Resources

29 pages, 7255 KiB

Open AccessReview

Solar PV End-of-Life Waste Recycling: An Assessment of Mechanical Recycling Methods and Proposed Hybrid Laser and High Voltage Pulse Crushing Method

by Amjad Ali, Muhammad Shahid, Sikandar Abdul Qadir, Md Tasbirul Islam, Muhammad Waseem Khan and Shoaib Ahmed

Resources 2024, 13(12), 169; https://doi.org/10.3390/resources13120169 - 29 Nov 2024

Abstract

This research article investigates the recycling of end-of-life solar photovoltaic (PV) panels by analyzing various mechanical methods, including Crushing, High Voltage Pulse Crushing, Electrostatic Separation, Hot Knife Cutting, Water Jet Cutting, and Magnetic Separation. Each method’s effectiveness in extracting materials such as glass, [...] Read more.

This research article investigates the recycling of end-of-life solar photovoltaic (PV) panels by analyzing various mechanical methods, including Crushing, High Voltage Pulse Crushing, Electrostatic Separation, Hot Knife Cutting, Water Jet Cutting, and Magnetic Separation. Each method’s effectiveness in extracting materials such as glass, silicon, metals (copper, aluminum, silver, tin, lead), and EVA was evaluated. The analysis reveals that no single method is entirely sufficient for comprehensive material recovery. Based on the data analysis, a new hypothetical hybrid method, Laser and High Voltage Pulse (L&HVP), is proposed, which integrates the precision of laser irradiation with the robustness of high voltage pulse crushing. The laser irradiation step would theoretically facilitate the removal of the ethylene-vinyl acetate (EVA) encapsulant, preparing the materials for subsequent separation. The high high-voltage pulse crushing would then selectively fragment and separate the remaining components, potentially enhancing material recovery efficiency while minimizing contamination. The proposed approach is grounded in the observed limitations of existing techniques. This method aims to offer a more comprehensive and sustainable solution for solar PV module recycling. Further research and experimentation are necessary to validate the effectiveness of the L&HVP method and its potential impact on the field of solar PV recycling. Full article

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27 pages, 3690 KiB

Open AccessFeature PaperArticle

Performance of Different Macrophytes and Support Media in Constructed Wetlands for High Turbidity Reduction from Mine Spoil Rainwater

by Paula Cristine Silva Gomes, Isabela da Silva Pedro Rochinha, Marllus Henrique Ribeiro de Paiva and Aníbal da Fonseca Santiago

Resources 2024, 13(12), 168; https://doi.org/10.3390/resources13120168 - 28 Nov 2024

Abstract

Surface runoff in mining areas transports dissolved and suspended particles into water bodies, known as mine spoil rainwater, contributing to increases in turbidity. The aim of this study was to evaluate the effectiveness of horizontal flow wetlands, free water surface (FWS), and subsurface [...] Read more.

Surface runoff in mining areas transports dissolved and suspended particles into water bodies, known as mine spoil rainwater, contributing to increases in turbidity. The aim of this study was to evaluate the effectiveness of horizontal flow wetlands, free water surface (FWS), and subsurface flow (HSSF) in reducing turbidity >1500 NTU from a synthetic mine spoil rainwater. Macrophytes, support media, hydraulic retention time (HRT), and hydraulic loading rate (HLR) were analyzed. The HSSF T. domingensis in gravel #1 achieved a 99% reduction for 4-day HRT, with residual turbidity of 7 ± 3 NTU for 27.43 L m⁻² d⁻¹ HLR. The FWS P. stratiotes achieved a 99% reduction for 6-day HRT, with residual turbidity of 11 ± 5 NTU for 36.53 L m⁻² d⁻¹ HLR. P. stratiotes free root structures promoted interception of suspended colloidal particles, resulting in a better performance. The dense root structure of T. domingensis spreading through the pores of the substrate provided better efficiency than N. humboldtiana. However, N. humboldtiana proved to be promising as a native species. The use of small granulometry alkaline support media (9 to 19 mm) was highlighted. Therefore, this research proves the efficiency of constructed wetlands in reducing high turbidity and provides optimized parameters for this technology application. Full article

(This article belongs to the Special Issue Mine Ecological Restoration)

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18 pages, 10364 KiB

Open AccessArticle

The Impact of Hard Coal Mining on the Long-Term Spatio-Temporal Evolution of Land Subsidence in the Urban Area (Bielszowice, Poland)

by Robert Machowski, Maksymilian Solarski, Martyna A. Rzetala, Mariusz Rzetala and Abderrahman Hamdaoui

Resources 2024, 13(12), 167; https://doi.org/10.3390/resources13120167 - 28 Nov 2024

Abstract

This article presents the results of long-term monitoring of land subsidence in the Bielszowice area (Upper Silesian Coal Basin) using archival maps from the late 19th and 20th centuries, as well as contemporary LIDAR models from 2012 and 2022. The research work conducted [...] Read more.

This article presents the results of long-term monitoring of land subsidence in the Bielszowice area (Upper Silesian Coal Basin) using archival maps from the late 19th and 20th centuries, as well as contemporary LIDAR models from 2012 and 2022. The research work conducted included an analysis of subsidence caused by mining activities based on four terrain models: a historical terrain model obtained by digitizing Messtischblätter topographic maps, showing the land surface in 1883, a terrain model obtained by vectorizing Polish topographic maps from 1993, and LIDAR digital terrain models from 2012 and 2022. The study shows that over a period of 139 years, the study area subsided by an average of 9.5 m, which translated into an anthropogenic land subsidence rate of 68 mm/year and a subsidence volume of 100.5 million m³. The greatest subsidence occurred in the northern part of the study area, where basins with depths exceeding 30 m (the maximum subsidence amounted to 36 m) emerged. During the 139 years studied, land subsidence affected the entire area that was built up until 2022. Overall, 38.9% of built-up areas subsided by less than 10 m, 54.0% was subject to subsidence ranging between 10 and 20 m, and subsidence of more than 20 m affected 7.1% of the areas. Such large-scale subsidence in an urbanized area resulted in mining damage to houses and other infrastructure (e.g., railroads, roads); in extreme cases, some structures had to be demolished. Bielszowice is a good example of an area where spatial conflicts have emerged that have been related to the activities of industrial plants on the one hand and the development of urban areas on the other. Full article

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21 pages, 5903 KiB

Open AccessFeature PaperArticle

Accurate Method for Solar Power Generation Estimation for Different PV (Photovoltaic Panels) Technologies

by Aissa Meflah, Fathia Chekired, Nadia Drir and Laurent Canale

Resources 2024, 13(12), 166; https://doi.org/10.3390/resources13120166 - 27 Nov 2024

Abstract

In 2023, solar photovoltaic energy alone accounted for 75% of the global increase in renewable capacity. Moreover, this natural energy resource is the one that requires the least investment, which makes it accessible to developing countries. Increasing return on investment in these regions [...] Read more.

In 2023, solar photovoltaic energy alone accounted for 75% of the global increase in renewable capacity. Moreover, this natural energy resource is the one that requires the least investment, which makes it accessible to developing countries. Increasing return on investment in these regions requires a particular evaluation of environmental parameters influencing PV systems performance. Higher temperatures decrease PV module efficiency and, as a result, their power output. Additionally, fluctuations in solar irradiance directly impact the energy generated by these systems. Consequently, it is essential for investors to improve accurate predictive models that assess the power generation capacity of photovoltaic systems under local environmental conditions. Therefore, accurate estimation of maximum power generation is then crucial for optimizing photovoltaic (PV) system performances and selecting suitable PV modules for specific climates. In this context, this study presents an experimental comparison of three maximum power prediction methods for four PV module types (amorphous silicon, monocrystalline silicon, micromorphous silicon, and polycrystalline silicon) under real outdoor conditions. Experimental data gathered over the course of a year are analyzed and processed for the four PV technologies. Three different methods taking into account environmental parameters are presented and analyzed. The first estimation method utilizes irradiance as the primary input parameter, while two additional methods incorporate ambient temperature and PV module temperature for enhanced accuracy. The performance of each method is evaluated using standard statistical metrics, including the root mean square error (RMSE) and coefficient of determination (R²). The results demonstrate the effectiveness of all three methods, with RMSE values ranging from 1.6 W to 3.8 W and R² values consistently above 0.95. The most appropriate method for estimating PV power output is determined by the specific type of photovoltaic module and the availability of meteorological parameters. This study provides valuable insights for selecting an appropriate maximum power prediction method and choosing the most suitable PV module for a given climate. Full article

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34 pages, 3125 KiB

Open AccessArticle

Material Flow Analysis: An Analytical Tool for Strategic Planning Towards a Zero-Waste Solution for End-of-Life Ballast Flows on a Track and Ballast Renewal Site (French Conventional Line)

by Olivier Giboulot, Emmanuel Lemelin, Christophe Binetruy and Nor-Edine Abriak

Resources 2024, 13(12), 165; https://doi.org/10.3390/resources13120165 - 25 Nov 2024

Abstract

The 27,000 km of railway track in France represents approximately 100 million tonnes of ballast. This ballast requires maintenance approximately every 7 years, screening and partial renewal every 20 years, and complete replacement every 40 years. Despite its shortcomings, ballast is still widely [...] Read more.

The 27,000 km of railway track in France represents approximately 100 million tonnes of ballast. This ballast requires maintenance approximately every 7 years, screening and partial renewal every 20 years, and complete replacement every 40 years. Despite its shortcomings, ballast is still widely used on railways worldwide, as there is no better or more efficient solution currently available. In an effort to conserve resources, companies such as SNCF (French national railway company) are implementing initiatives to move towards zero waste. In order to achieve the goal of promoting the recycling and recovery of end-of-life material flows, it is necessary to develop specific studies and models for production, such as direct and reverse logistics systems. This article proposes a generic material flow analysis model applied to a track and ballast renewal site, aiming to fill a gap in the literature. It is based on data from eleven track and ballast renewal sites. A flow diagram generated by STAN software presents a detailed diagnosis of ballast inputs, outputs, and stocks, including data uncertainty. The distribution of the material flows through the model is characterized by transfer coefficients in various transformation processes. Furthermore, by varying the quantities in this model, it is possible to study different scenarios based on the current situation. This will facilitate the projection and analysis of future management strategies aimed at achieving zero waste and reducing the discharge of toxic substances based on specific performance indicators. Full article

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24 pages, 1851 KiB

Open AccessFeature PaperReview

Food Waste to Food Security: Transition from Bioresources to Sustainability

by Prakash Kumar Sarangi, Priti Pal, Akhilesh Kumar Singh, Uttam Kumar Sahoo and Piotr Prus

Resources 2024, 13(12), 164; https://doi.org/10.3390/resources13120164 - 25 Nov 2024

Abstract

The transition from food waste to food security is a critical component of sustainability efforts. This approach focuses on repurposing organic waste products generated throughout the food supply chain into valuable resources. Food waste, encompassing everything from agricultural residues to post-consumer waste, represents [...] Read more.

The transition from food waste to food security is a critical component of sustainability efforts. This approach focuses on repurposing organic waste products generated throughout the food supply chain into valuable resources. Food waste, encompassing everything from agricultural residues to post-consumer waste, represents a significant untapped potential that can be harnessed to enhance food security. By implementing strategies such as composting, bioconversion, and innovative recycling technologies, biowastes can be transformed into fertilizers, animal feed, and even new food products, thus closing the loop in the food system and aiding sustainable solutions for waste valorization. This transition not only addresses environmental concerns by reducing landfill waste and greenhouse gas emissions but also contributes to economic sustainability by creating new opportunities within the food production and waste management sectors. Ultimately, transforming food waste into a resource aligns with the broader goals of a circular economy, ensuring a sustainable, resilient, and food-secure future. Full article

(This article belongs to the Special Issue Alternative Use of Biological Resources)

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22 pages, 2134 KiB

Open AccessArticle

Unlocking Economic and Environmental Gains Through Lithium-Ion Battery Recycling for Electric Vehicles

by Bianca Ifeoma Chigbu and Ikechukwu Umejesi

Resources 2024, 13(12), 163; https://doi.org/10.3390/resources13120163 - 21 Nov 2024

Abstract

Amid South Africa’s shift towards electric vehicles (EVs), building a lithium-ion battery (LIB) recycling sector is essential for promoting sustainable development and generating employment opportunities. This study employs qualitative methodologies to collect insights from 12 critical stakeholders in the automotive, mining, and recycling [...] Read more.

Amid South Africa’s shift towards electric vehicles (EVs), building a lithium-ion battery (LIB) recycling sector is essential for promoting sustainable development and generating employment opportunities. This study employs qualitative methodologies to collect insights from 12 critical stakeholders in the automotive, mining, and recycling sectors and academia to examine the feasibility and advantages of establishing such an industry. We implemented purposeful and snowball sampling to guarantee an exhaustive array of viewpoints. Thematic analysis of the interview data reveals that LIB recycling has substantial social, environmental, and economic implications. The results emphasize the pressing necessity of recycling infrastructure to mitigate environmental impacts and attract investment. The economic feasibility and employment potential of LIB recycling is promising despite the early stage of the EV industry in South Africa. These potentials are influenced by EV adoption rates, technological advancements, regulatory frameworks, and industry growth. In this sector, employment opportunities are available in various phases: battery collection, transportation, disassembly, testing, mechanical crushing, hydrometallurgical processes, valuable metal recovery, manufacturing, reuse, research and development, and administrative roles. Each of these roles necessitates a unique set of skills. This interdisciplinary research investigates vital elements of economic growth, employment creation, environmental sustainability, policymaking, technological innovation, and global collaboration. The study offers valuable guidance to policymakers and industry stakeholders trying to establish a sustainable and robust LIB recycling industry in South Africa by utilizing Transition Management Theory to develop a framework for improving the sustainability and circularity of the EV LIB recycling sector. Full article

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14 pages, 3253 KiB

Open AccessArticle

Carbon Footprint of Additively Manufactured Precious Metals Products

by Mario Schmidt, Jochen Heinrich and Ingwar Huensche

Resources 2024, 13(11), 162; https://doi.org/10.3390/resources13110162 - 20 Nov 2024

Abstract

Traditionally, precious metals are processed by either lost-wax casting or the casting of semi-finished products followed by cold or hot working, machining, and surface finishing. Long process chains usually conclude in a high material input factor and a significant amount of new scrap [...] Read more.

Traditionally, precious metals are processed by either lost-wax casting or the casting of semi-finished products followed by cold or hot working, machining, and surface finishing. Long process chains usually conclude in a high material input factor and a significant amount of new scrap to be refined. The maturing of Additive Manufacturing (AM) technologies is advantageous with regard to resources among other criteria by opening up new processing techniques like laser-based powder bed fusion (LPBF) for the production of near net shape metal products. This paper gives an insight into major advantages of the powder-based manufacturing of precious metal components over conventional methods focusing on product carbon footprints (PCF). Material Flow Cost Accounting (MFCA) for selected applications show energy and mass flows and inefficient recoverable losses in detail. An extended MFCA approach also shows the greenhouse gas (GHG) savings from avoiding recoverable material losses and provides PCF for the products. The PCF of the precious metals used is based on a detailed Life Cycle Assessment (LCA) of the refining process of end-of-use precious metals. In the best case, the refining of platinum from end-of-life recycling, for example, causes 60 kg CO_2e per kg of platinum. This study reveals recommended actions for improvements in efficiency and gives guidance for a more sustainable production of luxury or technical goods made from precious metals. This exemplary study on the basis of an industrial application shows that the use of AM leads to a carbon footprint of 2.23 kg CO_2e per piece in comparison with 3.17 kg CO_2e by conventional manufacturing, which means about a 30 percent reduction in GHG emissions and also in energy, respectively. Full article

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17 pages, 538 KiB

Open AccessArticle

Dynamics of Amaranthus in Urban and Rural Value Chains in Communities of KwaZulu-Natal Province, South Africa

by Ruth N. Olusanya, Unathi Kolanisi, Nomali Z. Ngobese and Chinsamy Mayashree

Resources 2024, 13(11), 161; https://doi.org/10.3390/resources13110161 - 15 Nov 2024

Abstract

Sub-Saharan Africa falls among the developing countries with poor standards of living contributing to the high prevalence of malnutrition. Interventions have been conducted, but malnutrition continues to linger, with devastating impacts on vulnerable groups. In Africa, 90% of its children cannot access the [...] Read more.

Sub-Saharan Africa falls among the developing countries with poor standards of living contributing to the high prevalence of malnutrition. Interventions have been conducted, but malnutrition continues to linger, with devastating impacts on vulnerable groups. In Africa, 90% of its children cannot access the minimum balanced diet. Also, 60% of the people in this region do not access daily meals for dietary needs. Traditional vegetables like Amaranthus are identified to have great potential to combat malnutrition; however, Amaranthus is underutilized due to limited awareness of its potential and poor post-harvest practices along the value chain. This study evaluates the dynamics of Amaranthus along its value chain in the urban and rural communities of KwaZulu-Natal. South Africa. Mixed-design research and a purposive convenient random sampling approach were explored. Semi-structured questionnaires were used to collect data for the survey, and this was strengthened by a series of five n = (30) face-to-face interviews with six key informants from urban and rural formal and informal markets. The findings revealed that eleven species of Amaranthus have been identified in South Africa such as Amaranthus spinosus varieties, including A. dubius, and A. cruentus, which are the most sold and consumed, mostly being sold by street vendors. Thus, poor perception and attitudes along with limited access to Amaranthus in some upper-class markets contribute to underutilization. Promoting Amaranthus at all levels of markets might create better awareness of its utilization. Full article

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19 pages, 9747 KiB

Open AccessArticle

Microfluidic Study of Application of Nanosuspension with Aluminum Oxide Nanofibers to Enhance Oil Recovery Factor During Reservoir Flooding

by Andrey Pryazhnikov, Vladimir Zhigarev, Maxim Pryazhnikov and Andrey Minakov

Resources 2024, 13(11), 160; https://doi.org/10.3390/resources13110160 - 13 Nov 2024

Abstract

The paper presents the results of a comparative microfluidic study of the oil displacement process from a microfluidic chip simulating rock. Suspensions of spherical nanoparticles of silicon oxide (22 nm) and aluminum oxide (11 nm), as well as aluminum oxide nanofibers (8.7 nm [...] Read more.

The paper presents the results of a comparative microfluidic study of the oil displacement process from a microfluidic chip simulating rock. Suspensions of spherical nanoparticles of silicon oxide (22 nm) and aluminum oxide (11 nm), as well as aluminum oxide nanofibers (8.7 nm in diameter and with an aspect ratio of 58), were used as displacing liquids. The nanofibers represent a unique new-generation crystalline material with a high aspect ratio. This work presents the first consideration of the use of aluminum oxide nanofibers as an additive for enhanced oil recovery. The comparative analysis has demonstrated that the addition of nanofibers can markedly enhance the oil recovery factor relative to the addition of spherical nanoparticles, other things being equal. Thus, in particular, it was demonstrated that the addition of nanofibers into the system allows for the greatest enhancement of the oil recovery factor, reaching a value of 25%, whereas the addition of spherical nanoparticles results in a maximum increment of approximately 10%. This is due to the fact that nanofiber additives have a tenfold stronger effect on the viscosity of nanosuspensions compared to similar additives of spherical particles. Nanosuspensions of aluminum oxide nanofibers exhibit non-Newtonian behavior at low concentrations. This opens the possibility of their extensive use in enhanced oil recovery. Full article

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14 pages, 4848 KiB

Open AccessArticle

Water Quality of Rainwater Harvesting Systems and Acceptance of Their Reuse in Young Users: An Exploratory Approach

by Pablo Vidal, Ana María Leiva, Gloria Gómez, Marcela Salgado and Gladys Vidal

Resources 2024, 13(11), 159; https://doi.org/10.3390/resources13110159 - 12 Nov 2024

Abstract

The main objective of this study is to evaluate the water quality of different rainwater harvesting (RWH) systems and the social acceptance of their reuse in young users as an exploratory approach. Three RWH systems were implemented, and the quality of harvested rainwater [...] Read more.

The main objective of this study is to evaluate the water quality of different rainwater harvesting (RWH) systems and the social acceptance of their reuse in young users as an exploratory approach. Three RWH systems were implemented, and the quality of harvested rainwater was evaluated focusing on physicochemical and in situ parameters. Social acceptance was studied in one of the RWH systems using an adapted technology acceptance model. An informative talk about the operation of RWH was given to the users, who were students from a rural primary school. Surveys were conducted before and after the talk to evaluate the impact of providing information to users. The social acceptance was studied in one of the RWH systems. The results indicated that the harvested rainwater from RWH systems was suitable for reuse in agriculture despite the increase in turbidity and chloride concentrations in the outlet tap. The concentration of turbidity, phosphate as phosphorus, chloride and nitrate ranged between 0.8 and 1.9 NTU, 0.01–0.2 mg/L, 2.8–5.0 mg/L and 0.3–0.9 mg/L, respectively. In the acceptance study, the survey results and correlation analyses showed that providing information to users is crucial for increasing the acceptance of RWH systems. Moreover, this study demonstrated that RWH systems are a viable alternative technology for reusing and supplying water in arid and semiarid areas. Full article

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16 pages, 1217 KiB

Open AccessArticle

Developing Guidelines for Azolla microphylla Production as Compost for Sustainable Agriculture

by Ornprapa Thepsilvisut, Nuengruethai Srikan, Preuk Chutimanukul, Rusama Marubodee and Hiroshi Ehara

Resources 2024, 13(11), 158; https://doi.org/10.3390/resources13110158 - 8 Nov 2024

Abstract

Azolla is a substitute compost that has the potential to enhance nutrient cycling in agricultural systems for sustainable development. In this study, four experiments were conducted to compare the Department of Agriculture (DOA, Thailand)’s methodology for determining the suitable type and rate of [...] Read more.

Azolla is a substitute compost that has the potential to enhance nutrient cycling in agricultural systems for sustainable development. In this study, four experiments were conducted to compare the Department of Agriculture (DOA, Thailand)’s methodology for determining the suitable type and rate of animal manure and the optimal light intensity for the growth and yield of Azolla (Azolla microphylla). The results revealed that applying 100% pig manure gave the highest yield of Azolla compared to the other manures. However, there was no discernible (p > 0.05) difference in yield across the various doses (20.16, 30.16, and 40.16 gN m⁻²) of pig manure treatments, for which the minimal pig manure dosage of 20.16 gN m⁻² was chosen. For further experimentation in the optimal light intensity, the 40% shading gave the highest yield of Azolla compared to no shading or 20 and 60% shading (p ≤ 0.01). When compared with the DOA Thailand methodology (1.27 kg m⁻² of cow manure and covered with a size 32 mesh net), the findings indicated that the modified method (20.16 gN m⁻² of pig manure + 40% shading) gave a 16% greater Azolla yield than that under the DOA Thailand methodology. The current finding method can produce a monthly fresh biomass of A. microphylla of 40.7 t ha⁻¹ year⁻¹ with higher contents of total N (4.92%) and lower C:N ratio (≤10:1) that could release minerals relatively rapidly. Its use can be encouraged by farmers to produce their own ecofriendly biofertilizer or soil amendment for sustainable agriculture. Full article

(This article belongs to the Topic Zero Hunger: Health, Production, Economics and Sustainability)

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16 pages, 4330 KiB

Open AccessFeature PaperArticle

Multiobjective Optimisation of Flotation Variables Using Controlled-NSGA-II and Paretosearch

by Bismark Amankwaa-Kyeremeh, Conor McCamley, Kathy Ehrig and Richmond K. Asamoah

Resources 2024, 13(11), 157; https://doi.org/10.3390/resources13110157 - 7 Nov 2024

Abstract

Finding the optimum operating points for the maximisation of flotation recovery and concentrate grade can be a very difficult task, owing to the inverse relationship that exists between these two key performance indicators. For this reason, techniques that can accurately find the trade-off [...] Read more.

Finding the optimum operating points for the maximisation of flotation recovery and concentrate grade can be a very difficult task, owing to the inverse relationship that exists between these two key performance indicators. For this reason, techniques that can accurately find the trade-off are critical for flotation process optimisation. This work extracted well-assessed Gaussian process predictive functions as objective functions for a comparative multiobjective optimisation study using the paretosearch algorithm (PA) and the controlled elitist non-dominated sorting genetic algorithm (controlled-NSGA-II). The main aim was the concomitant maximisation of the copper recovery and the concentrate grade. Comparison of the two applied techniques revealed that the PA discovered the best set of the pareto-optimal solution for both the recovery (93.4%) and concentrate-grade (17.4 wt.%) maximisation. Full article

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18 pages, 3844 KiB

Open AccessArticle

Apple Pomace Integrated Biorefinery for Biofuels Production: A Techno-Economic and Environmental Sustainability Analysis

by Ricardo Rebolledo-Leiva, Sofía Estévez, Diógenes Hernández, Gumersindo Feijoo, María Teresa Moreira and Sara González-García

Resources 2024, 13(11), 156; https://doi.org/10.3390/resources13110156 - 7 Nov 2024

Abstract

The combination of techno-economic process modelling and life cycle assessment is an integrated methodology that addresses quantitative operational data, and evaluates the emissions associated with any process under development. In particular, the valorisation of waste streams within the context of the circular economy [...] Read more.

The combination of techno-economic process modelling and life cycle assessment is an integrated methodology that addresses quantitative operational data, and evaluates the emissions associated with any process under development. In particular, the valorisation of waste streams within the context of the circular economy could be considered a valid and promising approach, especially regarding techno-economic and environmental indicators. This manuscript aims to evaluate the integral valorisation of apple pomace from the processing industry into bioethanol, and vinasses (a byproduct of the distillation process) into biogas and digestate as biofertiliser. In addition to biogas production, lagooning and composting were considered as strategies for vinasse management. After the conceptual design of the process options was completed, the environmental profile of bioethanol production was estimated across different scenarios. When biogas production was integrated to reduce the biorefinery’s energy demand, the carbon footprint was 1.13 kg CO₂eq∙kg⁻¹. This footprint increased to values around four when lagooning and composting were used as vinasse management strategies. Although the economic dimension posed a significant limitation due to high investment costs, the eco-efficiency analysis showed that the scenario of the co-production of bioethanol and biogas is the best alternative. Despite the promising results, further research is needed to explore the recovery of additional co-products to develop a high-potential strategy for apple pomace. Full article

(This article belongs to the Special Issue Life Cycle Sustainability Analysis of Resource Recovery from Waste Management Systems in the Context of Circular Models of the Economy and the Bioeconomy)

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16 pages, 506 KiB

Open AccessArticle

Exploring Acceptance of Agro-Biomass as Innovative Solution for Heating in Rural Areas in Romania

by Ibolya Török, Enikő Mátyus, Tihamér-Tibor Sebestyén, Carmen Păunescu and Kinga Xénia Havadi-Nagy

Resources 2024, 13(11), 155; https://doi.org/10.3390/resources13110155 - 30 Oct 2024

Abstract

This paper aims to examine what can predict the adoption of agro-biomass as an innovative heating solution in rural areas. It explores the social acceptance of agro-biomass such as agriculture byproducts for heating in a rural context. The objectives are threefold: (1) to [...] Read more.

This paper aims to examine what can predict the adoption of agro-biomass as an innovative heating solution in rural areas. It explores the social acceptance of agro-biomass such as agriculture byproducts for heating in a rural context. The objectives are threefold: (1) to examine if there is a causal relationship between awareness and knowledge of agro-biomass applications for heating and intention to adopt this solution; (2) to investigate the extent to which perceived local drivers as well as barriers associated with agro-biomass utilization influence the intention to adopt this heating solution; and (3) to determine if knowledge about agro-biomass energy use, as well as political barriers to agro-biomass adoption for heating, play a mediating and/or moderating role in the established causal relationships. This paper uses primary data collected from rural residents located in different geographic areas in Romania. The 673 valid responses were analysed through multiple regression and mediation and moderation tests. The results confirm that awareness, knowledge, and perception of local drivers and of political barriers are positive predictors of intention to adopt agro-biomass as an innovative solution for heating. They also confirm the mediating role of knowledge and the moderating role of political barriers in the established relationships. Full article

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16 pages, 2245 KiB

Open AccessArticle

Local Use of Mangroves on the Coast of Southeastern México

by Carlos Alberto Martínez-Márquez, Ángel Sol Sánchez, Juan Manuel Zaldívar Cruz, Saúl Sánchez Soto, Nydia Del Rivero Bautista and Mario Manuel Aliphat Fernández

Resources 2024, 13(11), 154; https://doi.org/10.3390/resources13110154 - 29 Oct 2024

Abstract

Mangroves are essential for the well-being of the inhabitants of coastal areas, who have extensive knowledge about the use and exploitation of this resource. However, this knowledge is decreasing, which could trigger negative repercussions for this ecosystem. Ethnobiological investigations make it possible to [...] Read more.

Mangroves are essential for the well-being of the inhabitants of coastal areas, who have extensive knowledge about the use and exploitation of this resource. However, this knowledge is decreasing, which could trigger negative repercussions for this ecosystem. Ethnobiological investigations make it possible to gather information on the use, management, and exploitation of this resource. Hence, this paper presents a study that is framed around the coastal area of the state of Tabasco, in southeast México, and consists of 74 semi-structured interviews that were carried out, while the local relevance of each mangrove species was evaluated using ethnobiological indices. Three species of mangrove were identified, Avicennia germinans, Laguncularia racemosa, and Rhizophora mangle, and the latter species had the highest Use-Value (UV) Index value of 6.08. A total of 27 forms of forestry use were found, 11 for non-timber use and 16 for timber use. Firewood stood out as the main use with 12.6%, while the use of needles to make cloth and crafts represented the lowest percentage with 0.3%. The uses given by the coastal population to the mangroves and their respective species were influenced by immediate needs and specific characteristics of each species. To ensure the sustainability of mangroves, it is essential to design environmental strategies that integrate local ethnobiological knowledge and promote the active participation of direct users of this ecosystem. These strategies should be incorporated into public conservation policies, recognizing the cultural and economic value that mangroves hold for local communities. By implementing these actions, the relationship between communities and their environment will be strengthened, laying the groundwork for further exploration of coastal ethnobiology. Full article

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19 pages, 2374 KiB

Open AccessArticle

Oven-Dried Cupuaçu and Bacuri Fruit Pulps as Amazonian Food Resources

by Anna Paula Pereira Barbosa-Carvalho, Rosinelson da Silva Pena and Renan Campos Chisté

Resources 2024, 13(11), 153; https://doi.org/10.3390/resources13110153 - 25 Oct 2024

Abstract

The Amazon is one of the largest and most diverse biomes on the planet. Cupuaçu (Theobroma grandiflorum (Willd. ex Spreng.) Schum) and bacuri (Platonia insignis Mart.) are Amazonian fruit species appreciated for their sensory characteristics and promising availability of bioactive compounds. [...] Read more.

The Amazon is one of the largest and most diverse biomes on the planet. Cupuaçu (Theobroma grandiflorum (Willd. ex Spreng.) Schum) and bacuri (Platonia insignis Mart.) are Amazonian fruit species appreciated for their sensory characteristics and promising availability of bioactive compounds. However, high moisture levels (>80%) make these pulps susceptible to deterioration during storage. In this study, the oven-drying process was monitored to produce dry and more stable pulps. The process was monitored at 40 °C, 55 °C and 70 °C, and the bioactive compounds and antioxidant capacity were determined as quality indicators. In general, drying at 70 °C for 340 min produced dried cupuaçu and bacuri pulps with high levels of total phenolic compounds: 288 and 652 mg gallic acid equivalents/100 g, respectively. The hygroscopic evaluation suggested that both of the dried pulps should be stored at a relative humidity of <40% to avoid rapid water adsorption and it is advised to carry out the oven-drying process until up to 12% moisture is reached for cupuaçu and 9% for bacuri to avoid unnecessary energy consumption. Thus, this study expands the potential of bacuri and cupuaçu pulps for application in food industries, contributing to the economic and social development of the Amazon region. Full article

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18 pages, 8882 KiB

Open AccessFeature PaperArticle

Sources Affecting Microplastic Contamination in Mountain Lakes in Tatra National Park

by Piotr Kiełtyk, Kamil Karaban, Agnieszka Poniatowska, Angelika Bryska, Tomasz Runka, Zuzanna Sambor, Piotr Radomski, Tomasz Zwijacz-Kozica and Anita Kaliszewicz

Resources 2024, 13(11), 152; https://doi.org/10.3390/resources13110152 - 25 Oct 2024

Abstract

The global atmospheric transport of microplastics (MPs) plays a crucial role in the contamination of remote, especially higher-elevation, environments. Precipitation is considered the main source of MP pollution. Meanwhile, plastic waste generated from, for example, tourism activities can be a local source of [...] Read more.

The global atmospheric transport of microplastics (MPs) plays a crucial role in the contamination of remote, especially higher-elevation, environments. Precipitation is considered the main source of MP pollution. Meanwhile, plastic waste generated from, for example, tourism activities can be a local source of MP pollution. In this study, we specify which of the mentioned sources of MP, global or local, have a higher impact on the pollution level in the high-elevation oligotrophic lakes of Tatra National Park in Poland. Due to its unique natural value, it is listed by UNESCO as an international biosphere reserve and meets the criteria for Natura 2000 areas. We comprehensively analyzed the morphometric and anthropogenic features of 11 lakes in terms of the contamination level, color, shape, and polymer type of the MPs found in the surface waters. MP fibers were found to be present in all studied lakes, with contamination ranging from 25 to 179 items/m³. Polypropylene, polyethylene terephthalate, and natural or semi-natural cellulose fibers—black or red in color with a length of 0.2–1.0 mm—predominated, which corresponds with other studies conducted on remote mountain ecosystems. We did not find any correlation of the number of MPs with local anthropogenic pressure characteristics. In turn, the significant correlation with lake area, coastline length, lake volume, and catchment area indicated airborne sources, including global transport of MPs to the lakes with reduced water outflow. Full article

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27 pages, 2923 KiB

Open AccessArticle

Sustainability and Environmental Performance in Selective Collection of Residual Materials: Impact of Modulating Citizen Participation Through Policy and Incentive Implementation

by Laurie Fontaine, Robert Legros and Jean-Marc Frayret

Resources 2024, 13(11), 151; https://doi.org/10.3390/resources13110151 - 24 Oct 2024

Abstract

The effective management of urban waste represents a growing challenge in the face of demographic evolution and increased consumption. This study explores the impacts of municipal strategic decisions on household waste management behaviours and sustainability performance outcomes through agent-based modelling. Using data from [...] Read more.

The effective management of urban waste represents a growing challenge in the face of demographic evolution and increased consumption. This study explores the impacts of municipal strategic decisions on household waste management behaviours and sustainability performance outcomes through agent-based modelling. Using data from Gatineau and Beaconsfield in Quebec, Canada, the model is calibrated and validated to represent diverse urban contexts. Our analysis demonstrates that reducing collection frequency leads to notable increases in participation rates, reaching 78.2 ± 5.1% for collections every two weeks and 96.5 ± 8.3% for collections every five weeks. While this reduction improves bin filling levels, it concurrently decreases the recovery of recyclable materials by 2.8% and 19.5%, significantly undermining the environmental benefits of the recycling program. These findings highlight a complex interplay between collection frequency, citizen participation behaviour, waste stream characteristics, and overall environmental performance. While reducing collection frequency initially appears beneficial, it leads to operational challenges and increased CO₂ emissions due to reduced material recovery. The research emphasises the need for tailored holistic waste management strategies that optimise performance outcomes while minimising environmental impacts. By understanding these dynamics, municipalities can develop more effective waste management policies that promote sustainability. Full article

(This article belongs to the Special Issue Life Cycle Sustainability Analysis of Resource Recovery from Waste Management Systems in the Context of Circular Models of the Economy and the Bioeconomy)

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