM AUTHOR]

Published

2024

11. Enhancing Mango Productivity with Wood Vinegar, Humic Acid, and Seaweed Extract Applications as an Environmentally Friendly Strategy.

Author

Abdel-Sattar, Mahmoud, Mostafa, Laila Y., and Rihan, Hail Z.

Abstract

Although chemical fertilization has gained a lot of attention due to its ability to increase the yield of fruit trees, it has been known to cause numerous environmental problems such as soil deterioration, alleviating beneficial microorganisms, and reducing fruit quality and safety. Hence, today, we aim to reduce these problems by using eco-friendly and sustainable biostimulants to promote nutritional status, yield, and quality. The effect of wood vinegar (WV) on mango production has yet to be investigated. Therefore, a field trial was conducted during the 2023 and 2024 seasons to evaluate the regulatory effect of individual and combined application of wood vinegar (WV), seaweed extract (SW), and humic acid (HA) on the performance of mango (Mangifera indica L.) cv. Ewais. The results revealed that all treatments had a pronounced effect and significantly improved the total chlorophyll content (107.7 and 106.6%), leaf N (2.02 and 2.23%), P (0.38 and 0.4), and K (1.07 and 1.13%), as well as enhancing the quality of mango fruits by increasing fruit length (11.68 and 12.38 cm), fruit width (7.8 and 8.59 cm), total sugars (40 and 37.3%), and TSS (21.9 and 20.8%) while reducing the total acidity (64.3 and 69.0%) in the 2023 and 2024 seasons, respectively, compared with the control. Based on this study, the treatment of 2 L/ha seaweed + 2 L/ha humic acid + 2 L/ha wood vinegar combined had the greatest effect on enhancing Ewais mango fruit yield by up-regulating leaf mineral acquisition, antioxidant response, and sugar accumulation. This study supports the application of HA and SW in combination with WV to improve mango fruit yield and quality. [ABSTRACT FROM AUTHOR]

Published

2024

12. Investigating Intumescent Flame-Retardant Additives in Polyurethane Foam to Improve the Flame Resistance and Sustainability of Aircraft Cabin Materials.

Author

Loewenthal, Oliver, Doley, Preety, Wang, Cheng, Yeoh, Guan Heng, and Kabir, Imrana I.

Subjects

*HEAT release rates, *ENTHALPY, *AIRCRAFT cabins, *GAS as fuel, *FIRE prevention, *ACRYLIC coatings, *FIRE resistant polymers

Abstract

Polyurethane (PU) foam has a high flammability and is widely used in aircraft interiors, presenting a significant danger to occupants. This study analysed three composite intumescent flame-retardant (IFR) coatings for flexible PU foam; expandable graphite (EG), ammonium polyphosphate (APP) and alginate (AG). The coatings were prepared in concentrations of 5 wt%, 10 wt%, and 50 wt% with an acrylic binder. The coated samples were characterised using cone calorimetry, SEM, and mechanical testing. The findings showed peak heat release rate, total heat release, and carbon dioxide production from the 10 wt% triple-layer coating (EG:APP:AG) was 52%, 32%, and 58% less than the PU control. The char of the 10 wt% triple-layer sample effectively suppressed smoke release and inhibited the transfer of fuel and gas volatiles. Mechanical testing demonstrated a 3.4 times increase in tensile strength and a 15.4 times increase in compressive strength (50% compression) compared to the control PU with the 10 wt% triple-layer coating. A fire dynamics simulator model was developed that demonstrated large-scale flammability modelling for commercial aircraft. Future work can explore the integration of IFR coatings into computational analysis. These new bio-based coatings produced promising results for aircraft fire safety and flammability performance for PU polymers. [ABSTRACT FROM AUTHOR]

Published

2024

13. Impacts of Waste Rubber Products on the Structure and Properties of Modified Asphalt Binder: Part I—Crumb Rubber.

Author

Obukhova, Svetlana, Budkina, Angelina, Korolev, Evgeniy, and Gladkikh, Vitaliy

Subjects

*CRUMB rubber, *RUBBER waste, *ROAD construction, *CONSTRUCTION materials, *STRUCTURAL stability, *ASPHALT, *RUBBER

Abstract

The issue of forming a reliable and sustainable structure of crumb-rubber-modified binder is an important scientific and technical task. The quality of this task will increase the technical and economic efficiencies of road construction materials. This work is dedicated to developing a scientifically justified method of directed thermomechanical devulcanization, which ensures the solubility of the crumb rubber in the complex structure of a polydisperse composite material, preventing the formation of aggregates consisting of unsaturated crumb rubber particles, whose elastic aftereffect causes intensive cracking, especially during low-temperature road operations. The novelty in the first part of this article is due to the fact that, for the first time, the quantitative ratio of the polymer component in the crumb rubber was experimentally determined. The ratio of the polymer component to the total content of the other rubber components in the crumb rubber (CR) was determined to be, on average, 93.3 ± 1.8%. The stabilities of the compositions of crumb rubber from different batches were experimentally studied. The nature of the polymer component in the crumb rubber was determined. A hypothesis was formulated to obtain a thermodynamically stable and sustainable binder modified with crumb rubber. To evaluate the compatibility of hydrocarbon plasticizers with the studied CR samples, the following semi-empirical and thermodynamic compatibility parameters were calculated: Hildebrand solubility parameters based on evaporation energy and surface tension, Barstein's compatibility parameter |X|, Traxler coefficient, and the mass ratio of paraffin naphthene:asphaltenes. It was shown that for the substances under study, it is advisable to justify the choice of plasticizer based on chemical compatibility criteria. It was established that a supramolecular plasticization mechanism occurs in the "hydrocarbon plasticizer–crumb rubber" systems under consideration. In the development of the crumb-rubber-modified binder, it was found that the use of activated crumb rubber (ACR) from large tires does not ensure the achievement of a stable and resilient structure of the crumb-rubber-modified bitumen. [ABSTRACT FROM AUTHOR]

Published

2024

14. Trends and Perspectives of Marine Sports Tourism: A Bibliometric Analysis and Systematic Review.

Author

Guo, Shuai, Feng, Xiaoli, and Zhou, Bing

Subjects

ENVIRONMENTAL impact analysis, SPORTS tourism, BIBLIOMETRICS, ENVIRONMENTAL research, EVIDENCE gaps

Abstract

Marine sports tourism has emerged as a significant niche within the broader tourism industry, offering unique opportunities for economic development, social well-being, and environmental sustainability. This study presents a comprehensive bibliometric analysis of marine sports tourism research, examining publications up to July 2024 from the core collection databases of the Web of Science. The analysis assesses the productivity, research themes, and emerging trends within this field. The results indicate significant growth in research output over the past three decades. Saayman M., Giglio V. J., and Van der Merwe P. are identified as the most productive authors, while Australia, the United States, China, and the United Kingdom demonstrate high levels of research productivity and impact. Ocean & Coastal Management is recognized as the most impactful journal. Keyword co-occurrence and clustering analysis revealed four major research clusters: Environmental Impacts and Community Interaction, Conservation and Ecological Impacts, Behavioral Studies and Perceptions, and Management and Scuba Diving. Topic trend analysis highlights a shift in research focus from the environmental impacts of marine sports tourism to a more integrated approach that considers environmental, economic, and social dimensions. Based on the current research landscape and developmental trajectory, the study proposes future research directions, including addressing identified research gaps, enhancing the resilience of marine sports tourism activities, and developing holistic approaches to sustainable tourism from an interdisciplinary perspective. [ABSTRACT FROM AUTHOR]

Published

2024

15. Sustainable Mobility in the Century of Metropolises: Case Study of Greater London.

Author

Ribeiro, Vinicius de Tomasi and Fachinelli, Ana Cristina

Subjects

URBAN growth, CITY dwellers, SUSTAINABLE development, URBAN research, CARBON dioxide mitigation

Abstract

The 21st century, known as the "metropolitan century", saw urban populations exceed half the global populace. By 2035, emerging metropolises, particularly in Asia and Africa, highlight the urgent need for research on urban growth, demographics, and mobility's role in sustainable development. The objective of this study is to explore the key aspects of mobility essential for sustaining metropolitan regions, with a focus on the case of Greater London. The research aims to understand, through interview analysis and urban theories, how mobility contributes to socio-spatial equity, connectivity, and integrated governance, highlighting the importance of sustainability—such as decarbonization and the promotion of non-motorized transport—in the context of global sustainable development commitments. This research, through a convergent analysis of interviewees' responses, has identified thirty-one fundamental attributes to enhance our understanding of sustainable mobility. The results indicate that mobility is a key driver for socio-spatial equity, connectivity, and integrated governance within metropolitan regions; it also shows that successful infrastructure work necessarily calls for collaboration between different administrative levels. Finally, the imperative for sustainability in mobility—as exemplified by decarbonization and the encouragement of non-motorized transport—arises as an urgent element in ordering development at the urban scale vis-à-vis global sustainability commitments, such as SDG 11. [ABSTRACT FROM AUTHOR]

Published

2024

16. Community-Based Disaster Insurance for Sustainable Economic Loss Risk Mitigation: A Systematic Literature Review.

Author

Purwandari, Titi, Surya, Hilda Azkiyah, Riaman, Hidayat, Yuyun, Sukono, and Saputra, Moch Panji Agung

Subjects

LITERATURE reviews, EMERGENCY management, BIBLIOMETRICS, DISASTER insurance, DISASTER resilience

Abstract

This systematic literature review (SLR) explores the role of community-based catastrophe insurance (CBCI) as a tool for sustainable economic loss risk mitigation. Utilizing bibliometric analysis and a literature review, this study aims to reveal the methods employed in CBCI schemes from a novel perspective, highlighting their effectiveness in mitigating catastrophe risks. The PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) methodology was employed to systematically collect and analyze articles sourced from the Scopus, ScienceDirect, and Dimensions databases. The findings provide a comprehensive summary of the CBCI implementation, including various considerations such as risk-sharing mechanisms, premium determination, and policy frameworks. This research offers a fresh perspective on CBCI as a sustainable approach to catastrophe risk mitigation, contributing valuable insights to policymakers, practitioners, and researchers interested in community resilience and disaster risk management. [ABSTRACT FROM AUTHOR]

Published

2024

17. Upcycling PVC and PET as Volume-Enhancing Functional Fillers for the Development of High-Performance Bio-Based Rigid Polyurethane Foams.

Author

Ochigue, Princess Claire D., Dingcong Jr., Roger G., Bondaug, John Christian S., Magalong, Brian Christian G., Dumancas, Gerard G., Gutierrez, Carlo S., Alguno, Arnold C., Malaluan, Roberto M., Lubguban, Arnold A., and Bacosa, Hernando P.

Abstract

Polyvinyl chloride (PVC) and polyethylene terephthalate (PET) contribute significantly to global plastic waste, with only 9% recycled in recent years. In this work, these plastic wastes were upcycled as functional fillers to improve the rigid polyurethane foam (RPUF) properties. To attain this target, we leveraged the intrinsic polarity of the C=O and C-Cl groups of PVC and PET to induce intermolecular attractions with the N-H groups of the polyurethane matrix, evidenced by the observed IR peak shifts. This enhanced the nucleating effect during foaming, increasing the foams' compressive strengths by 77% and 22% with the addition of 10% PVC and 5% PET filler, respectively. Furthermore, the addition of PVC and PET fillers increased the foam volume. Thus, the collective utilization of PPW and its corresponding impact on the CO-based RPUF's properties signifies a reduction in carbon dioxide emissions by 14.15% and 17.52% for PVC and PET, respectively. Moreover, thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC) revealed improved thermal stability and degradation profiles of the produced RPUFs. Overall, this work highlights potential advancement in environmentally responsible upcycling strategies for common end-of-life plastic wastes, while enhancing rigid foam properties. [ABSTRACT FROM AUTHOR]

Published

2024

18. Predictors of Sustainable Tourism Development during the Post-Pandemic Period in Bangladesh.

Author

Khan, Md Yusuf Hossein, Hossain, Afzal, and Sarker, Mohammad Amzad Hossain

Abstract

The goal of this study was to examine the predictors of sustainable tourism development during the post-COVID-19 pandemic period in the context of Bangladesh. Quantitative-type research was applied, and this study used a descriptive research design. A standardized questionnaire was used to collect 302 data points from actual indigenous tourists using an online purposive sampling method. A partial least squares structural equation modeling (PLS-SEM) approach was used to evaluate the data and test the hypotheses. The results of the PLS-SEM analysis method demonstrate that environmental integrity, social equity, economic prosperity, and technological adaption had a positive relationship with sustainable tourism development during the post-COVID-19 pandemic period in Bangladesh. This research article provides practical guidelines for tourism authorities (BTB, BPC, and so on) and stakeholders on how to effectively impact environmental integrity, social equity, economic prosperity, and technological adaption on sustainable tourism development during the post-COVID-19 pandemic period in the context of Bangladesh. This study recommends that influential strategic factors be utilized to develop a sustainable tourism business in Bangladesh, positioning it as an emerging tourism destination. [ABSTRACT FROM AUTHOR]

Published

2024

19. A Current Trend in Efficient Biopolymer Coatings for Edible Fruits to Enhance Shelf Life.

Author

Vanaraj, Ramkumar, Suresh Kumar, Subburayan Manickavasagam, Mayakrishnan, Gopiraman, Rathinam, Balamurugan, and Kim, Seong Cheol

Subjects

*PRESERVATION of fruit, *FRUIT quality, *ALGINIC acid, *PECTINS, *CONSUMPTION (Economics), *EDIBLE coatings, *BIOPOLYMERS

Abstract

In recent years, biopolymer coatings have emerged as an effective approach for extending the shelf life of edible fruits. The invention of biopolymer coverings has emerged as an innovation for extending fruit shelf life. Natural polymers, like chitosan, alginate, and pectin, are used to create these surfaces, which have several uses, including creating a barrier that prevents water evaporation, the spread of living microbes, and respiratory movement. These biopolymer coatings' primary benefits are their environmental friendliness and lack of damage. This study highlights the advancements made in the creation and usage of biopolymer coatings, highlighting how well they preserve fruit quality, reduce post-harvest losses, and satisfy consumer demand for natural preservation methods. This study discusses the usefulness of the biopolymer coating in terms of preserving fruit quality, reducing waste, and extending the product's shelf life. Biopolymer coatings' potential as a sustainable solution for synthetic preservatives in the fruit sector is highlighted as are formulation process advances that combine natural ingredients and environmental implications. This essay focuses on the essential methods, such as new natural additives, as well as the environmental effect of biopolymer coatings, which are safe and healthy commercial alternatives. [ABSTRACT FROM AUTHOR]

Published

2024

20. Use of Biomass Bottom Ash as an Alternative Solution to Natural Aggregates in Concrete Applications: A Review.

Author

Schlupp, Florian, Page, Jonathan, Djelal, Chafika, and Libessart, Laurent

Subjects

*CIRCULAR economy, *ENERGY industries, *SOLID waste, *WASTE management, *NATURAL resources

Abstract

Biomass bottom ash (BBA) is a by-product of the energy industry and is produced from biomass-fired thermal power plants. They represent the coarsest fraction of the recovered ash and are mostly landfilled. Several researchers have investigated the feasibility of the use of BBA as a replacement for natural aggregates in cementitious material. The utilisation of BBA in the manufacturing of concrete provides an economic and ecological way to upcycle it. At the same time, its use conserves natural resources and promotes sustainability. This review article first presents the chemical, mineralogical and physical properties of BBA, to highlight the possible effects on cementitious materials and the interest in valorising them as a building material. Secondly, the focus is on the utilisation of BBA incorporated in place of natural aggregates used in the manufacturing of concrete. This review investigates the multi-physical properties of concrete manufactured with the partial incorporation of BBA. This substitution leads to decreased workability, which can be limited by the use of admixtures. In the hardened state, a reduction in the mechanical properties is shown with BBA replacement. However, many experimental works show that BBA can be used in appropriate proportions to maintain the specified properties of the concrete. [ABSTRACT FROM AUTHOR]

Published

2024

21. Bibliometric Based Analysis of Hydrogels in the Field of Water Treatment.

Author

Yuan, Yakun, Xiao, Shuhu, Yan, Bingfei, Shen, Songtao, Dou, Runtao, and Xu, Xiaohe

Abstract

Hydrogels exhibit distinctive features. These properties make them suitable for applications across various fields, such as environment, energy, and medicine. In this paper, we conducted a comprehensive search on the CNKI and Web of Science databases spanning from 2000 to 2024. Using tools like CiteSpace and VosViewer, we visualized the evolution, composition, hot spots, and trends in hydrogels in the field of water treatment sustainability. The results show that from 2000 to 2024, there has been a gradual increase in the number of publications in this field. China leads in the total number of publications; although, it ranks fourth in average citation rate. Seven out of the top ten research institutions are based in China. Additionally, three journals, including the International Journal of Biological Macromolecules, Chemical Engineering Journal and Carbohydrate Polymers, stand out, with a relatively high number of publications. The identified research hotspots include a range of preparation methods, including the freezing method and cross-linking method. Additionally, other preparation methods and the examination of water retention rate and adsorption isotherm are part of the research focus. The primary emphasis is on studying the adsorption of heavy metals, microplastics, and organic pollutants in dye wastewater. The main adsorption mechanisms investigated are chelation, electrostatic attraction, and functional group interaction. These findings have potential applications in water purification, seawater desalination, and atmospheric condensation. For the authorized patents in hydrogel-related fields, with the continuous improvement in innovation ability and the continuous enhancement of intellectual property protection awareness, the number of authorized patents continues to rise. China has seven of the top ten institutions in the number of patents granted, and the total number of patents granted in China ranks first in the world. Future work should focus on methods for synthesizing new pollutants and other target pollutants and on improving adsorption efficiency. Additionally, the development of cost-effective hydrogel materials with improved treatment efficacy is essential to advance sustainable practices in water treatment. [ABSTRACT FROM AUTHOR]

Published

2024

22. Reducing Nitrogen Application Rates and Straw Mulching Can Alleviate Greenhouse Gas Emissions from Wheat Field Soil and Improve Soil Quality.

Author

Du, Mengyin, Yao, Yao, Liu, Shuainan, Li, Guang, and Yuan, Jianyu

Subjects

*SUSTAINABLE agriculture, *GREENHOUSE gases, *SOIL quality, *SUSTAINABILITY, *AGRICULTURAL productivity, *NO-tillage

Abstract

Sustainable agriculture faces challenges balancing the need for increasing crop production with environmental protection. Straw mulching is widely used to improve crop productivity, while reducing nitrogen application is an effective strategy to reduce greenhouse gas (GHG) emissions. However, the comprehensive evaluation of soil properties, GHG emissions, and soil quality under straw mulching conditions with different N application rates has not been extensively studied, especially in the Loess Plateau region of Central Gansu. Therefore, a two-year field experiment was conducted, involving two tillage practices (CT: conventional tillage, CTS: conventional tillage + straw mulching) and three fertilization levels (LN: low nitrogen fertilizer, 55 kg N ha−1; MN: medium nitrogen fertilizer, 110 kg N ha−1 HN: high nitrogen fertilizer, 220 kg N ha−1). Based on the greenhouse gas emission intensity (GHGI), the minimum data set (MDS) was constructed by principal component analysis, correlation analysis, and Norm value, and the weighted index method was applied to comprehensively evaluate the soil quality. Our results showed that compared with CT, CTS significantly increased crop yields and improved the content of soil nutrients, and it was more effective when applying moderate amounts of nitrogen fertilizer. Wheat field soil behaves as a nitrous oxide (N2O) emission source and a methane (CH4) absorption sink. CTS–MN and CTS–LN reduced N2O emission by 52.95–87.76%, increased total CH4 uptake by 16.69–43.60%, and slowed down global warming potential (GWP) by 35.70–48.17% compared with CTS–HN in 2021–2022. They also reduced GHGI. Furthermore, CTS enhanced soil quality at different nitrogen application levels compared with CT, with CTS–MN exhibiting the highest Soil Quality Index (SQI) over the two years. Consequently, considering both economic and environmental benefits, CTS–MN can be regarded as a key practice for the sustainable development of agroecosystems in the Loess Plateau region of Central Gansu. [ABSTRACT FROM AUTHOR]

Published

2024

23. Thermal–Mechanical Delamination for Recovery of Tempered Glass from Photovoltaic Panels.

Author

Surowiak, Agnieszka and Wahman, Mustapha

Subjects

*CRYSTAL glass, *CHEMICAL processes, *X-ray fluorescence, *SOLAR energy industries, *WASTE recycling, *X-ray emission spectroscopy, *ENVIRONMENTAL risk

Abstract

This paper presents a sustainable recycling process for the separation and recovery of tempered glass from end-of-life photovoltaic (PV) modules. As glass accounts for 75% of the weight of a panel, its recovery is an important step in the recycling process. Current methods, such as mechanical, chemical and thermal processes, often lead to contamination of the glass and pose significant environmental risks. In response to these challenges, a thermal–mechanical delamination approach is proposed in this study. The method utilizes controlled heat application (hot air gun) to weaken the adhesive bond between the glass and encapsulant, allowing for separation with a thin stainless steel wire. Various analytical methods, including X-ray diffraction analysis (XRD), X-ray fluorescence (XRF) and scanning electron microscopy with energy-dispersive X-ray spectroscopy (SEM-EDS), were used to verify the effectiveness of the proposed method. The results show that the proposed method is effective. In less than a minute, the glass layer was separated and recovered with a success rate of over 99%, with no degradation of the material or release of gasses. The significance of this process lies in its ability to recover high-purity glass while minimizing the impact on the environment. This opens up the possibility of reusing the recovered tempered glass in new PV panels or other applications, reducing the need for virgin materials and lowering the overall environmental footprint of the solar energy industry. [ABSTRACT FROM AUTHOR]

Published

2024

24. Recent Advances in Utilizing Lignocellulosic Biomass Materials as Adsorbents for Textile Dye Removal: A Comprehensive Review.

Author

Yadav, Manisha, Singh, Nagender, Annu, Khan, Suhail Ayoub, Raorane, Chaitany Jayprakash, and Shin, Dong Kil

Subjects

*COLOR removal (Sewage purification), *INDUSTRIAL wastes, *LIGNOCELLULOSE, *LITERATURE reviews, *WATER purification

Abstract

This review embarks on a comprehensive journey, exploring the application of lignocellulosic biomass materials as highly effective adsorbents for the removal of textile dyes (cationic and anionic dyes) from wastewater. A literature review and analysis were conducted to identify existing gaps in previous research on the use of lignocellulosic biomass for dye removal. This study investigates the factors and challenges associated with dye removal methods and signifies their uses. The study delves into the pivotal role of several parameters influencing adsorption, such as contact time, pH, concentration, and temperature. It then critically examines the adsorption isotherms, unveiling the equilibrium relationship between adsorbent and dye and shedding light on the mechanisms of their interaction. The adsorption process kinetics are thoroughly investigated, and a detailed examination of the adsorbed rate of dye molecules onto lignocellulosic biomass materials is carried out. This includes a lively discussion of the pseudo-first, pseudo-second, and intra-particle diffusion models. The thermodynamic aspects of the adsorption process are also addressed, elucidating the feasibility and spontaneity of the removal process under various temperature conditions. The paper then dives into desorption studies, providing insights into the regeneration potential of lignocellulosic biomass materials for sustainable reusability. The environmental impact and cost-effectiveness of employing lignocellulosic biomass materials in textiles including Congo Red, Reactive Black 5, Direct Yellow 12, Crystal Violet, Malachite Green, Acid Yellow 99, and others dyes from wastewater treatment are discussed, emphasizing the significance of eco-friendly solutions. In summary, this review brings together a wealth of diverse studies and findings to present a comprehensive overview of lignocellulosic biomass materials as adsorbents for textile cationic and anionic dye removal, encompassing various aspects from influential parameters to kinetics, adsorption isotherms, desorption, and thermodynamics studies. Its scope and other considerations are also discussed along with its benefits. The collective knowledge synthesized in this paper is intended to contribute to the advancement of sustainable and efficient water treatment technologies in the textile industry. [ABSTRACT FROM AUTHOR]

Published

2024

25. The Effects of Rice Husk Ash as Bio-Cementitious Material in Concrete.

Author

Alsaed, Mays Mahmoud and Al Mufti, Rafal Latif

Subjects

RICE hulls, CONCRETE, CIVIL engineering, COMPRESSIVE strength, PORTLAND cement

Abstract

Concrete is one of the most commonly used materials in civil engineering construction, and it continues to have increased production. This puts pressure on the consumption of its constituent materials, including Portland cement and aggregates. There are environmental consequences related to the increased emission of CO2 that are associated with the production process of Portland cement. This has led to the development and use of alternative cementitious materials, mainly in the form of condensed silica fume, pulverised fuel ash, and ground granulated blast furnace slag. All of these are by-products of the silicon, electrical power generation, and iron production industries, respectively. In recent years, attention has turned to the possible use of sustainable bio-waste materials that might contribute to the replacement of Portland cement in concrete. This research investigates the effects of using rice husk ash as cement replacement material on the 1 to 28-day concrete properties, including the compressive strength, workability, and durability of concrete. The findings indicate that including rice husk ash in concrete can improve its strength at 3–28 days for percentage replacements of 5% to 20% (ranging from 2.4% to 18.7% increase) and improvements from 1 day for 20% replacement (with 11.1% increase). Any percentage replacement with rice husk ash also reduced the air permeability by 21.4% and therefore improved the durability, while there was a small reduction in the workability with increased replacement. [ABSTRACT FROM AUTHOR]

Published

2024

26. Enhancing Supplier Selection for Sustainable Raw Materials: A Comprehensive Analysis Using Analytical Network Process (ANP) and TOPSIS Methods.

Author

Masudin, Ilyas, Habibah, Isna Zahrotul, Wardana, Rahmad Wisnu, Restuputri, Dian Palupi, and Shariff, S. Sarifah Radiah

Subjects

ANALYTIC network process, TOPSIS method, MATERIALS analysis, WASTE management, RAW materials

Abstract

Background: This research endeavors to enhance supplier selection processes by combining the Analytic Network Process (ANP) and Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) methodologies, with a specific focus on sustainability criteria. Method: Initially comprising 21 sub-criteria derived from prior research, the selection criteria are refined to 17, eliminating redundant elements. The core principle guiding this refinement is the comprehensive coverage of economic, social, and environmental dimensions, essential for sustainable supplier evaluation. Results: The study's outcomes underscore the paramount importance of economic criteria (0.0652) in supplier selection, followed by environmental (0.0343) and social dimensions (0.0503). Key sub-criteria contributing significantly to this evaluation encompassed consistent product quality, competitive raw material pricing, proficient labor capabilities, recycling potential, punctual delivery performance, and effective waste management practices. Conclusions: These sub-criteria are thoughtfully integrated into the sustainable assessment framework, aligning seamlessly with the economic, environmental, and social criteria. [ABSTRACT FROM AUTHOR]

Published

2024

27. Impact of CO 2 Enrichment on Growth, Yield and Fruit Quality of F1 Hybrid Strawberry Grown under Controlled Greenhouse Condition.

Author

Osman, Mohamed, Qaryouti, Muein, Alharbi, Saif, Alghamdi, Budour, Al-Soqeer, Abdulrahman, Alharbi, Abdulaziz, Almutairi, Khalid, and Abdelaziz, Mohamed Ewis

Subjects

SUSTAINABLE agriculture, AGRICULTURAL productivity, HYDROPONICS, FRUIT yield, CROP yields, STRAWBERRIES, FRUIT quality

Abstract

Carbon dioxide enrichment inside a greenhouse is a sustainable approach to increasing crop production worldwide. Recently, the F1 hybrid strawberry became an alternative to runner-propagated cultivation as an innovative method to shorten the production period and increase strawberry production. This work aims to present CO2 enrichment as a sustainable tool that improves the yield in a controlled greenhouse and addresses the efficiency of three F1 hybrid strawberry varieties grown under Saudi Arabian conditions. A greenhouse experiment was conducted at the National Research and Development Center for Sustainable Agriculture (Estidamah), KSA, to study the impact of two CO2 levels (400 ppm ("ambient") and 600 ppm ("enrichment")) on the growth, photosynthesis traits, fruit yield and fruit quality of three F1 hybrid strawberry varieties grown under soilless culture conditions. The results show that CO2 enrichment significantly improved the phenotyping of strawberry growth traits at 60 days post-transplanting. The physiological response of the varieties to CO2 enrichment reveals a significant increase in the photosynthetic rate (129.7%) and intercellular CO2 (43.7%) in the leaves of strawberry exposed to CO2 enrichment rather than in ambient conditions, combined with a significant increase in the number of fruits per plant (27.5%) and total fruit yield (42.2%). A similar pattern was observed with varieties D and S in terms of fruit number, length and diameter. However, CO2 at 600 ppm promoted total soluble solid accumulation and vitamin C for the tested varieties. In contrast, CO2 enrichment significantly decreased nitrogen, phosphorus, potassium and magnesium accumulation in the leaves of the exposed plants in comparison to 400 ppm of CO2. These results suggest that increasing CO2 enrichment could contribute to an increase in strawberry yield and nutritional value and demonstrate that understanding the response of each variety to CO2 enrichment is important to support selecting suitable greenhouse strawberry varieties to improve crop yield. [ABSTRACT FROM AUTHOR]

Published

2024

28. Are Magnesium Alloys Applied in Cars Sustainable and Environmentally Friendly? A Critical Review.

Author

Reijnders, Lucas

Abstract

In the scientific literature, the terms sustainable, green, ecofriendly and environment(ally) friendly are used regarding magnesium alloys applied in cars. When sustainability is defined as remaining within safe planetary boundaries for mankind or as conserving natural capital for transfer to future generations, current alloys based on primary magnesium applied in cars are not sustainable. Current alloys based on primary magnesium are not green, ecofriendly or environmentally friendly when these terms mean that there is no burden to the environment or a minimal burden to the environment. Available environmental data do not support claims that current alloys based on magnesium originating from the Pidgeon process, which replace primary mild conventional steel in automotive applications, can be characterized as green, ecofriendly or environmentally friendly. There are options for substantially reducing contributions to the life cycle environmental burden of magnesium alloys. Minimizing the life cycle environmental burden of magnesium alloys may enable them to be characterized as environmentally friendly, ecofriendly or green in the sense of a minimal burden to the environment. [ABSTRACT FROM AUTHOR]

Published

2024

29. Performance Evaluation of Compost of Windrow Turner Machine Using Agriculture Waste Materials.

Author

Hashim, Sarfraz, Bashir, Rehan, Khan, Alamgir Akhtar, Mirani, Asif Ali, Shoaib, Muhammad, Razzaq, Abdul, Ehsan, Farrukh, and Munir, Faseeha

Abstract

Composting is the decomposition of organic matter in an aerobic environment. The windrow turner machine is used to turn the compost piles for efficient composting. It effectively addresses important issues such as managing crop leftovers and disposing of animal waste. This paper evaluates a comparison between mechanized (pile 1) and conventional (pile 2) compost-turning processes and the need for windrow turner machines to manage waste effectively and turn it into nutrient-dense material. This approach not only delivers a practical solution, it also points out the potential for a significant increase in soil fertility and agricultural sustainability. Five samples were taken from each pile at 10 feet intervals for chemical analysis. A total 13,768 kg of the compost yield was collected from pile one and 11,512 kg from pile 2. The study's findings show that the machine turned a greater cation exchange capacity (CEC) value than the compost manually turned. Pile 1 was turned using a compost windrow turner machine, and pile 2 was turned manually. The CEC values in pile 1 varied from 21.23 meq/100 g dry weight to 68.87 meq/100 g dry weight after eight weeks, while the CEC values in pile 2 increased from 21.23 meq/100 g dry weight to 33.28 meq/100 g dry weight. The value of electrical conductivity (EC) in pile 1 increased from 1.98 ds/m to 11.34 ds/m, whereas in pile 2 it climbed from 1.98 ds/m to 7.86 ds/m after 8 weeks. The C/N ratio of pile 1 dropped to approximately 15 and the concentration of micronutrients increased during the composting process, which indicate mature composted material. The outcomes of this research contribute that mechanical composting emerges as a highly suitable method for efficiently managing the composting process, ensuring uniform decomposition, enhanced aeration, and the production of high-quality compost. [ABSTRACT FROM AUTHOR]

Published

2024

30. Shaping the Engineers of Tomorrow: Integrating Renewable Energies and Advanced Technologies in Electrical and Electronics Engineering Education.

Author

Friman, Hen

Subjects

*RENEWABLE energy sources, *CLEAN energy, *ELECTRICAL engineering education, *ENERGY industries, *ENERGY consumption

Abstract

This article examines the comprehensive changes and adjustments made to the Bachelor's degree program in Electrical and Electronics Engineering (BSc) to align with the growing need for sustainable energy solutions. The primary objective of these revisions is to equip future engineers with a deep understanding of both traditional fossil energy sources and emerging renewable energy technologies, with a particular emphasis on smart grids. The revamped curriculum integrates advanced content delivery through a unique blend of professional laboratories, in-person lectures, discussions with industry experts, and online courses. By providing a holistic educational experience, the program aims to prepare graduates to lead the transition towards sustainable energy systems, fostering innovation and resilience in the energy sector. [ABSTRACT FROM AUTHOR]

Published

2024

31. Healing the Whole: An International Review of the Collaborative Care Model between Primary Care and Psychiatry.

Author

Hernandez, Veronica, Nasser, Lucy, Do, Candice, and Lee, Wei-Chen

Subjects

POST-traumatic stress disorder, HEALTH services accessibility, PSYCHIATRY, INTERPROFESSIONAL relations, HUMAN services programs, COST effectiveness, PRIMARY health care, MEDICAL care, AT-risk people, DESCRIPTIVE statistics, SYSTEMATIC reviews, MEDLINE, ONLINE information services, CONFIDENCE intervals, GENERALIZED anxiety disorder, MENTAL depression, PSYCHOLOGY information storage & retrieval systems, MEDICAL care costs

Abstract

The collaborative care model (CCM) was created to improve the delivery of mental health care and is reported to improve access, enhance treatment outcomes, and reduce healthcare costs. To understand the impacts of the CCM on symptom management, diverse populations, and sustainability in healthcare systems, a systematic review was conducted. Several databases were searched for articles assessing the CCM. The inclusion criteria limited the studies to those (1) published between January 2008 and January 2024; (2) written in the English language; (3) analyzing adult patients; (4) analyzing symptom improvement in major depressive disorder, generalized anxiety disorder, or post-traumatic stress disorder; and (5) fitting the given definition of a CCM. We identified 9743 articles. Due to missing information or duplication, 4702 were excluded. The remaining articles were screened, yielding 468 articles for full-text analysis, of which 16 articles met the inclusion criteria. Of these articles, five primarily focused on individual patient outcomes, five focused on specific populations, and six reviewed system impacts; eleven articles studied US populations and five studied international populations. An analysis revealed that in 12 of the final articles, the CCM led to a statistically significant improvement in anxiety and depression symptoms with viable implementation and sustainability strategies. The CCM is an effective method for improving patient symptoms and can be potentially affordable in healthcare systems. [ABSTRACT FROM AUTHOR]

Published

2024

32. Streamlining Distribution Routes Using the Language Model of Artificial Intelligence.

Author

Kleinová, Kristína and Straka, Martin

Abstract

This article addresses the use of artificial intelligence for the needs of effective, sustainable development in logistics and its components. The subject of this article is to highlight the possibility of processing optimization methods using an artificial intelligence module. The goal is to determine whether the AI module can replicate the same, or at least have a similar result, as the traditional optimization methods used in practice. The challenge involves constantly identifying reserves in already highly sophisticated micro-logistics systems using modern commercial means of artificial intelligence. Applying artificial intelligence to elements of a company's micro-logistics model is a new approach. This article aims to determine whether artificial intelligence can reduce costs through calculations in a specific area defined for it. By optimizing distribution routes using ChatGPT-3.5, we significantly reduced the total distance traveled, leading to substantial savings in transportation costs. This optimization led to a significant improvement in the efficiency of logistic processes and considerable cost savings. This result demonstrates that artificial intelligence can be an effective tool for solving complex logistic tasks. The possibilities of effectively sustainable logistics development with the help of artificial intelligence lie not only in the quality of the achieved outputs but also in the speed of the calculations and the procedures for solving defined project tasks. It follows from this definition that artificial intelligence will continue to play an essential role in the defined field of logistics in the future. [ABSTRACT FROM AUTHOR]

Published

2024

33. A Comprehensive Framework for Assessing the Sustainability of Public Schools in Conflict Areas.

Author

Baba, Aya, Shahrour, Isam, and Baba, Mutasim

Abstract

This paper presents a comprehensive sustainability framework tailored to schools in conflict areas, which suffer from weaknesses in education infrastructures and services. The primary objective is to assess the sustainability of public schools in these areas, focusing on the West Bank of Palestine. Concerning international assessment tools, which often prioritize the environmental aspect over social and economic considerations, this study offers a comprehensive collection of indicators addressing the environmental, social, and economic dimensions of sustainability in public schools. The research methodology integrates insights from the literature review, the Palestinian context, and experts' opinions, which were collected through questionnaires. The Analytical Hierarchy Process (AHP) method is used to determine the weights of the indicators. Applying this methodology to 54 Palestinian public schools revealed a low level of sustainability. Improvement recommendations include implementing green building principles, promoting social inclusion, and collaborating with local organizations to enhance economic conditions. This study provides a foundation for future research endeavors by presenting a robust framework for assessing sustainability in public schools in the Palestinian Territories. [ABSTRACT FROM AUTHOR]

Published

2024

34. Enhancing Sustainable Cultivation of Organic Bell Pepper through Fulvic Acid (FA) Application: Impact on Phytochemicals and Antioxidant Capacity under Open-Field Conditions.

Author

Kanabar, Pinkky, Wu, Ying, and Nandwani, Dilip

Abstract

Fulvic acid (FA) is an eco-friendly solution for reducing the reliance on agrochemicals and enhancing crop quality. The study aimed to investigate the impact of soil and foliar application of FA on the phytochemical content and antioxidant properties of organically grown bell peppers at both the green and red stages. Bell pepper cv. Revolution was grown under open-field conditions at the certified organic farm at Tennessee State University, Nashville, with nine treatments and three replications. FA was applied as a soil drench and foliar spray at four different rates (0, 2.3, 5.5, 7.8, 10.9 mL L−1). The fruits were harvested 55 days (green stage) and 86 days after transplantation (red stage). The study showed significant differences (p ≤ 0.05) between the treatment and maturation stage. The foliar treatment of 7.8 mL L−1 resulted in the highest phenolic content in green bell peppers. The highest total flavonoid content in red bell peppers was achieved with a soil treatment of 7.8 mL L−1. Additionally, the highest level of vitamin C in red bell peppers occurred with a soil concentration of 5.5 mL L−1. In conclusion, applying FA as a biostimulant can enhance the quality of organically grown bell peppers, offering promising opportunities for sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

35. Sustainable Epoxy Composites with UV Resistance Based on New Kraft Lignin Coatings.

Author

Seoane-Rivero, Rubén, Ares-Elejoste, Patricia, Gondra, Koldo, Amini, Sara, de Hoyos, Pedro-Luis, and Gonzalez-Alriols, Maria

Subjects

*LIGNOCELLULOSE, *FLEXURAL modulus, *WASTE paper, *FLEXURAL strength, *STRENGTH of materials, *EPOXY coatings, *LIGNINS

Abstract

Currently, the composite industry is focusing on more environmentally friendly resources in order to generate a new range of biobased materials. In this manuscript, we present a new work using lignocellulosic wastes from the paper industry to incorporate into biobased epoxy systems. The manufactured materials were composed of kraft lignin, glass fiber, and a sustainable epoxy system, obtaining a 40% biobased content. Using a vacuum infusion process, we fabricated the composites and analyzed their mechanical and UV resistance properties. The findings reveal a significant correlation between the lignin content and flexural modulus and strength, showing an increase of 69% in the flexural modulus and 134% in the flexural strength with the presence of 5% of lignin content. Moreover, it is necessary to highlight that the presence of synthesized lignin inhibits the UV degradation of the biobased epoxy coating. We propose that the use of lignocellulosic-based wastes could improve the mechanical properties and generate UV resistance in the composite materials. [ABSTRACT FROM AUTHOR]

Published

2024

36. Mapping Scientific Knowledge of Renewable Energy and Tourism.

Author

Jiménez-Islas, Donaji, Pérez-Romero, Miriam E., Álvarez-García, José, and del Río-Rama, María de la Cruz

Abstract

The need for energy in different global industries encourages the development and application of clean energy. Tourism, being a global development sector, requires energy to maintain the comfort of tourists. The development of technology requires basic science and application studies that allow us to know the scientific evolution and trends in research, which is of great relevance in the fields of tourism and renewable energy. Within this context, the aim of the article is to analyze the evolution of research publications focused on renewable energy and tourism indexed in Scopus from 2008 to 2023 using a bibliometric approach. The search strategy identified 90 documents. Tools such as VOSviewer (version: 1.6.18) and Power BI (version: 13.0.23776.64) were used to assist in conducting the bibliometric analysis and network. The results of this work indicate that there is a growth in the authors' interest in renewable energy and tourism, with a specific growth rate of 0.1927 years−1. "Environmental Science and Pollution Research" is the journal with the most publications, and China ranks first in publications. Authors prefer to publish in Q1 and Q2 journals to increase the reach of their publications. [ABSTRACT FROM AUTHOR]

Published

2024

37. Quinacridones as a Building Block for Sustainable Gliding Layers on Ice and Snow.

Author

Bützer, Peter, Bützer, Marcel Roland, Piffaretti, Florence, Schneider, Patrick, Lustenberger, Simon, Walther, Fabian, and Brühwiler, Dominik

Subjects

*STRUCTURE-activity relationships, *HUMAN ecology, *NANOPARTICLES, *FUNCTIONAL groups, *HYDROGEN bonding

Abstract

Quinacridone (QA) and 2,9-dimethylquinacridone (DQA) are synthetic substances suitable as a hard, abrasion-resistant, self-organizing gliding layer on ice and snow. For sustainable use, a large number of parameters must be considered to demonstrate that these non-biogenic substances and their by-products and degradation products are harmless to humans and the environment in the quantities released. For this task, available experimental data are used and supplemented for all tautomers by numerous relevant physical, chemical, toxicological and ecotoxicological estimated values based on various Quantitative Structure Activity Relationship (QSAR) methods. On the one hand, the low solubility of QA and DQA leads to stable gliding layers and thus, low abrasion and uptake by plants, animals and humans. On the other hand, the four hydrogen bond forming functional groups per molecule allow nanoparticle decomposition and enzymatic degradation in natural environments. All available data justify a sustainable use of QA and DQA as a gliding layer. The assessment of the toxicological properties is complemented by an investigation of the size and morphology of DQA particles, as well as field tests indicating excellent performance as a gliding layer on snow. [ABSTRACT FROM AUTHOR]

Published

2024

38. Driving Sustainable Tourism Villages: Evaluating Stakeholder Commitment, Attitude, and Performance: Evidence from West Sumatra, Indonesia.

Author

Ferdian, Feri, Zahari, Mohd Salehuddin Mohd, Abrian, Youmil, Wulansari, Nidia, Azwar, Hendri, Adrian, Arif, Putra, Trisna, Wulandari, Dwi Pratiwi, Suyuthie, Hijriyantomi, Pasaribu, Pasaribu, Susanti, Dessi, Aisiah, Aisiah, Yulfa, Arie, Pratama, Vischa Mansyera, Harmawan, Violintikha, Fadilah, Rahmi, Donie, Donie, and Waryono, Waryono

Abstract

This research paper evaluates the commitment, attitude, and performance of various stakeholders, particularly the local government authorities, academic institutions, local businesses, media, and private sector, in the sustainable development of tourism villages. Quantitative data were collected through a survey questionnaire to gather perceptions and feedback from 384 tourism awareness group leaders in the province of West Sumatra, Indonesia. This study employs Partial Least Squares–Structural Equation Modeling (PLS-SEM) to test the hypotheses. The findings indicate that stakeholders' commitment, attitude, and performance exert a strong influence on sustainable tourism villages. In addition, community culture moderates the relationship between the attitudes of stakeholders and sustainable tourism villages as opposed to the stakeholders' commitment and performance. These findings provide valuable insights and far-reaching consequences for stakeholders, tourism village heads, and the community. There is a need to continuously enhance a comprehensive plan for sustainable tourism, one that goes beyond cultural implication and incorporates a broader range of influencing factors. [ABSTRACT FROM AUTHOR]

Published

2024

39. Strategies for the Design and Construction of Nature-Inspired & Living Laboratory (NILL 1.0) TM Buildings.

Author

AlAli, Mariam, Beheiry, Salwa, and Atabay, Serter

Subjects

*BUILDING design & construction, *SUSTAINABLE construction, *BUILT environment, *SUSTAINABLE living, *BIOMIMICRY

Abstract

This article explores the growing prominence of nature-inspired design philosophies in the context of sustainability and human well-being within the built environment and focuses on their application within laboratory buildings. Biomimicry and biophilic design are highlighted as key nature-inspired design approaches, with biomimicry drawing inspiration from nature for innovations and biophilic design promoting human health through enhancing the connection with the surrounding natural elements. This paper further discusses living building strategy as an emerging method for creating dynamic and adaptable spaces by prioritizing user experience through co-creation and focusing on sustainable and regenerative structures. The potential of integrating these approaches is emphasized using laboratory buildings as an example, with nature-inspired and living laboratories serving as models for future built environments that promote both environmental responsibility and a positive human experience. Accordingly, this work aims to investigate the design and construction of laboratory buildings based on nature-inspired design strategies and the living building concept. Moreover, the paper discusses the application of biomimicry and living building concepts within laboratory buildings as a novel contribution to the body of knowledge, and concludes by proposing the Nature-inspired & Living Laboratory (NILL 1.0)TM Building Assessment index to serve as a guideline for the design and construction of laboratory buildings using nature as an inspiration and the analogy of human body systems. [ABSTRACT FROM AUTHOR]

Published

2024

40. Assessing the Potential of Bio-Based Friction Modifiers for Food-Grade Lubrication.

Author

Nothnagel, Rosa Maria, Boidi, Guido, Franz, Rainer, and Frauscher, Marcella

Subjects

PETROLEUM sales & prices, LUBRICANT additives, RAW materials, DISTILLED water, RESOURCE exploitation

Abstract

The objective of this research is to identify a bio-based friction modifier (FM) with tribological performance comparable to conventional FMs. Promising alternatives to conventional FMs, such as the FMs derived from natural sources, including rapeseed and salmon oil, were selected. Increasing concerns about crude oil prices, environmental impact, and the depletion of fossil resources have further fueled the search for renewable, biodegradable, and environmentally friendly raw materials for lubricants Tribological tests were conducted using a rheometer under non-conformal contact. The normal force, temperature, and sliding speed were varied to simulate conditions such as those found in a food extruder. To simulate cold extrusion applications, water and bio-based FM mixtures were used. The best-performing bio-based FMs were then mixed with a polyalphaolefin to simulate warm extrusion conditions. The results were compared to those obtained from mixtures of a polyalphaolefin and selected conventional FMs. The main finding of this study demonstrated that rapeseed and salmon oils, with a peak coefficient of friction (COF) of 0.16, are the best-performing bio-based FMs for reducing friction. When mixed with distilled water for cold extrusion (case 1) and with polyalphaolefin for warm extrusion (case 2), they performed similarly to the conventional FM, tallow amine, also with a maximum COF of 0.16, and significantly better than polyalphaolefin alone (maximum COF of 0.25). Consequently, rapeseed and salmon oils are suitable bio-based FM candidates to replace conventional FMs in food-grade lubrication. [ABSTRACT FROM AUTHOR]

Published

2024

41. Cost-Effective and Sustainable Design for Paper Recycling †.

Author

Willie, David, Wartovo, Mathias, Mohamed, Aezeden, and Woya, Jones

Subjects

PAPER recycling, SUSTAINABLE design, SUSTAINABILITY, RECYCLED paper, POVERTY reduction

Abstract

This text describes a study that investigates the mechanics, environmental benefits, and potential challenges of paper recycling machines. It highlights the importance of these machines in promoting a more sustainable future, and how they align with the United Nations' Sustainable Development Goals (SDGs). The SDGs aim to address issues such as climate change, land use, responsible consumption and production, and poverty alleviation by promoting sustainable economies. This study explores the transformative potential of the recycling industry and its impact on the economy of Papua New Guinea (PNG). [ABSTRACT FROM AUTHOR]

Published

2024

42. Manufacturing of Eco Bricks: A Sustainable Solution for Construction †.

Author

Jha, Anish Kumar and Kewate, Shilpa Pankaj

Subjects

ENVIRONMENTAL research, CONSTRUCTION materials, SUSTAINABLE construction, PLASTIC scrap, BRICK building, FLY ash

Abstract

The construction industry plays a significant role in global resource consumption and environmental degradation. To mitigate these negative impacts, researchers and engineers have been exploring sustainable building materials and practices. This research paper focuses on the development of Eco Bricks, a sustainable alternative to conventional clay bricks, using a combination of cement, sand, Fly ash Ground Granulated Blast Furnace Slag (GGBS), PET bottles, aggregates, shredded plastic waste, and water. This study aims to investigate the mechanical properties, environmental benefits, and feasibility of producing Eco Bricks for construction applications. Furthermore, this research explores the environmental advantages of using Eco Bricks. By diverting plastic waste from landfills and reducing the demand for traditional building materials like clay bricks or concrete blocks, Eco Bricks contribute to reduced carbon emissions and resource conservation. This paper also addresses potential challenges associated with Eco Bricks, including quality control, durability, and long-term performance in different climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

43. Preserving Sculptural Heritage in the Era of Digital Transformation: Methods and Challenges of 3D Art Assessment.

Author

Yang, Chen and Liu, Yang

Abstract

Sustainable digital cultural heritage is now an essential aspect of our lives. The rapid development of 3D technology in the historic preservation industry provides the means of documenting, recovering, and presenting cultural heritage items. However, the digital transformation of 3D sculpture heritage is often led by technology without effective evaluation indicators as a guide. This study compares effective assessment methods for digital forms with traditional art. Our approach uses semantic differential scales and machine learning regression models to assess the importance of fifteen artistic attributes. The semantic differential scale is improved based on 15 artistic attributes and proves to be effective in evaluating the value of digital artwork. This research finds that digital artwork is significantly more popular among young people compared with elderly people, especially for attributes like colour variation, saturation, and texture. The research also finds that complexity and social attributes are more important in predicting the value of the digital 3D model. Digital transformation is a viable method for preserving the artistic value of sculpture and improving cultural sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

44. Enhancing the Biological Effects of Bioactive Compounds from Microalgae through Advanced Processing Techniques: Pioneering Ingredients for Next-Generation Food Production.

Author

Bürck, Monize, Ramos, Sergiana dos Passos, and Braga, Anna Rafaela Cavalcante

Subjects

BIOACTIVE compounds, SPIRULINA, FOOD production, DIETARY patterns, MICROALGAE, FOOD additives

Abstract

The heightened interest in healthy dietary practices and the preference for fresh, minimally processed foods with reduced additives have witnessed a significant surge among consumers. Within this context, bioactive compounds have garnered attention as potent agents offering beneficial biological effects when integrated into food formulations. Nevertheless, the efficacy of these bioactive compounds in product development encounters numerous challenges during various processing and storage stages due to their inherent instability. Addressing these limitations necessitates exploring novel technological approaches tailored explicitly to the application of bioactive compounds in food production. These approaches should not only focus on preserving the bioactive compounds within food matrices but also on retaining the sensory attributes (color, taste, and aroma) of the final food products. The impact of microalgae and their bioactive compounds on human health and well-being has been extensively reported in the literature. However, there is still a gap regarding the processing and stability of microalgal bioactive compounds to improve their application in the food industry. The main goal of the present work is to point out how to overcome technological challenges in enhancing the stability of bioactive compounds from microalgae for optimal food applications. [ABSTRACT FROM AUTHOR]

Published

2024

45. Sustainable Preservation: Design of Solar Photovoltaic (PV) Panels for Listed Buildings in Scotland with Consideration of Cleaning Methods †.

Author

Shobande, Rasheed and Sellami, Nazmi

Subjects

GREENHOUSE gas mitigation, PHOTOVOLTAIC power systems, SUSTAINABLE design, SIMULATION software, ENERGY consumption

Abstract

Improving energy efficiency in listed buildings to reduce greenhouse gas emissions (GHGs) by using a monocrystalline solar PV system with the Dar-Al-Arqam mosque in Edinburgh as a case study. Leveraging PVsyst simulation software, various solar PV design scenarios are evaluated. The results suggest the west wing of the roof is optimal for solar PV installation, demonstrating that PV panels can economically reduce emissions while preserving the building's integrity. Different cleaning methods were investigated and the one best suited for the location is the natural cleaning method. [ABSTRACT FROM AUTHOR]

Published

2024

46. Improvement of Climate Resource Utilization in the Southwestern Hilly Region through the Construction of a New Multi-Maturing Cropping System.

Author

Kong, Fanlei, Li, Tongliang, Zhang, Wei, Yin, Pijiang, Liu, Fan, Lan, Tianqiong, Feng, Dongju, Wang, Xinglong, and Yuan, Jichao

Subjects

*CROPPING systems, *CLIMATE change adaptation, *SUSTAINABLE development, *DOUBLE cropping, *AGRICULTURAL development, *CROP allocation

Abstract

The construction of an appropriate cropping pattern is crucial for the improvement of regional agricultural economic efficiency and sustainable development. Despite previous efforts, there remains a gap in optimizing cropping patterns that fully leverage climate resources to enhance production efficiency. This study addresses this gap by systematically comparing the differences in climate resource allocation, production efficiency and crop response among models by constructing four new triple-maturing cropping models at typical ecological sites in the hilly areas of southwest China. To solve the above problems, we constructed eight cropping patterns and classified them to three as follows: the Traditional Double Cropping System, the Traditional Triple Cropping System, the Novel Triple Cropping System. The results showed that the new multi-maturing planting pattern was significantly better than the traditional two-maturing netting pattern and the traditional three-maturing planting pattern in terms of light, temperature and water productivity. Compared with the traditional two-maturity net cropping model and the traditional three-maturity cropping model, the new cropping model increased light energy productivity by 97.88% and 50.00%, respectively; light energy use by an average of 0.48% and 0.31%; cumulative temperature productivity by an average of 84.70% and 49.14%; and rainfall productivity by an average of 101.04% and 49.61%. An assessment of the light, temperature and water meteorological resource use efficiency of the different treatments showed that the resource use efficiency of the new multi-maturing planting pattern was on average 111.58% and 74.78% higher than that of the traditional two-maturing net planting pattern and the traditional three-maturing planting pattern, with the T6 pattern having the highest resource use efficiency. The new multi-ripening cropping pattern has demonstrated production stability in response to changes in light, temperature and water resources, better adapting to weekly climate changes, stabilizing yields and improving efficiency. In summary, the results of this study can provide a theoretical basis for optimizing cropping patterns and promoting the use of climate resources in agriculture and sustainable development. Future research should focus on further refining these models, exploring their adaptability to various climatic conditions, and evaluating their long-term economic and environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

47. Abstracts of the 39th Annual CAPO Conference—Building Hope: Integrating Sustainable, Innovative and Accessible Care in Psychosocial Oncology 6 to 7 June 2024.

Author

Traversa, Peter and Howell, Doris

Subjects

*CANCER treatment, *CHILD patients, *PATIENT-family relations, *POSTER presentations, *COMMUNITY organization, *PARISH nursing, *CAREGIVERS, *NUTRITIONISTS

Abstract

On behalf of the Canadian Association of Psychosocial Oncology, we are pleased to present the Abstracts from the 2024 Annual Conference, titled "Building Hope: Integrating Sustainable, Innovative and Accessible Care in Psychosocial Oncology". The Conference was held in Calgary from 6 June 2024 to 7 June 2024. This conference brought together key stakeholders including multidisciplinary professionals from nursing, psychology, psychiatry, social work, spiritual care, nutrition, medicine, rehabilitation medicine, occupational health and radiation therapy for both adult and pediatric populations. Participants included clinicians, researchers, educators in cancer care, community-based organizations and patient representatives. Patients, caregivers and family members presented abstracts that speak to their role in managing cancer experiences and care. Over one hundred (150) abstracts were selected for presentation as symposia, 20 min oral presentations, 10 min oral presentations, 90 min workshops and poster presentations. We congratulate all the presenters on their research work and contribution. [ABSTRACT FROM AUTHOR]

Published

2024

48. Advancing Sustainable Urban Development: Navigating Complexity with Spherical Fuzzy Decision Making.

Author

Anjum, Mohd, Min, Hong, Sharma, Gaurav, and Ahmed, Zubair

Subjects

*FUZZY decision making, *SUSTAINABLE urban development, *TRANSIT-oriented development, *ENVIRONMENTAL responsibility, *URBAN planning

Abstract

This study explores the complexities of urban planning and addresses major issues by carefully weighing four options for smart city technology, community-based development, green infrastructure investment, and transit-oriented development. Unlike traditional evaluations, our study applies the novel SWARA-WASPAS model to spherical fuzzy sets (SFSs), thus identifying and navigating the uncertainty present in decision making. This methodological approach improves the accuracy of our assessment by providing detailed information about the advantages and disadvantages of each option. Our study offers useful insights for urban policymakers and planners using carefully weighted criteria and employing a methodical ranking procedure. The aim is to provide insights for decisions that promote equity, environmental consciousness, resilience, and symmetry in urban environments. The application of the SWARA-WASPAS approach not only advances the field but also provides a strong basis for informed decision making. This improves the accuracy of our evaluations and provides detailed insights into each option's pros and cons. Our study uses weighted criteria and systematic ranking to advise urban policymakers and planners. Our main goal is to help urban populations make resilient, environmentally responsible, equitable, and symmetrical decisions. Our research aims to further the conversation on sustainable urban development by offering a framework based on data that addresses the difficulties associated with dynamic urban environments. In the end, we want our humanized viewpoint to speak to a wider audience and inspire a shared dedication to creating cities that flourish in the face of changing urban environments. [ABSTRACT FROM AUTHOR]

Published

2024

49. Eco-Friendly and High-Performance Bio-Polyurethane Adhesives from Vegetable Oils: A Review.

Author

Maulana, Sena, Wibowo, Eko Setio, Mardawati, Efri, Iswanto, Apri Heri, Papadopoulos, Antonios, and Lubis, Muhammad Adly Rahandi

Subjects

*SUSTAINABILITY, *ADHESIVES, *VEGETABLE oils, *RAW materials, *FOOTWEAR industry, *VOLATILE organic compounds, *AIR pollution

Abstract

Current petrochemical-based adhesives adversely affect the environment through substantial volatile organic compound (VOC) emissions during production, contributing to air pollution and climate change. In contrast, vegetable oils extracted from bio-resources provide a compelling alternative owing to their renewability, abundance, and compatibility with adhesive formulation chemistry. This review aimed to critically examine and synthesize the existing scholarly literature on environmentally friendly, sustainable, and high-performance polyurethane adhesives (PUAs) developed from vegetable oils. The use of PUAs derived from vegetable oils promises to provide a long-term replacement while simultaneously maintaining or improving adhesive properties. This quality renders these adhesives appropriate for widespread use in various sectors, including construction, automotive manufacturing, packaging, textile, and footwear industries. This review intended to perform a comprehensive assessment and integration of the existing research, thereby identifying the raw materials, strengths, weaknesses, and gaps in knowledge concerning vegetable oil-based PUAs. In doing so, it responded to these gaps and proposes potential avenues for future research. Therefore, this review accomplishes more than merely evaluating the existing research; it fosters the advancement of greener PUA technologies by identifying areas for improvement and innovation towards more sustainable industrial practices by showcasing vegetable oil-based PUAs as viable, high-performance alternatives to their petroleum-based counterparts. [ABSTRACT FROM AUTHOR]

Published

2024

50. Histological and Physiological Study of the Effects of Biostimulants and Plant Growth Stimulants in Viburnum opulus 'Roseum'.

Author

Kovács, Dezső, Horotán, Katalin, Orlóci, László, Makádi, Marianna, Mosonyi, István, Sütöri-Diószegi, Magdolna, and Kisvarga, Szilvia

Subjects

PLANT growth, VIBURNUM, ALKALINE phosphatase, CLIMATE change, TISSUE culture, SHRUBS

Abstract

Biostimulants and other plant growth promoters can provide an effective solution to the challenge of urbanisation and climate change. Viburnum opulus 'Roseum' is a globally popular deciduous shrub species that can be made more resistant to urban influences by using natural growth-promoting substances. In our study, we investigated the effects of growth promoters Kelpak®, Bistep and Yeald Plus on the species, both histologically and physiologically (proline stress hormone measurement). Our measurements were complemented using the analysis of rhizosphere alkaline phosphatase, β-glucosidase and β-glucosaminidase enzymes, to obtain a more complete picture of the combined effect of biostimulants and species. We found that the Bistep biostimulant had an outstanding effect on the leaf tissue culture results of the variety. The transpiration and evapotranspiration findings also confirmed the efficacy of biostimulants. In the case of POD activity and rhizosphere enzyme measurements, Bistep and Yeald Plus obtained statistically higher values than the control group. Kelpak produced better results than the control group in several measurements (alkaline phosphatase levels; evapotranspiration results), but in other cases it resulted in lower values than the control treatment. The use of Bistep and Yeald Plus can greatly assist growers in the cultivation of V. opulus 'Roseum' in an urban environment. [ABSTRACT FROM AUTHOR]

Published

2024