Search Results (274)

The global shift towards the use of renewable energy is essential to ensure sustainable development, and geothermal energy stands out as a suitable option that can support various cascading projects. Spent geothermal water (SGW) requires proper treatment to ensure that it does not become an environmental burden. Typically, companies often face the dilemma of choosing between discharging spent geothermal water (SGW) into surface waters or injecting it into rock masses, and the economic and environmental impacts of the decision made determines the feasibility of geothermal plant development. In this study, we aimed to comprehensively assess the technical, economic, and environmental feasibility of SGW injection into rock masses. To this end, we employed a comprehensive analytical approach using the Chochołów GT-1 geothermal injection borehole in Poland as a reference case. We also performed drilling and hydrogeological testing, characterized rock samples in the laboratory, and corrected hydrodynamic parameters for thermal lift effects to ensure accurate aquifer characterization. The results obtained highlight the importance of correcting hydrogeological parameters for thermal effects, which if neglected can lead to a significant overestimation of the calculated hydrogeological parameters. Based on our analysis, we developed a framework for assessing SGW injection feasibility that integrates detailed hydrogeological and geotechnical analyses with environmental risk assessment to ensure sustainable geothermal resource exploitation. This framework should be mandatory for planning new geothermal power plants or complexes worldwide. Our results also emphasize the need for adequate SGW management so as to ensure that the benefits of using a renewable and zero-emission resource, such as geothermal energy, are not compromised by the low absorption capacity of rock masses or adverse environmental effects. Full article

The treatment of wastewater and the utilization of the by-products of these processes are an important part of the circular economy. The sewage sludge, a result of wastewater treatment, could be used as a material for plant nutrient supply and/or soil-improving products. The city of Nyíregyháza, Hungary, with 120,000 citizens, has a well-planned water treatment plant operated by Nyírségvíz Ltd., which, in cooperation with the Research Institute of Nyíregyháza, developed a municipal sewage sludge compost (SSC). The closed loop of sewage water treatment and the agricultural utilization of its by-product has been developed and managed. The compost product called Nyírkomposzt was planned for acidic sandy soils. Beyond the agronomic benefits, the sustainable and environmentally sound utilization of SSC reduces sewage sludge disposal. This active involvement of a water utility company demonstrates the potential of cross-sectoral cooperation in solving environmental problems. The quality of the compost fits the Hungarian legislation. To study the effects of 0, 9, 18, and 27 t ha⁻¹ doses of compost on acidic sandy soil, a long-term small plot experiment was started in 2003. The cumulative effects of the regular (every third year, last treatment before sampling in 2021) application of the SSC showed positive changes in basic soil properties, depending on the doses used. Increasing values were found in the case of pH from 4.5 to 6, plant available P₂O₅ from 240 to 690 ppm, and plant available K₂O from 180 to 200 ppm. The plant-available zinc and copper content also increased. Soil organic matter and total N content stabilized at around 0.9% and 0.08%, respectively. The grain yields of winter rye also increased in both investigated years. The yields of 18 t ha⁻¹ treatment were about two times higher compared to the control, but only in 2022 was the difference significant. Our findings underscore the potential of well-planned SSC applications to improve the fertility of ploughed, acidic sandy soil, taking into account the theory of the circular economy by utilizing wastes and decreasing landfilling. Full article

Today, companies face complexities and uncertainties that make it difficult to manage various risks. One of the important tools for achieving success in water supply projects is the proper implementation of risk management processes and activities throughout the project’s make-span. Risk identification and assessment are two important steps in project risk management. In this research, the Fuzzy DEMATEL and Fuzzy ANP as well as Artificial Neural Network methods are exploited for the analyzing and ranking of environmental risks of water supply projects. Risks are classified and then prioritized by the Fuzzy ANP and Artificial Neural Network methods into four main categories, including technical, organizational, project management, and external risks. The weight of each of the technical, organizational, project management, and external risks using the ANP method was obtained as 0.31, 0.26, 0.25, and 0.18, respectively, and the following weights were obtained using the Artificial Neural Network: 0.42, 0.27, 0.22, and 0.09, respectively. The results show that although the exact weights differed between methods, especially for technical and external risks, the overall prioritization of risk categories followed a broadly consistent pattern. In addition, the risk associated with the suppliers obtained the highest weight among the external risks; the risk associated with the high cost of materials gained the highest weight among the organizational risks; the risk associated with the requirements acquired the highest weight among the technical risks; and finally, the risk associated with communication achieved the highest weight among the project management risks. The method presented in this research helps project managers and decision-makers in the water supply industry to make a better and more realistic risk assessment by considering the mutual effects of project risks. Full article

As freshwater scarcity becomes increasingly severe under climate change, physical water risk has emerged as a critical financial concern for firms in water-intensive industries. This study explores whether and how physical water risk influences firms’ cost of equity, and whether corporate social responsibility (CSR)—both its overall level and structural differentiation—modulates this relationship. Using panel data from 849 Chinese listed companies in water-intensive sectors between 2011 and 2022, we find that physical water risk significantly elevates equity capital costs. While a strong CSR performance buffers this effect, CSR differentiation—reflected in uneven CSR engagement across different domains—undermines or even reverses this moderating role. Additional heterogeneity analyses show that these patterns are more pronounced in large and non-state-owned enterprises. These findings deepen our understanding of how environmental risks are priced in capital markets and offer strategic insights for firms seeking to manage sustainability-related financial exposures. Full article

Accurate localization of buried water pipelines in rural areas is crucial for maintenance and leak management but is often hindered by outdated maps and the limitations of traditional geophysical methods. This study aimed to develop and validate a multi-source remote-sensing workflow, integrating UAV (unmanned aerial vehicle)-borne near-infrared (NIR) surveys, multi-temporal Sentinel-2 imagery, and historical Google Earth orthophotos to precisely map pipeline locations and establish a surface baseline for future monitoring. Each dataset was processed within a unified least-squares framework to delineate pipeline axes from surface anomalies (vegetation stress, soil discoloration, and proxies) and rigorously quantify positional uncertainty, with findings validated against RTK-GNSS (Real-Time Kinematic—Global Navigation Satellite System) surveys of an excavated trench. The combined approach yielded sub-meter accuracy (±0.3 m) with UAV data, meter-scale precision (≈±1 m) with Google Earth, and precision up to several meters (±13.0 m) with Sentinel-2, significantly improving upon inaccurate legacy maps (up to a 300 m divergence) and successfully guiding excavation to locate a pipeline segment. The methodology demonstrated seasonal variability in detection capabilities, with optimal UAV-based identification occurring during early-vegetation growth phases (NDVI, Normalized Difference Vegetation Index ≈ 0.30–0.45) and post-harvest periods. A Sentinel-2 analysis of 221 cloud-free scenes revealed persistent soil discoloration patterns spanning 15–30 m in width, while Google Earth historical imagery provided crucial bridging data with intermediate spatial and temporal resolution. Ground-truth validation confirmed the pipeline location within 0.4 m of the Google Earth-derived position. This integrated, cost-effective workflow provides a transferable methodology for enhanced pipeline mapping and establishes a vital baseline of surface signatures, enabling more effective future monitoring and proactive maintenance to detect leaks or structural failures. This methodology is particularly valuable for water utility companies, municipal infrastructure managers, consulting engineers specializing in buried utilities, and remote-sensing practitioners working in pipeline detection and monitoring applications. Full article

Plastic pollution and its environmental consequence are on the rise globally. In Nigeria, the proliferation of plastic bottle and sachet water (PBSW) manufacturing companies in various parts of the country has led to an increase in plastic waste generation. Existing studies have identified challenges and the critical need for the adoption of sustainable solutions to mitigate its adverse environmental impact, especially for developing countries. Therefore, the motivation for this study stems from the urgent need for a progressive shift in the studies focused on feasible solutions to the common challenges and strategies for implementation. This study aims to investigate the identified challenges of a lack of awareness and waste management of single-use plastics in Nigeria, towards achieving a circular economy of plastic waste whilst considering its socio-economic context. This study used a mixed method approach combining quantitative and qualitative data through interviews and questionnaires to investigate awareness on the impact of plastic pollution amongst key stakeholders in plastic waste management in the UNN. The potential of introducing a DRS in the sustainable collection of single-use plastic bottle and sachet water waste was also explored. The result reveals the perceived consequence of plastic pollution is short-term, at the level of mesoplastics, physically observed as plastic litter (68.2%), leading to a blockage of canals (65.0%), an excessive rate of flooding (19.1%) and other related issues; effective channels of creating awareness and educating the public on plastic pollution are social media (48.3%), school education (23.3%), mass media (21.7%), and others (6%). An implementation framework for sustainable plastic waste collection was developed from the research findings, adapting the Norwegian Deposit Return Scheme (DRS) to suit the current socio-economic context of the population. Additionally, awareness can be increased through targeted government policies that reward sustainable plastic waste management practices, public awareness campaigns, and the use of social media. Full article

This study aims to evaluate environmental performance indicators and eco-controls in the poultry production chain in Goiás, with a focus on forest management, waste generation, water resources, energy use, emissions, and environmental accounting. A mixed-methods approach was used, combining qualitative and quantitative data from 13 agro-industrial companies, 230 farms, and 816 broiler houses. The results highlight the role of environmental management accounting (EMA) in monitoring and improving environmental practices, supporting continuous performance assessment. Econometric analysis revealed a positive link between sustainability practices and economic growth, as measured by GDP per capita. However, productive capacity and energy efficiency showed no significant impact at the 5% level. The study limitations include the focus on a single region and industry, which may limit the generalizability of the findings. Future research should expand to other chains and regions to assess broader applicability and explore the public policy impacts on environmental sustainability, as well as the impact of public policies on environmental sustainability within the sector. Full article

The automotive industry faces urgent pressures to transition to carbon-neutral operations amid evolving policies, shifting consumer demands, and stringent environmental regulations. This study examines how implementing the EFQM Model 2020 can drive sustainability-oriented transformation in a leading European automotive plant. Over a two-year period (November 2021–December 2023), the company reduced CO₂ emissions by 17%, decreased water usage by 9.3%, and elevated recycling rates from 93.3% in FY19 to 98.1% in FY23. Although these improvements demonstrate the EFQM Model’s effectiveness in integrating economic, social, and environmental objectives, further progress toward net zero remains challenging due to diminishing returns on efficiency. Sustaining momentum will require continuous innovation such as passive building designs and on-site renewable energy generation supported by robust stakeholder engagement and compliance with evolving ESG reporting standards. These findings affirm the value of the holistic management framework for operational excellence and environmental stewardship, providing a replicable pathway toward carbon neutrality in resource-intensive industries. Full article

One of the core objectives of the European Green Deal in pursuing climate neutrality and sustainable development is the decarbonization of high-impact sectors. Among the most polluting is the fast fashion industry, driven by linear business models that must urgently transition to circular economy frameworks and decarbonized supply chains. Fast fashion poses significant environmental and social challenges due to its high greenhouse gas emissions, excessive resource consumption, and substantial waste generation. To foster greater sustainability within the sector, this study examines environmental indicators defined by the European Sustainability Reporting Standards (ESRS), in accordance with the EU’s Corporate Sustainability Reporting Directive (CSRD) 2022/2464. Aligned with the Global Reporting Initiative (GRI), these standards aim to harmonize sustainability disclosures and enable better decision-making across environmental, social, and governance (ESG) dimensions throughout Europe. This research focuses on five key environmental aspects—climate change, pollution, water resource management, biodiversity, and circular economy/resource use—across four leading fast fashion brands: Mango, Zara, H&M, and Shein. Using an exploratory web-based methodology, this study evaluates how these companies disclose and implement ESG strategies in their supply chains. The central aim is to assess the sustainability and resilience of their operations, with particular emphasis on communication strategies that support the transition from linear to circular business models. Ultimately, this study seeks to highlight both the progress and persistent challenges faced by the fast fashion industry in aligning with ESG and ESRS requirements. Full article

Given the relevance of sustainability, this study analyzed the impacts on water consumption in the production chain of ornamental stone pieces (marble and granite) and quartz-based composites. The goal was to compare the water demand throughout the process, from extraction to manufacturing, using 1 m³ blocks as the unit of analysis. This study was conducted in Bahia, a state with significant ornamental stone production, located in a semi-arid region with limited water availability. The methodology included data collection from participating companies, combined with sectorial information and the Ecoinvent version 3.3 database, modeled using the SimaPro 8.0 software. The impact assessment was carried out using the AWaRE (Water Scarcity Footprint) and ReCiPe Endpoint methods, following the guidelines of Life Cycle Assessment (LCA), as per ABNT NBR ISO 14040 standards. The results showed that marble and granite have lower water demand and environmental impact in the categories of particulate matter, human toxicity, ecotoxicity, eutrophication, and acidification when compared to quartz composites. The highest environmental impact occurred during the processing stage, which requires a large amount of water and generates effluents, losses, and particulate matter. The results indicate that marble and granite demand less water and exhibit lower environmental impacts—across categories like particulate matter, human toxicity, ecotoxicity, eutrophication, and acidification—than quartz composites. Notably, the processing stage incurred the highest environmental burden due to its intensive water use and consequent generation of effluents, losses, and particulate matter. These findings highlight the necessity of efficient water management and the adoption of circular economy principles—including water reuse and waste valorization—to promote long-term sustainability in the ornamental stone industry. Full article

Agricultural production is responsible for most of the withdrawal of water volume. There has been increasing the pressure on stakeholders to adapt water usage behavior and manage water resources. In this context, water footprint management (WFM) practices have been implemented. Despite the positive benefits of the adoption of WF practices, the selection and prioritization of WFM practices remains a challenge. In addition, the effects that each of these individual practices have on reputation and legitimacy have not been investigated. To fill these research gaps, this study determined the relative priority of seven different WFM practices and the relative importance of each of these practices to increase agri-food firms’ reputation and legitimacy. This study applied the best–worst method (BWM) with a set of expert Chilean professionals in the field. The practice related to the promotion of the measurement of the water footprint throughout the supply chain was considered the most vital and the one with the greatest effects on firms’ reputation and legitimacy. The practice related to the establishment of water auditing and control systems was considered the least important and the one that generates lower effects on firms’ reputation and legitimacy. Our study also found that lack of financial resources is the main barrier to WFM implementation. These findings are useful for companies that are not capable of developing a complete program of WFM adoption due to lack of resources to implement all these practices. By knowing the importance of each practice, farmers can select the practices that will bring the greatest benefits. Full article

The dairy industry generates large volumes of whey as a byproduct of cheese production, with a high organic load. Its untreated discharge contaminates water bodies, reduces dissolved oxygen, and damages aquatic ecosystems. In Peru, especially in the rural areas of the Andes, thousands of tons of industrial dairy waste are produced annually, representing an environmental and economic challenge. The lack of sustainable technologies for its management drives the need for innovative solutions, such as microbial fuel cells (MFCs), which combine waste treatment with renewable energy generation. This research uses MFC technology with whey as a substrate to observe its potential to generate electrical energy and treat contaminants. Three liters of whey from a dairy company in Trujillo, Peru, were used and stored at 10 °C. Each MFC contained 800 mL of whey and employed activated carbon as the anode and zinc as the cathode. A maximum voltage of 0.867 ± 0.059 V was reached, with a maximum current of 4.114 ± 0.239 mA recorded on the 11th day. The maximum power density was 1.585 ± 0.061 mW/cm², with a current density of 4.448 A/cm², and the internal resistance of the MFCs was 16.847 ± 0.911 Ω. The initial pH of the whey was approximately 3.0, increasing to 4.135 ± 0.264 on the 11th day, and the electrical conductivity increased from 19.101 ± 1.025 mS/cm on the first day to 170.062 ± 9.511 mS/cm on the 11th day. The oxidation-reduction potential (ORP) increased to 104.287 ± 4.058 mV at the peak of electricity generation (day 11). Additionally, a 70% reduction in chemical oxygen demand (COD) was achieved, dropping from 4650.52 ± 10.54 mg/L to 1400.64 ± 23.25 mg/L on the last day. Metagenomic analysis identified two dominant bacterial phyla: Bacteroidota at 48.47% and Proteobacteria at 29.83%. The most abundant families were Bacteroidaceae (38.58%) and Acetobacteraceae (33.39%). The study validates the potential of MFCs to transform whey into an energy resource, aligning with sustainability and circular economy goals, especially in regions with high dairy production, like Peru. Full article

Climate change and urban development patterns amplify the risks of flooding and water pollution. While climate-robust stormwater management has the potential to reduce these risks, its implementation remains slow. Enhanced and new forms of collaboration between municipalities and property owners are proposed as the keys to advancing the volume and effectiveness of such measures. However, the practical outline of new collaborative practices between these actor categories within existing built urban environments is still in its early stages. This study uses the experiences and visions of respondents from eleven municipalities and six property companies in Sweden to start examining the challenges, needs, and requirements for such forms of collaboration. The study identifies current challenges, including ambiguous legislation, organizational differences, unclear roles and responsibilities, and weak economic incentives. Requirements for improved collaboration opportunities include overcoming perceived legal obstacles, assigning collaboration coordinators, establishing long-term collaborative forums, and clarifying financial principles and cost-sharing arrangements. Creating the conditions for collaboration thus requires changes in formal national frameworks, as well as changes in local organizational structures, norms, and traditions. Full article

Decision-making in how to manage environmental issues around mine sites is generally a complicated task. Furthermore, the large amount of data and information involved in the management process is cumbersome. However, Decision Support Tools (DSTs) based on Geographic Information Systems (GISs) are of great interest to environmental managers in order to help them to make well-informed and thoroughly documented decisions regarding reclamation plans, especially for abandoned mine sites. The current study highlights the implementation of a cost-effective and efficient GIS-based database as a DST that will be used to assess and manage environmental challenges, particularly those related to water resources, such as hydrographic network issues surrounding mine sites. Based on GISs, a prototype of a national geodatabase was designed and implemented for Moroccan mine sites. It consisted of a set of GIS layers that facilitated the dissemination of an extensive array of multidisciplinary environmental data concerning Moroccan mines to decisionmakers. By applying GIS tools, such as buffer zone analysis, to environmental and hydrological datasets, high-priority mines requiring urgent intervention were identified based on their proximity to water resources, their acid mine drainage (AMD) potential, and their environmental impact on ecosystems. The results highlight the effectiveness of GIS-based approaches in assessing environmental risks, particularly concerning water resources, while also contributing to sustainable mining management in Morocco. Finally, using the GIS-based database is expected to raise the awareness of decisionmakers in government agencies and mining companies for implementing a reclamation program for mine sites. Full article

Energy resources, particularly oil and natural gas, are vital for global development but have significant environmental impacts, including pollution and habitat destruction. Green management has become a critical concept in today’s global industries, mostly the petroleum industry. The petroleum industry is vital not only for the world but also for Türkiye’s energy needs and economic development. However, its operations significantly impact the environment through greenhouse gas emissions, water pollution, and habitat destruction. In response to both global and national environmental concerns and regulatory pressures, the Turkish petroleum industry should adopt green management practices. Despite the lack of prior studies regarding green management approaches and practices in Turkish petroleum industry, this study examines how Türkiye’s petroleum industry should integrate green management principles to minimize environmental impacts and promote sustainable development. To evaluate the environmental protection approaches and practices of petroleum enterprises based on their operational domains, a survey was conducted, and the collected data underwent statistical analysis. The survey questions were designed by the authors to determine the attitudes, approaches, and practices of managers in crude oil production and refining companies regarding green management. According to the results of the statistical data analysis, it has been determined that companies in the Turkish petroleum industry have adopted an approach known as green management or environmentally conscious entrepreneurship. The statistical analysis of the administered survey results indicates a positive relationship between firms’ operational performance scores and their green management practices scores (r = 0.247). The survey results demonstrate an increasing adoption of environmental consciousness and green management practices among managers in the Turkish petroleum sector, with 90.2% of participants providing a positive response. The survey results also indicate that green management practices have a positive impact on business operations. In this regard, 42.4% of participating managers believe that green management practices enhance corporate image, 38.0% state that they improve efficiency, 35.0% assert that they strengthen competitive advantage, and 31.5% indicate that they contribute positively to energy savings. The survey findings further indicate that 90.2% of participants recognize the contribution of green management practices to sustainable development in businesses, while an equal proportion asserts that these practices enhance clean and safe production. Moreover, 93.5% of respondents emphasize that production and processing activities carried out without environmental considerations pose a significant threat to the future of both the planet and humanity. In conclusion, based on the responses provided by the participants, it can be inferred that business managers have adopted the green management approach and recognize the significant role of green management practices in addressing environmental challenges. In line with the objectives of this study and the statistical findings obtained, a “green management model” has been proposed for enterprises in the Turkish petroleum industry, taking into consideration global practices and aligning with the principles of environmentally responsible green entrepreneurship. In this context, the study makes a significant contribution to the literature by proposing a green management model for the Turkish petroleum industry. Full article