Resources

11 pages, 1310 KiB

Open AccessArticle

Evaluating Alternative Oxidants for Artificial Chemical Oxygen Demand Removal Performance from Wastewater Treatment Plants

by Julio Alejandro Gutiérrez González, Angel Fernández Mohedano and Francisco Raposo Bejines

Resources 2025, 14(3), 46; https://doi.org/10.3390/resources14030046 - 10 Mar 2025

Abstract

The accurate characterization of pollution in terms of chemical oxygen demand (COD) in wastewater treatment plants is considered as a key topic for their monitoring. In this research work, the negative interference of oxychlorides in COD measurements has been evaluated at a laboratory [...] Read more.

The accurate characterization of pollution in terms of chemical oxygen demand (COD) in wastewater treatment plants is considered as a key topic for their monitoring. In this research work, the negative interference of oxychlorides in COD measurements has been evaluated at a laboratory scale. Specifically, the role of oxychlorides as alternative oxidizing agents in competition with dichromate has been assessed. The extent of COD reduction performance varied widely (40–100%) according to the particular oxychloride oxidizing reagent used and its concentration, as well as the organic carbon source and amount present in the wastewater. The experimental values of COD removal performance should be considered as dual concentration dependent. On the one hand, for each oxidizing agent, the COD reduction performance is directly proportional to the dosage used in the experiment. On the other hand, the influence of organic matter concentration on COD removal performance was inversely proportional. In addition, chlorate can be considered the strongest oxidizing agent and the principal interferent responsible for the overevaluation of COD removal performance. Furthermore, the interference extent of oxychlorides on COD determination decreased in the order of phthalate > hydrocarbons > proteins. These results can be useful to appropriately evaluate the performance of wastewater treatment plants. Full article

► Show Figures

Figure 1

23 pages, 7745 KiB

Open AccessArticle

Exploring the Interplay Between Food Provision and Habitat Quality Assessment for Sustainable Coexistence in the Bioproduction Systems of the Philippines

by Mesfin Sahle, Nico R. Almarines, Shruti Ashish Lahoti, Cristino L. Tiburan, Jr., Juan M. Pulhin and Osamu Saito

Resources 2025, 14(3), 45; https://doi.org/10.3390/resources14030045 - 7 Mar 2025

Abstract

Balancing human activities and ecosystem health is critical amid increasing biodiversity concerns. This study explores the relationship between food provision and habitat quality in bioproduction systems in the Philippines, focusing on the Pagsanjan-Lumban Watershed (PLW) and the Baroro Watershed (BW). Using the TerrSet [...] Read more.

Balancing human activities and ecosystem health is critical amid increasing biodiversity concerns. This study explores the relationship between food provision and habitat quality in bioproduction systems in the Philippines, focusing on the Pagsanjan-Lumban Watershed (PLW) and the Baroro Watershed (BW). Using the TerrSet Land Change Modeler for LULC projections, the InVEST model for habitat quality assessment, and statistical analysis of disaggregated crop production data, this study evaluates the synergies and trade-offs between food provision and biodiversity conservation. The findings reveal that LULC changes—such as shifts in annual crops, built-up areas, forests, and agroforestry systems—impact ecosystem health. Habitat quality in the PLW shows temporal degradation, while the BW remains relatively stable. Food production trends indicate fluctuating yields in the PLW, with a decline in the BW. Correlation analysis highlights trade-offs between food provision and habitat quality in the PLW, whereas the BW exhibits a positive correlation, suggesting potential synergies. These findings emphasize the importance of place-based strategies to reconcile food production and biodiversity conservation, ensuring sustainable bioproduction systems that support both ecosystem health and food security. Full article

► Show Figures

Figure 1

19 pages, 224 KiB

Open AccessEditorial

A Review of the Key Findings from the Special Issue on “Life Cycle Sustainability Analysis of Resource Recovery from Waste Management Systems in the Context of Circular Models of the Economy and the Bioeconomy”

by Carlo Ingrao, Alberto Bezama, Annarita Paiano, Jakob Hildebrandt and Claudia Arcidiacono

Resources 2025, 14(3), 44; https://doi.org/10.3390/resources14030044 - 6 Mar 2025

Abstract

The economy over the last century and a half has followed the take–make–use–dispose model, which, as known, leads to the unresponsible, uncontrolled extraction of resources for production and consumption, with no effective plans for waste reutilisation and economy regeneration (Wojnarowska et al [...] [...] Read more.

The economy over the last century and a half has followed the take–make–use–dispose model, which, as known, leads to the unresponsible, uncontrolled extraction of resources for production and consumption, with no effective plans for waste reutilisation and economy regeneration (Wojnarowska et al [...] 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)

17 pages, 3112 KiB

Open AccessArticle

Assessment of the Hydrogen Production Potential in a Zeolite Assisted Two-Phase Dark and Photo-Fermentation Process from Urban Waste Mixture

by Marco Gottardo, Navid Khorramian, Paolo Pavan, Federico Battista, David Bolzonella, Roberto Lauri and Francesco Valentino

Resources 2025, 14(3), 43; https://doi.org/10.3390/resources14030043 - 6 Mar 2025

Abstract

Waste-based sustainable solutions proposed by scientific and industrial communities for energy production are an approach that can respond to the growing concerns regarding climate change and fossil resources depletion. This study investigates a two-phase bioprocess combining dark fermentation (DF) and photo-fermentation (PF) to [...] Read more.

Waste-based sustainable solutions proposed by scientific and industrial communities for energy production are an approach that can respond to the growing concerns regarding climate change and fossil resources depletion. This study investigates a two-phase bioprocess combining dark fermentation (DF) and photo-fermentation (PF) to enhance hydrogen yield while anaerobically treating urban organic food waste and sewage sludge. A key objective was to assess the effect of waste composition and temperature on hydrogen accumulation, with particular attention to the fermentation product and the role of zeolite in improving process efficiency. In the DF stage, the addition of zeolite significantly enhanced hydrogen production by increasing microbial activity and improving substrate bioavailability. As a result, hydrogen production increased up to 27.3 mmol H₂/(L d) under thermophilic conditions. After the suspended solids were removed from the dark fermentation broth, a photo-fermentation step driven by a pure strain of Rhodopseudomonas palustris was performed under permanent IR light and different substrate-to-inoculum [S/I] ratios. The maximum hydrogen production rate was 9.33 mmol H₂/(L d), when R. palustris was inoculated at the lowest [S/I] ratio (<20 COD/COD) and with 0.5 g VSS/L as the initial concentration. This condition in the photo-fermentation process led to an increase in the hydrogen yield up to 35% compared to values obtained from dark fermentation alone. Full article

► Show Figures

Figure 1

25 pages, 1098 KiB

Open AccessArticle

Chemical Diversity in Essential Oils of 40 Artemisia Species from Western and Trans Himalayan Regions of India

by Bushan Kumar, Ishfaq Ahmad Wani, Javaid Fayaz Lone, Kota Srinivas and Sumeet Gairola

Resources 2025, 14(3), 42; https://doi.org/10.3390/resources14030042 - 6 Mar 2025

Abstract

The genus Artemisia L. (tribe Anthemidea), belonging to the family Asteraceae, has a rich diversity of essential oil-bearing species distributed throughout the Western Himalayan (WH) and Trans-Himalayan (TH) regions of India. The present study evaluated the essential oils of the eighty-one accessions representing [...] Read more.

The genus Artemisia L. (tribe Anthemidea), belonging to the family Asteraceae, has a rich diversity of essential oil-bearing species distributed throughout the Western Himalayan (WH) and Trans-Himalayan (TH) regions of India. The present study evaluated the essential oils of the eighty-one accessions representing 40 Artemisia spp. from India’s WH and TH regions for their essential oil yield, chemical composition, and variability among and within the species. The essential oil yield ranged between 0.02% and 1.65%. One hundred fifty-five major compounds identified by GC-MS technique accounted for 81–100% of the total oil composition in the studied accessions. 1,8-cineole, thujone, camphor, artemisia ketone, borneol, and caryophyllene were present in most of the studied Artemisia accessions. Results of PCA indicated that the first two components contributed 42.31% of total variation and showed a significant positive correlation with thujone, camphor, 1,8-cineole, caryophyllene oxide, caryophyllene, borneol, artemisia ketone, and p-cymene. Based on the chemical composition of essential oil, different accessions were grouped into two major clusters and subdivided into several subgroups. The study has identified many new chemotypes of Artemisia spp. with industrial potential that had not been studied before in this region. Based on the results, new agro-technologies may be developed using Artemisia spp. of commercial interest. Full article

► Show Figures

Figure 1

30 pages, 1330 KiB

Open AccessReview

Environmental and Closure Costs in Strategic Mine Planning, Models, Regulations, and Policies

by David Oliveros-Sepúlveda, Marc Bascompta-Massanés and Giovanni Franco-Sepúlveda

Resources 2025, 14(3), 41; https://doi.org/10.3390/resources14030041 - 27 Feb 2025

Abstract

This study explores the evolution of mine planning, with particular emphasis on the integration of environmental and social factors in alignment with the sustainable development. Traditionally, mine planning emphasized technical and economic variables, often overlooking environmental and social impacts. However, the increasing need [...] Read more.

This study explores the evolution of mine planning, with particular emphasis on the integration of environmental and social factors in alignment with the sustainable development. Traditionally, mine planning emphasized technical and economic variables, often overlooking environmental and social impacts. However, the increasing need to align with the Sustainable Development Goals (SDGs) has prompted a shift toward broader definitions that incorporate these factors into resource planning. This paradigm change is crucial for managing risks related to project profitability, which now include environmental considerations. The article also examines how government policies and corporate strategies, including Corporate Social Responsibility (CSR) and Environmental, Social, and Governance (ESG) frameworks have evolved to address these impacts. A review of the literature published over the last 25 years identifies four main thematic areas: (1) inclusion of environmental costs in mine planning, (2) quantitative models for calculating environmental and closure costs, (3) legal frameworks in mining, and (4) innovations in public policies. This study underscores the need for a comprehensive approach in mine planning that balances economic, social, and environmental considerations to ensure sustainability and mitigate risks associated with mine closure and environmental remediation. Full article

► Show Figures

Figure 1

13 pages, 791 KiB

Open AccessArticle

Optimization of Agricultural Enterprises’ Sown Areas Considering Crop Rotation

by Nadiia Shmygol

Resources 2025, 14(3), 40; https://doi.org/10.3390/resources14030040 - 27 Feb 2025

Abstract

This article explores contemporary scientific approaches to improving the efficiency of agricultural operations in Ukraine. It has been identified that insufficient attention has been given to optimizing the activities of agricultural enterprises. A model for optimizing crop areas, considering crop rotations in crop [...] Read more.

This article explores contemporary scientific approaches to improving the efficiency of agricultural operations in Ukraine. It has been identified that insufficient attention has been given to optimizing the activities of agricultural enterprises. A model for optimizing crop areas, considering crop rotations in crop production or mixed-type enterprises, has been developed to ensure an increase in crop yields. The model incorporates factors such as soil health, pest management, and the economic feasibility of different cropping systems. By applying crop rotation principles, the model aims to achieve a balanced and sustainable agricultural practice, promoting both productivity and environmental sustainability. The findings highlight the importance of considering ecological factors and economic optimization in agricultural planning. The model demonstrates how the rotation of crops can prevent soil depletion and improve overall land use efficiency, thereby boosting the agricultural output of enterprises. The proposed approach is distinguished by its uniqueness, as it leverages advanced economic–mathematical methodologies and state-of-the-art information–analytical tools to enable the automation of the crop rotation planning process. The implementation of this approach can lead to more sustainable farming practices, enhanced soil fertility, and increased profitability. Full article

► Show Figures

Figure 1

26 pages, 4392 KiB

Open AccessArticle

Nutrient Management Under Good Agricultural Practices for Sustainable Cassava Production in Northeastern Thailand

by Derrick Keith Thompson, Ornprapa Thepsilvisut, Phanawan Imorachorn, Saowakol Boonkaen, Preuk Chutimanukul, Suthasinee Somyong, Wuttichai Mhuantong and Hiroshi Ehara

Resources 2025, 14(3), 39; https://doi.org/10.3390/resources14030039 - 26 Feb 2025

Abstract

Emphasis on sustainable cassava production is increasing, with aims to increase the net income of cassava farmers in an ecologically friendly way. This study examined the optimization of soil fertilizer management at two research locations (Nampong and Seungsang) in northeastern Thailand. The experiment [...] Read more.

Emphasis on sustainable cassava production is increasing, with aims to increase the net income of cassava farmers in an ecologically friendly way. This study examined the optimization of soil fertilizer management at two research locations (Nampong and Seungsang) in northeastern Thailand. The experiment was conducted as a randomized complete block design with five replications. Eight different fertilizer management protocols consisted of (1) no fertilizer application (control), (2) the recommended dosage of chemical fertilizer (RDCF), (3) 3.12 t ha⁻¹ of chicken manure (CM), (4) 937.5 L ha⁻¹ of swine manure extract (SME), (5) CM + SME, (6) ½ RDCF + ½ CM, (7) ½ RDCF + ½ SME, and (8) CM + PGPR (stake soaking with PGPR solution). At the Nampong site, the application of CM + PGPR has the most potential for increasing the cassava yield in terms of the fresh tuber yield when compared with no fertilizer and RDCF applications. At the Seungsang site, the application of CM gave the high fresh tuber yield, without significant differences from RDCF applications. Furthermore, compared to the RDCF treatment, both soil fertilizer management protocols produced positive marginal rate of return values, showing clear potential for contributing to sustainable cassava production. Full article

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

► Show Figures

Figure 1

19 pages, 1799 KiB

Open AccessArticle

Supply Chain Model for Mini Wind Power Systems in Urban Areas

by Isvia Zazueta, Edgar Valenzuela, Alejandro Lambert, José R. Ayala and Rodny Garcia

Resources 2025, 14(3), 38; https://doi.org/10.3390/resources14030038 - 26 Feb 2025

Abstract

The pursuit of energy security has become one of the most important challenges facing modern societies worldwide. The increase in energy consumption and the need to promote sustainability puts pressure on power generation systems. In this context, renewable energy sources have become a [...] Read more.

The pursuit of energy security has become one of the most important challenges facing modern societies worldwide. The increase in energy consumption and the need to promote sustainability puts pressure on power generation systems. In this context, renewable energy sources have become a favorable option to improve both energy security and sustainability while promoting the use of domestic energy sources. The supply chain is an optimized methodology that includes all necessary activities to bring a product to the final consumer. Traditionally applied in the manufacturing industry, recent evidence shows its successful implementation in various renewable energy sectors. In this work, a novel methodology based on a supply chain was designed to evaluate the feasibility of mini wind power systems in urban areas in an integrated and measurable manner. The main contribution lies in the integration of several different approaches, currently recognized as the most relevant factors for determining the viability of wind energy projects. A five-link supply chain model was proposed, which includes an evaluation of wind potential, supplier network, project technical assessment, customer distribution, and equipment final disposal. Specific metric indicators for each link were developed to evaluate technical, legislative, and social considerations. The methodology was applied in a case study in the city of Mexicali, Mexico. The findings show that although wind as a resource remains the most important factor, local government policies that promote the use of renewable energy, the supplier’s availability, qualified human resources, and spare parts are also of equivalent significance for the successful implementation of mini wind power systems. Full article

► Show Figures

Figure 1

25 pages, 5892 KiB

Open AccessArticle

Photovoltaic Waste Generation in the Context of Sustainable Energy Transition in EU Member States

by María Beatriz Nieto Morone, Félix García Rosillo, Miguel Ángel Muñoz-García and Maria del Carmen Alonso-García

Resources 2025, 14(3), 37; https://doi.org/10.3390/resources14030037 - 26 Feb 2025

Abstract

The European Union (EU) is witnessing an expansion in solar capacity, aligning with its commitment to achieving climate neutrality by 2050. However, deploying solar capacity introduces significant environmental complexities, such as managing photovoltaic waste when the modules reach their end of life. This [...] Read more.

The European Union (EU) is witnessing an expansion in solar capacity, aligning with its commitment to achieving climate neutrality by 2050. However, deploying solar capacity introduces significant environmental complexities, such as managing photovoltaic waste when the modules reach their end of life. This study presents an assessment of PV waste mass generation, integrating the latest data from the revised targets of the National Energy and Climate Plans (NECPs) of EU Member States presented in December 2023. Annual and cumulative PV waste mass is presented, analyzing the results in terms of the PV capacity deployment in each country and their recycling needs to face the treatment of the generated PV waste. According to the reviewed targets, the analysis reveals significant variations in PV waste mass generation across EU countries. The revisions show a substantial increase in the amount of waste generated in Europe. Lithuania and Ireland are anticipated to face substantial challenges, particularly under the early-loss scenario, whereas Germany, Italy, France, and Spain continue to be the countries that will generate the most PV waste mass in Europe. These findings emphasize the necessity for formulating and implementing effective waste management strategies to address the increasing generation of PV waste and mitigate its environmental impact. Furthermore, the study underscores the need to reassess projections to accommodate evolving energy policies and targets, ensuring alignment with sustainability objectives in this dynamic field. Full article

► Show Figures

Figure 1

15 pages, 634 KiB

Open AccessArticle

Energy Consumption, Economic Growth, and Climate Change Nexus in Jordan: Insights from the Toda Yamamoto Causality Test

by Mohammad M. Jaber, Tekla Szép, Ali Ramadan El-Naqa and Shereen A. Abusmier

Resources 2025, 14(3), 36; https://doi.org/10.3390/resources14030036 - 23 Feb 2025

Abstract

Jordan faces significant challenges related to energy security due to its limited natural resources and reliance on energy imports, which meet over 90% of its energy needs. The adoption of renewable energy (RE) technologies is viewed as a crucial step in reducing dependence [...] Read more.

Jordan faces significant challenges related to energy security due to its limited natural resources and reliance on energy imports, which meet over 90% of its energy needs. The adoption of renewable energy (RE) technologies is viewed as a crucial step in reducing dependence on fossil fuels, enhancing energy security, and addressing environmental concerns such as CO₂ emissions. Jordan has set ambitious goals to reduce greenhouse gas emissions by 30% by 2030 through RE and energy efficiency initiatives, in line with the global push to combat climate change. Using the Toda-Yamamoto causality test, this study examines the relationship between economic growth, energy consumption, and greenhouse gas emissions in Jordan from 1980 to 2021. The results indicate a bidirectional causality between energy consumption and economic growth, highlighting the energy-dependent nature of Jordan’s economy. Additionally, greenhouse gas emissions were found to cause economic growth, reflecting the role of emissions-intensive industries in the country’s development. The study also shows that economic growth and greenhouse gas emissions jointly influence energy consumption, while energy consumption does not directly drive emissions. These findings emphasize the need for Jordan to adapt and accelerate its energy transition. By investing in renewable energy and improving energy efficiency, Jordan can reduce its contributions to climate change while enhancing energy security and fostering sustainable economic growth. Full article

► Show Figures

Figure 1

17 pages, 1940 KiB

Open AccessArticle

Agronomic Management, Socioeconomic Factors, and Carbon and Nitrogen Pools in Avocado–Coffee Systems in Huatusco, Veracruz, México

by Diana Ayala-Montejo, Pablo Martínez-Zurimendi, Juan Fernando Gallardo-Lancho, Rufo Sánchez-Hernández, Eduardo Valdés-Velarde, Teresita de Jesús Santiago-Vera and Joel Pérez-Nieto

Resources 2025, 14(3), 35; https://doi.org/10.3390/resources14030035 - 21 Feb 2025

Abstract

Avocado cultivation is displacing traditional coffee production in Veracruz, Mexico. This change modifies the floristic composition and agronomic management (AM), both of which are affected by socioeconomic factors and generate variation in edaphic conditions. The objective of this research was to identify the [...] Read more.

Avocado cultivation is displacing traditional coffee production in Veracruz, Mexico. This change modifies the floristic composition and agronomic management (AM), both of which are affected by socioeconomic factors and generate variation in edaphic conditions. The objective of this research was to identify the socioeconomic variables that modify the characteristics of the AM of avocado and coffee systems and have repercussions on the carbon and nitrogen pools. Four case studies were analyzed: a renovated coffee polyculture (SRC), severely cleaned coffee polyculture (IPC), avocado–coffee system (ACS), and conventional avocado orchard (CAO). A socioeconomic analysis was carried out with a 30-year economic projection and 56 variables. Three plots were installed where vegetal biomass carbon (VBC) was evaluated; soil samples were taken in theses plots at three depths (in triplicate) to determine soil organic carbon (SOC) and total soil nitrogen (TSN) in each case. A principal component analysis (PCA) was performed. Four economic variables explain 50.9% of the variation in agronomic management and five social variables 50.2%, in both cases where the component is considered. In all systems, the variation in VBC is explained by the agronomic management, while the reported SOC presents an inverse relationship with AM. The ACS presents the higher values in total C in the system, and SOC and TSN pools, while the CAO shows negative impacts concerning soil organic matter quality. The ACS is sensitive to investment, market diversity, education, and external organic residue addition, explaining the variations in AM and the TSN pools. Full article

► Show Figures

Figure 1

20 pages, 4321 KiB

Open AccessArticle

Transforming Biomass Waste into Hydrochars and Porous Activated Carbon: A Characterization Study

by Suhas, Monika Chaudhary, Shubham Chaudhary, Shivangi Chaubey, Isabel Pestana da Paixão Cansado, Mohammad Hadi Dehghani, Inderjeet Tyagi and Rama Gaur

Resources 2025, 14(3), 34; https://doi.org/10.3390/resources14030034 - 20 Feb 2025

Abstract

Hydrothermal carbonization (HTC) is an environmentally friendly process for transforming biomass into sustainable hydrochar, which is a carbon-rich material with a variety of potential applications. Herein, Tectona grandis seeds (TGs) were transformed into hydrochars using HTC at low temperatures (180–250 °C) and autogenous [...] Read more.

Hydrothermal carbonization (HTC) is an environmentally friendly process for transforming biomass into sustainable hydrochar, which is a carbon-rich material with a variety of potential applications. Herein, Tectona grandis seeds (TGs) were transformed into hydrochars using HTC at low temperatures (180–250 °C) and autogenous pressure. The prepared hydrochars were rich in oxygenated functional groups. The optimized hydrochar, HC-230-4 (prepared at 230 °C, for 4 h), presented a ratio of H/C = 0.95 and O/C = 0.29, an improved degree of coalification, and a high heating value (26.53 MJ kg⁻¹), which can replace bituminous coals in the power sector. The prepared hydrochar was further activated in the presence of CO₂ to prepare activated carbon (AC). XRD, TGA, FTIR, FE-SEM, and BET techniques were used to characterize raw biomass (TGs), hydrochar, and ACs, to identify the potential applications for the developed materials. BET studies revealed that the hydrochar has limited porosity, with a low surface area (14.41 m²g⁻¹) and porous volume. On the other hand, the derived AC (AC-850-5) has a high surface area (729.70 m²g⁻¹) and appreciable total and microporous volumes (0.392 cm³g⁻¹ and 0.286 cm³g⁻¹). The use of biomass, mainly waste biomass, for the production of carbon-rich materials is an effective strategy for managing and valorizing waste biomass resources, reducing environmental pollution, and improving sustainability, being in line with the principles of circularity. Full article

► Show Figures

Figure 1

10 pages, 3106 KiB

Open AccessCommunication

Global Overview of the Lithium Market and Opportunities for Chile

by Mauricio Mura, Ignacio Castillo, David Torres, Felipe M. Galleguillos Madrid, Edelmira Gálvez, Sandra Gallegos, Jonathan Castillo, Marinka Varas, Ingrid Jamett and Norman Toro

Resources 2025, 14(2), 33; https://doi.org/10.3390/resources14020033 - 19 Feb 2025

Abstract

Lithium is a metal with a highly promising outlook for future global demand. Its industrial processing relies on two primary methods: production from brines through solar evaporation ponds and production from rock sources via flotation, roasting, and subsequent leaching. Chile is currently the [...] Read more.

Lithium is a metal with a highly promising outlook for future global demand. Its industrial processing relies on two primary methods: production from brines through solar evaporation ponds and production from rock sources via flotation, roasting, and subsequent leaching. Chile is currently the world’s second-largest producer of lithium, surpassed only by Australia. However, Chile’s lithium production process is significantly advantaged by the exceptionally high lithium concentration in the Salar de Atacama—the highest in the world—and the region’s high solar radiation, which enables the most cost-effective solar evaporation process globally. Despite these comparative advantages, Chile’s lithium production has stagnated in recent years. This stagnation can be attributed to the need for more flexible legislation surrounding the lithium industry or an increase in the number of CEOLs (Lithium Exploitation Contracts) to regain its position as the leading global producer of lithium. Furthermore, increased investment in national universities and research centers is essential to foster the development and implementation of new, clean technologies for future projects. By addressing these challenges, Chile has the potential to solidify its role as a key player in the global lithium market while promoting sustainable industrial practices. Full article

► Show Figures

Figure 1

18 pages, 1371 KiB

Open AccessArticle

Measuring the Economic Impact of Pre-Salt Layer on the Productivity of the Oil and Natural Gas Sector

by Mario Jorge Cardoso de Mendonca, Amaro Olimpio Pereira Junior, Jose Francisco Moreira Pessanha, Rodrigo Mendes Pereira and Julian David Hunt

Resources 2025, 14(2), 32; https://doi.org/10.3390/resources14020032 - 18 Feb 2025

Abstract

Based on productivity and efficiency indicators, we investigated the performance of the Brazilian oil and gas exploration industry, comparing the performance of this sector with other industrial sectors. We associate productivity with the concept of total factor productivity (TFP), while efficiency is measured [...] Read more.

Based on productivity and efficiency indicators, we investigated the performance of the Brazilian oil and gas exploration industry, comparing the performance of this sector with other industrial sectors. We associate productivity with the concept of total factor productivity (TFP), while efficiency is measured using the stochastic frontier production model. Our sample was assembled from the Annual Industrial Survey (PIA) for 29 Brazilian industrial sectors from 2007 to 2019, period of data availability. The results derived from both methods allow us to affirm that the policies resulting from the Pre-Salt have significantly boosted the oil and natural gas extraction sector in terms of technological progress and efficiency. Between 2007 and 2009, the sector was among the least efficient, ranking 29th. However, in 2019 it reached first place in terms of efficiency. This structural change, which began in 2010 as a result of the technological innovations resulting from investments in R&D, has undergone a change since 2010, reflected in the upward trend towards pre-salt exploration promoted by Petrobras, in Rio de Janeiro, Brazil, as well as the new regulatory framework and government incentives for oil exploration in Brazil. Un-fortunately, these productivity gains have not been exported to other branches of industry connected to the oil industry. Full article

► Show Figures

Figure 1

19 pages, 4667 KiB

Open AccessArticle

Energy, Exergy, and Exergo-Sustainability Analysis of a Brayton S-CO₂/Kalina Operating in Araçuaí, Brazil, Using Solar Energy as a Thermal Source

by Juan Córdoba, Guillermo Valencia and Branda Molina

Resources 2025, 14(2), 31; https://doi.org/10.3390/resources14020031 - 14 Feb 2025

Abstract

Climate change and increasing energy demand drive the search for sustainable alternatives for power generation. In this study, an energy, exergy, and exergy-sustainability analysis was performed on a supercritical CO₂ Brayton cycle with intercooling and reheating, coupled to a Kalina cycle for [...] Read more.

Climate change and increasing energy demand drive the search for sustainable alternatives for power generation. In this study, an energy, exergy, and exergy-sustainability analysis was performed on a supercritical CO₂ Brayton cycle with intercooling and reheating, coupled to a Kalina cycle for waste heat recovery, using solar energy as a thermal source in Araçuaí, Minas Gerais, Brazil, a city that holds the historical record for the highest temperature recorded in Brazilian territory. The results show that at 900 °C the maximum values of thermal efficiency (56.67%), net power (186.55 kW), and destroyed exergy (621.62 kW) were reached, while the maximum exergy efficiency, 24.92%, was achieved at 700 °C. At a turbine inlet pressure of 18 MPa, the maximum thermal (54.48%) and exergy (24.50%) efficiencies were obtained. Likewise, working with a compressor efficiency of 95%, a thermal efficiency of 54.98%, a net power of 165.84 kW, and an exergy efficiency of 24.62% was achieved, reducing the exergy destroyed to 504.95 kW. The solar field presented the highest rate of irreversibilities (~62.2%). Finally, the exergy-sustainability analysis identified 700 °C as the outstanding operating temperature. This research highlights the technical feasibility of operating Brayton S-CO₂ combined cycles with concentrated solar power (CSP) systems in regions of high solar irradiation, evidencing the potential of CSP systems to generate renewable energy efficiently and sustainably under extreme solar conditions. Full article

► Show Figures

Figure 1

19 pages, 969 KiB

Open AccessArticle

Animal Fats and Vegetable Oils—Promising Resources for Obtaining Effective Corrosion Inhibitors for Oil Refinery Equipment

by Serhiy Pyshyev, Oleksandr Romanchuk, Petro Topilnytskyy, Viktoriya Romanchuk, Denis Miroshnichenko, Yurii Rohovyi, Hennadii Omelianchuk and Yurii Parkhomov

Resources 2025, 14(2), 30; https://doi.org/10.3390/resources14020030 - 10 Feb 2025

Abstract

The equipment of refineries and oil production facilities is subject to corrosion due to the supply of crude oils with a high content of mineralized water. The use of inhibitors is one of the most common corrosion protection methods. However, increasing requirements of [...] Read more.

The equipment of refineries and oil production facilities is subject to corrosion due to the supply of crude oils with a high content of mineralized water. The use of inhibitors is one of the most common corrosion protection methods. However, increasing requirements of environmental standards give impetus to developing new types of corrosion inhibitors from natural raw materials. The article deals with the synthesis conditions of new corrosion inhibitors (CIs) produced from distilled higher acids of beef fat (DHFAs) or vegetable oils (VO), as well as research on the protective effect of the synthesized corrosion inhibitors compared with industrial inhibitors (5 samples). The gravimetric method studied the protective effect in a solution of salts and jet fuel using a St20 steel plate. At 50 °C and a CIs content of 100 ppm, the protective effect of corrosion inhibitors based on VO and triethanolamine was 9.7–75.6%. Under similar conditions, CIs obtained from DHFAs and diaminoethyl exhibited a protective effect of 81.6–94.1%. When DHFAs and diethanolamine were used to synthesize CIs, the protective effect was 93.0–95.6%. CI synthesized at 130 °C and a DHFAs: diethanolamine ratio of 72:28 showed a 99.2% protective effect at 50 °C and a CI content of 200 ppm, which was higher or equal to the impact of using industrial inhibitors (91.6–99.5%). The results prove the possibility of alternative use of animal fats and waste from their production as new resources for obtaining highly effective equipment corrosion inhibitors. Using alternative inexpensive raw materials (fats, vegetable oils, waste from their output) to obtain CIs will improve the economic performance of inhibitor production. In addition, at least the fatty (oil) part of organic CIs is biodegradable and will not harm the environment. Full article

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

► Show Figures

Figure 1

12 pages, 1484 KiB

Open AccessReview

Vine Pruning Residues and Wine Fermentation By-Products: A Non-Exploited Source of Sustainable Agriculture, Albania Case

by Dritan Topi, Dritan Arapi and Bujar Seiti

Resources 2025, 14(2), 29; https://doi.org/10.3390/resources14020029 - 5 Feb 2025

Abstract

Albania, situated in southeastern Europe, enjoys a Mediterranean climate that is well-suited for grape cultivation. The vineyard area totals 7.202 million hectares. Since the 1990s, the country has experienced a resurgence in its rich winemaking traditions, which have gained considerable attention over the [...] Read more.

Albania, situated in southeastern Europe, enjoys a Mediterranean climate that is well-suited for grape cultivation. The vineyard area totals 7.202 million hectares. Since the 1990s, the country has experienced a resurgence in its rich winemaking traditions, which have gained considerable attention over the last decade. Alongside its significant wine production, large amounts of vine pruning waste and fermentation by-products are generated, estimated at over 50,000 t of prunings and 35,900 t of grape pomace annually. This waste is often burned, and the ash is used as fertilizer, releasing considerable CO₂ emissions, and contributing to greenhouse gas levels. However, recycling these prunings into fertilizer by chipping and grinding them in the vineyard presents a sustainable choice, providing key minerals, nitrogen, phosphorus, and various micronutrients, thereby reducing the dependence on synthetic fertilizers in farming. Characterized by small plantations, the vine pruning issue needs site-specific, economically feasible solutions for the farmer. Additionally, there is unexplored potential for applying wine fermentation pressing residues as fertilizer for agricultural land or vineyards. The Albanian wine sector has significant untapped opportunities, such as employing vine pruning ash as a mineral fertilizer to help achieve sustainability goals. Full article

► Show Figures

Figure 1

32 pages, 7164 KiB

Open AccessArticle

Evaluating Policy Frameworks and Their Role in the Sustainable Growth of Distributed Photovoltaic Generation

by Annelys Machado Schetinger and André Frossard Pereira de Lucena

Resources 2025, 14(2), 28; https://doi.org/10.3390/resources14020028 - 3 Feb 2025

Abstract

In response to the growing photovoltaic distributed generation market, this study investigates the evolution of energy policies and mechanisms driving the growth of photovoltaic distributed generation (DGPV). Analyzing the top ten countries in photovoltaic installations, it examines historical trends in capacity growth, installation [...] Read more.

In response to the growing photovoltaic distributed generation market, this study investigates the evolution of energy policies and mechanisms driving the growth of photovoltaic distributed generation (DGPV). Analyzing the top ten countries in photovoltaic installations, it examines historical trends in capacity growth, installation costs, and stakeholder engagement to evaluate policy effectiveness. Eight policy categories are identified as follows: direct financial incentives, energy market regulation, government management, production incentives, performance-based feed-in tariffs, renewable energy obligations, research and development initiatives, and agreements and commitments. The research results emphasize the crucial influence of government management policies, direct financial incentives, and energy market regulation on promoting the growth of DGPV. Political will and effective governance are identified as key drivers in advancing technology and market development. Policies reducing installation costs and encouraging investment support the transition of photovoltaic systems from early adoption to market maturity. Despite these advances, disparities in policy implementation highlight the need for adaptable frameworks tailored to local contexts. By leveraging solar energy, an abundant and universally accessible resource, nations can enhance energy equity through effective policies and accelerate the shift toward sustainable energy systems. This analysis offers valuable insights for policymakers seeking to promote DGPV as a central strategy in combating climate change. Full article

(This article belongs to the Topic Enabling Strategies and Policies Toward a Sustainable Environment, 2nd Edition)

► Show Figures

Figure 1

Journal Description

Resources

Latest Articles

Journal Menu

Journal Browser

Highly Accessed Articles

Latest Books

E-Mail Alert

News

Topics

Conferences

Special Issues

Topical Collections

Further Information

Guidelines

MDPI Initiatives

Follow MDPI