369 results
Search Results
2. Environmental and economic sustainability in public contexts: the impact of hand-drying options on waste management, carbon emissions and operating costs.
- Author
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Coller, Graziano, Schiavon, Marco, and Ragazzi, Marco
- Subjects
SUSTAINABLE development ,SUSTAINABILITY ,CARBON emissions ,OPERATING costs ,PAPER towels - Abstract
Due to the high density of users hosted everyday, public buildings are important producers of waste and emissions of greenhouse gases (GHGs). Public restrooms play an underrated role in waste generation and GHG emissions, especially if paper towels are used as the hand-drying method. The choice of the hand-drying method (i.e., paper towels vs. electrical hand dryers) also affects the economic balance of a public institution, involving costs for the purchase of hand-drying materials/apparatuses, energy and waste disposal. The present paper aims at evaluating the economic and environmental impact of the introduction of electrical hand dryers (alternative scenario) in place of paper towels (reference scenario) in a public building. The paper presents a solid methodology, based on a numerical experiment approach, to identify a decision criterion for establishing the economical convenience of adopting the alternative scenario in public restrooms. Key factors affecting the choice between the proposed alternatives are presented and discussed in a dedicated sensitivity analysis. From the environmental point of view, this study evaluates the impact of each scenario in terms of GHG emissions, related to multiple waste treatment options and different electric grid mixes. Based on the experimental assumptions, the method allowed concluding that the alternative scenario becomes economically convenient when the number of daily usages (N) is > 57 ± 4. The environmental convenience of the alternative scenario is visible even at N < 10. The method here described can be successfully used to support strategic decisions for cost optimization and environmental mitigation in institutional buildings. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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3. Aquatic Aerobic Biodegradation of Commonly Flushed Materials in Aerobic Wastewater Treatment Plant Solids, Seawater, and Lakewater.
- Author
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Smith, Madilynn M., Zambrano, Marielis, Ankeny, Mary, Daystar, Jesse, Pires, Steven, Pawlak, Joel, and Venditti, Richard A.
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SEWAGE disposal plants ,BIODEGRADATION ,SEAWATER ,CARBON emissions ,KNIT goods - Abstract
Microfibers and microplastics originating from wastewater treatment plant (WWTP) effluents are significant pollutants in freshwater sources and marine environments. This research investigated the biodegradation of cotton microfibers generated from bleached cotton jersey knit fabric and commercially available flushable wipes, polypropylene-based (PP) nonwoven wipes containing a cellulose component, and tissue paper. Biodegradation was tested in wastewater treatment plants (WWTP) solids, seawater, and lakewater according to the ISO 14852 and ASTM D6691 standard methods in an ECHO respirometer. Degradation experiments continued until a plateau in CO2 emissions was reached, and the final biodegradation extent was calculated relative to the theoretical CO2 produced based on elemental analysis. The results showed that the cotton and other cellulosic materials/components biodegrade to a great extent, as expected for all conditions, whereas the PP did not degrade. In general, for the cellulose polypropylene composite wipes, the cellulose biodegraded readily; the presence of the PP did not hinder the cellulose biodegradation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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4. ANALYSIS OF THE RELATIONSHIP BETWEEN TOURISM AND THE CIRCULAR ECONOMY: A CRITICAL REVIEW OF THE LITERATURE.
- Author
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MARCUTA, Liviu, ONEA, Mihaela Gratiela, and MARCUTA, Alina
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CIRCULAR economy ,LITERATURE reviews ,WATER consumption ,NATURAL resources ,SUSTAINABLE tourism ,CARBON emissions - Abstract
Considering the importance that circular economy models have in today's society and the concerns that both decision-makers and other interested parties have regarding this concept, in this paper we have proposed to analyze the relationship between the economy circular and tourism, starting from the fact that this is one of the sectors of activity that is characterized both by a high consumption of water, energy and natural resources, as well as by a large food waste, being also a producer of important CO2 emissions, as a result of the link it has with road, air, maritime transport, and not only that. The research methodology assumed the review of the specialized literature, being inventoried scientific papers indexed Web of Science, and starting from 2 keywords: "circular economy" and "tourism". From the 340 identified scientific works, following the application of several filters regarding language, title, keywords, 33 publications resulted. By applying a restriction regarding the relevance of these works, assessed on the basis of a minimum number of 3 citations, it was possible to establish a sample of 15 publications that were analyzed, identifying both the results presented by the author/authors, as well as the conclusions and the way in which that they could influences the application of circular economy principles in tourism. The analysis carried out showed us that the number of specialized papers in this field is relatively small, which is why, in order to obtain the most conclusive results regarding the proposed theme, we believe that, considering the importance of the theme, it will be necessary to continue the research on tourism and the circular economy. In this way, it will be possible to identify the solutions that will accelerate the sustainable development of tourism., which could thus meet both the leisure needs of tourists who, in turn, are increasingly concerned with the issue of sustainability, as well as the need to protect the environment, so that we allow future generations to enjoy what the new Planet offers us. [ABSTRACT FROM AUTHOR]
- Published
- 2023
5. Annotated Survey on the Research Progress within Vehicle-to-Grid Techniques Based on CiteSpace Statistical Result.
- Author
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Shi, Ruifeng, Peng, Shuaikang, Chang, Tai, and Lee, Kwang Y.
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ELECTRIC power distribution grids ,RENEWABLE energy sources ,ENERGY consumption ,CARBON emissions ,SUSTAINABILITY ,SMART meters - Abstract
Vehicle-to-grid (V2G) technology has received a lot of attention as a smart interconnection solution between electric vehicles and the grid. This paper analyzes the relevant research progress and hotpots of V2G by using CiteSpace 6.1.R6 software to construct a visualization graph, which includes keyword co-occurrence, clustering, and burstiness, and further systematically summarizes the main trends and key results of V2G research. First, the connection between electric vehicles and the grid is outlined and the potential advantages of V2G technology are emphasized, such as energy management, load balancing, and environmental sustainability. The important topics of V2G, including renewable energy consumption, power dispatch, regulation and optimization of the grid, and the smart grid, are discussed. This paper also emphasizes the positive impacts of V2G technologies on the grid, including reduced carbon emissions, improved grid reliability, and the support for renewable energy integration. Current and future challenges for V2G research, such as standardization, policy support, and business models, are also considered. This review provides a comprehensive perspective for scholars and practitioners in V2G research and contributes to a better understanding of the current status and future trends of V2G technology. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Keeping a lower profile: how firms can reduce their digital carbon footprints.
- Author
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Jackson, Thomas W. and Hodgkinson, Ian Richard
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DIGITAL footprint ,ECOLOGICAL impact ,TECHNOLOGICAL innovations ,SUSTAINABILITY ,CARBON emissions ,DARK tourism - Abstract
Purpose: In the pursuit of net-zero, the decarbonization activities of organizations are a critical feature of any sustainability strategy. However, government policy and recent technological innovations do not address the digital carbon footprint of organizations. The paper aims to present the concept of single-use dark data and how knowledge reuse by organizations is a means to digital decarbonization. Design/methodology/approach: Businesses in all sectors must contribute to reducing digital carbon emissions globally, and to the best of the authors' knowledge, this paper is the first to examine "how" from a knowledge (re)use perspective. Drawing on insights from the knowledge creation process, the paper presents a set of pathways to greater knowledge reuse for the reduction of organizations' digital carbon footprint. Findings: Businesses continually collect, process and store knowledge but generally fail to reuse these knowledge assets – referred to as dark data. Consequently, this dark data has a huge impact on energy use and global emissions. This model is the first to show explicit pathways that businesses can follow to sustainable knowledge practices. Practical implications: If businesses are to be proactive in their collective pursuit of net-zero, then it becomes paramount that reducing the digital carbon footprint becomes a key sustainability target. The paper presents how this might be accomplished, offering practical and actionable guidance to businesses for digital decarbonization. Originality/value: Two critical questions are facing businesses: how can decarbonization be achieved? And can it be achieved at a low-cost? Awareness of the damaging impact digitalization may be having on the environment is in its infancy, yet knowledge reuse is a proactive and cost-effective route to reduce carbon emissions, which is explored in the paper. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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7. Fast-Growing Bio-Based Construction Materials as an Approach to Accelerate United Nations Sustainable Development Goals.
- Author
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Cosentino, Livia, Fernandes, Jorge, and Mateus, Ricardo
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CONSTRUCTION materials ,SUSTAINABLE communities ,CARBON-based materials ,PASSIVE investing strategy ,CARBON emissions ,SUSTAINABLE development ,SUSTAINABILITY - Abstract
The United Nations Sustainable Development Goals (UN SDGs) ensure future human well-being. However, they face challenges due to the pressing need to reduce carbon emissions, with nearly 40% originating from the construction sector. With the current global environmental and energy crisis, there is a pressing need to address building carbon emissions and prioritise investments in passive strategies for improving indoor thermal comfort. Exploring fast-growing bio-based materials like bamboo, straw, hemp, and flax directly addresses these concerns, fostering environmental sustainability. Material selection in construction is crucial for advancing the SDGs, for example, promoting sustainable cities and communities (SDG11) and responsible consumption and production (SDG12). This paper proposes a comparative analysis of conventional and bio-based construction materials, focusing on their production stages through life cycle analysis. Tools such as Building Emissions Accounting for Materials (BEAM) and the Methodology for Relative Assessment of Sustainability (MARS) enable a detailed comparison. The results highlight the benefits of bio-based materials in storing carbon more rapidly and their lower environmental impact compared to conventional alternatives. Moreover, bio-based materials contribute to indoor moisture regulation and a healthier indoor environment, underscoring their potential to accelerate progress towards the UN SDGs through informed material choices in design practices. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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8. BIM-Based Digital Construction Strategies to Evaluate Carbon Emissions in Green Prefabricated Buildings.
- Author
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Ullah, Habib, Zhang, Hong, Huang, Baolin, and Gong, Yinan
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PREFABRICATED buildings ,GREEN technology ,CARBON emissions ,SUSTAINABLE construction ,SUSTAINABILITY ,LIFE cycles (Biology) ,BUILDING information modeling - Abstract
In this paper, we explore the integration of building information modeling (BIM) technology to assess carbon emissions, emphasizing the unique contributions to smart and sustainable approaches in prefabricated buildings and focusing on the application of digital construction strategies facilitated by BIM to evaluate carbon emissions in green prefabricated buildings, with a detailed case study on C-House at Southeast University, Nanjing, China. The research methodology involved creating a BIM model of C-House in Rhino and collecting data from the operationalization phase. This research work delves into analyzing the structural components, on-site assembling process, and evaluation of carbon emissions by using a BIM-based assessment, as well as the energy load and consumption of prefabricated components, including sustainable PV panels, to enhance building efficiency and sustainability. The findings uncover the life cycle of C-House, which spans seven stages, compared with the five stages of conventional builds. Currently in its third cycle, C-House exhibits significant reductions of 70.57% in carbon emissions during the second cycle and 43.53% in the first one. This highlights the pattern showing that the prolonged reuse of prefabricated buildings leads to decreasing emissions over time. Such results underscore the potential carbon emission reductions and environmental advantages of reusing green prefabricated buildings. Furthermore, this study provides insights into the entire life cycle of the building, from inception to occupation and post-phase performance evaluation. By employing BIM for modeling, simulation, and analysis, we offer practical insights into the application of smart technologies for sustainable construction practices, significantly contributing to the advancement of green and digital construction technologies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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9. Impact of population mobility on regional carbon emissions: empirical evidence from Australia.
- Author
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Hongbo Guo
- Subjects
CARBON emissions ,SUSTAINABILITY ,ECONOMIC development ,POPULATION research - Abstract
Understanding carbon emissions through the lens of population mobility is crucial for addressing sustainability challenges and fostering economic development. This study aims to investigate the influence of population mobility on carbon emissions in Australia, providing insights for targeted policy interventions. Utilizing panel datasets spanning from 2007 to 2020, encompassing both international and domestic migration in Australia, empirical analyses were conducted. The focus was on assessing the relationship between population mobility and regional carbon emissions. The study reveals distinct effects of domestic and international population mobility on carbon emissions. Domestic mobility demonstrates a negative correlation, whereas international mobility shows a positive association with carbon emissions. Moreover, significant regional heterogeneity in carbon emissions is observed, influenced by economic development and population size variations between eastern and western regions. These findings underscore the importance of tailored emission reduction strategies based on the nature of population mobility. By elucidating the intricate dynamics between mobility patterns and carbon emissions, this study contributes to a nuanced understanding of CO2 emission trends, informing policy decisions amidst the challenges posed by global climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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10. The Future Design of Smart Energy Systems with Energy Flexumers: A Constructive Literature Review.
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Hu, Jin-Li and Bui, Nhi Ha Bao
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LITERATURE reviews ,TECHNOLOGICAL progress ,TECHNOLOGICAL innovations ,CARBON emissions ,ENERGY consumption ,POTENTIAL energy - Abstract
From powering our homes to driving our economies, energy lies at the heart of humanity's complex challenges in the modern era. This paper reviews the evolution of smart energy systems, examining their technological advancements and societal implications while proposing a future design framework emphasizing four key pillars: holistic resource optimization, adaptive intelligence, environmental harmony, and human-centered design. While they offer numerous benefits, such as enhanced energy efficiency and reduced carbon emissions, smart energy systems also face challenges. These include cybersecurity risks, the complexity of integrating diverse energy sources seamlessly, high upfront costs, and potential compatibility issues arising from evolving technologies. Overcoming these challenges will be crucial for unleashing the full potential of smart energy systems and facilitating their global adoption. Abundant opportunities for further research and development exist in this domain, awaiting exploration and advancement. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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11. Optimisation of 3D Printing for Microcellular Polymers.
- Author
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Griffiths, Christian Andrew, Rees, Andrew, Morgan, Adam, and Korkees, Feras
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THREE-dimensional printing ,SUSTAINABILITY ,ENERGY consumption ,CARBON emissions ,FOAM ,POTENTIAL energy - Abstract
Polymers are extensively used in various industries due to their versatility, durability and cost-effectiveness. To ensure functionality and longevity, polymer parts must have sufficient strength to endure external forces without deformation or breakage. Traditional approaches to increasing part strength involve adding more material; however, balancing strength to weight relationships is challenging. This paper explorers the viability of manufacturing lightweight components using a microcellular foaming polymer. Microcellular foaming has emerged as a helpful tool to achieve an optimal strength-to-weight ratio; offering advantages such as lightweight, improved mechanical properties, reduced material usage, better insulation and improved cost-effectiveness. It can also contribute to improved fuel efficiency and reduced carbon emissions, making them environmentally favourable. The combination of additive manufacturing (AM) and microcellular foaming has opened new possibilities for design innovation. This text highlights the challenges and efforts in incorporating foaming techniques into 3D printing processes, specifically fused filament fabrication (FFF). This study reveals that microcellular polymers are a viable option when balancing part strength and weight. The experiments completed during the formulation of this paper demonstrated that lightweight LW-PLA parts were significantly lighter than standard PLA parts and that a design of experiments approach can be used to optimise strength properties and provide insights into optimising manufacturability. Microcellular polymers present an opportunity for lighter and stronger 3D printed parts, offering potential energy and material savings for sustainable manufacturing practices. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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- View/download PDF
12. Maximizing solar power generation through conventional and digital MPPT techniques: a comparative analysis.
- Author
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Sarang, Shahjahan Alias, Raza, Muhammad Amir, Panhwar, Madeeha, Khan, Malhar, Abbas, Ghulam, Touti, Ezzeddine, Altamimi, Abdullah, and Wijaya, Andika Aji
- Subjects
ARTIFICIAL intelligence ,SOLAR energy industries ,RENEWABLE energy sources ,GREENHOUSE gas mitigation ,CARBON emissions ,SOLAR energy ,MAXIMUM power point trackers - Abstract
A substantial level of significance has been placed on renewable energy systems, especially photovoltaic (PV) systems, given the urgent global apprehensions regarding climate change and the need to cut carbon emissions. One of the main concerns in the field of PV is the ability to track power effectively over a range of factors. In the context of solar power extraction, this research paper performs a thorough comparative examination of ten controllers, including both conventional maximum power point tracking (MPPT) controllers and artificial intelligence (AI) controllers. Various factors, such as voltage, current, power, weather dependence, cost, complexity, response time, periodic tuning, stability, partial shading, and accuracy, are all intended to be evaluated by the study. It is aimed to provide insight into how well each controller performs in various circumstances by carefully examining these broad parameters. The main goal is to identify and recommend the best controller based on their performance. It is notified that, conventional techniques like INC, P&O, INC-PSO, P&O-PSO, achieved accuracies of 94.3, 97.6, 98.4, 99.6 respectively while AI based techniques Fuzzy-PSO, ANN, ANFIS, ANN-PSO, PSO, and FLC achieved accuracies of 98.6, 98, 98.6, 98.8, 98.2, 98 respectively. The results of this study add significantly to our knowledge of the applicability and effectiveness of both AI and traditional MPPT controllers, which will help the solar industry make well-informed choices when implementing solar energy systems. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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13. A Review of Digital Twin Technologies for Enhanced Sustainability in the Construction Industry.
- Author
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Zhang, Zichao, Wei, Zhuangkun, Court, Samuel, Yang, Lichao, Wang, Shuozhi, Thirunavukarasu, Arjun, and Zhao, Yifan
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DIGITAL twins ,SUSTAINABILITY ,CONSTRUCTION industry ,DIGITAL technology ,CARBON emissions ,MULTISENSOR data fusion - Abstract
Carbon emissions present a pressing challenge to the traditional construction industry, urging a fundamental shift towards more sustainable practices and materials. Recent advances in sensors, data fusion techniques, and artificial intelligence have enabled integrated digital technologies (e.g., digital twins) as a promising trend to achieve emission reduction and net-zero. While digital twins in the construction sector have shown rapid growth in recent years, most applications focus on the improvement of productivity, safety and management. There is a lack of critical review and discussion of state-of-the-art digital twins to improve sustainability in this sector, particularly in reducing carbon emissions. This paper reviews the existing research where digital twins have been directly used to enhance sustainability throughout the entire life cycle of a building (including design, construction, operation and maintenance, renovation, and demolition). Additionally, we introduce a conceptual framework for this industry, which involves the elements of the entire digital twin implementation process, and discuss the challenges faced during deployment, along with potential research opportunities. A proof-of-concept example is also presented to demonstrate the validity of the proposed conceptual framework and potential of digital twins for enhanced sustainability. This study aims to inspire more forward-thinking research and innovation to fully exploit digital twin technologies and transform the traditional construction industry into a more sustainable sector. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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14. Effective Modeling of CO 2 Emissions for Light-Duty Vehicles: Linear and Non-Linear Models with Feature Selection.
- Author
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Vu, Hang Thi Thanh and Ko, Jeonghan
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CARBON emissions ,FEATURE selection ,ENERGY consumption ,PREDICTION models - Abstract
Predictive modeling is important for assessing and reducing energy consumption and CO
2 emissions of light-duty vehicles (LDVs). However, LDV emission datasets have not been fully analyzed, and the rich features of the data pose challenges in prediction. This study aims to conduct a comprehensive analysis of the CO2 emission data for LDVs and investigate key prediction model characteristics for the data. Vehicle features in the data are analyzed for their correlations and impact on emissions and fuel consumption. Linear and non-linear models with feature selection are assessed for accuracy and consistency in prediction. The main behaviors of the predictive models are analyzed with respect to vehicle data. The results show that the linear models can achieve good prediction performance comparable to that of nonlinear models and provide superior interpretability and reliability. The non-linear generalized additive models exhibit enhanced accuracy but display varying performance with model and parameter choices. The results verify the strong impact of fuel consumption and powertrain attributes on emissions and their substantial influence on the prediction models. The paper uncovers crucial relationships between vehicle features and CO2 emissions from LDVs. These findings provide insights for model and parameter selections for effective and reliable prediction of vehicle emissions and fuel consumption. [ABSTRACT FROM AUTHOR]- Published
- 2024
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15. Sustainability and Resilience Assessment Methods: A Literature Review to Support the Decarbonization Target for the Construction Sector.
- Author
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Sesana, Marta Maria and Dell'Oro, Paolo
- Subjects
LITERATURE reviews ,SUSTAINABILITY ,CARBON dioxide mitigation ,CIRCULAR economy ,CARBON emissions ,BUILT environment ,ENERGY conservation in buildings ,CRITICAL currents - Abstract
It is a well-known issue that the 2050 target of carbon emissions neutrality will be reached only with the co-operation of all the interested sectors, and the construction sector could be one of the main contributors to this change. With the built environment globally responsible for about 40% of annual global energy-related CO
2 emissions, the construction sector offers an important opportunity to drive transformative change and presents the most challenging mitigation potential among all industrial sectors, which also brings opportunities for adopting sustainability practices and increasing resilience. This paper presents a systematic literature review of those two pivotal concepts to reach the decarbonization goal: sustainability and resilience. Starting from an extensive literature review (2536 scientific documents) based on the PRISMA statement, the definitions and assessment methodologies of those concepts for the construction sector have been studied. The methodological approach followed for their analysis has been conducted on a first selection of 42 documents, further reduced to 12 by using clear inclusion criteria to identify the integrated assessment procedures. The main goal of this study is to clarify the correlation between sustainability and resilience concepts for constructions and their integrated assessment, in line with the latest regulations and market needs. The results show that, currently, sustainability and resilience are mainly evaluated in a distinct way to obtain building energy performance certificates, as well as to quantify the building market value and its complementary contribution to the 'energy efficiency first' principle and energy-saving targets towards the emergent issue of climate change. Few works focus on the integrated assessment of both concepts considering the construction industries' point of view about materials and/or systems for buildings. The novelty of this study is the critical review of the current sustainability and resilience integrated assessment methods used for the construction value chain, declined for four main target groups. Researchers, policymakers, industries, and professionals could gain dedicated insights and practical suggestions to put in practice the elements of circular economy, ecological innovation, and cleaner production, which are essential in order to drive the decarbonization of the built environment. [ABSTRACT FROM AUTHOR]- Published
- 2024
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16. Achieving carbon neutrality in Africa is possible: the impact of education, employment, and renewable energy consumption on carbon emissions.
- Author
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Elom, Chinyere Ori, Onyeneke, Robert Ugochukwu, Ankrah, Daniel Adu, Deffor, Eric Worlanyo, Ayerakwa, Hayford Mensah, and Uwaleke, Chidebe Chijioke
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CARBON emissions ,CARBON offsetting ,ENERGY consumption ,RENEWABLE energy sources ,FIXED effects model ,SUSTAINABILITY ,RANDOM effects model ,EDUCATIONAL finance - Abstract
This paper analysed the causal link between education, employment, renewable energy consumption and carbon emissions in Africa, where there is scant evidence. Relying on panel data obtained from the World Development Indicators for thirty-two African countries covering a period of 19 years, and five panel rigorous regression models, we found that renewable energy, investment in education, school enrolment, net national income per capita, and employment had negative and significant effects on carbon emission, thus increasing these predictors would result in significant reduction in carbon emission in Africa. We identified a bidirectional causality between carbon emissions and net national income per capita, education expenditure and renewable energy consumption, and carbon emissions and employment. Our findings suggest that investment in education, renewable energy, and employment are relevant in mitigating carbon emissions in Africa. We recommend African governments to invest heavily in education, improve school enrolment, environmental education, renewable energy and employment provision to mitigate carbon emissions. Highlights: • Achieving carbon neutrality in Africa is important. • This research investigated the impact of education, employment, and renewable energy consumption on carbon emissions in Africa. • This study utilized five panel regression models – fixed effect with Driscoll-Kraay standard errors, panel fixed effect model, random effect model, panel fully modified ordinary least square model, and panel canonical correlation analysis and panel data from 32 African countries. • The results shed new light on the emission reduction potential of renewable energy consumption, education expenditure, school enrolment, per capita income, and employment. • This article offers recommendations to attain carbon neutrality and environmental sustainability. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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17. CONSIDERAȚII PRIVIND SISTEMELE AGRICOLE ÎN CONDIȚIILE SCHIMBĂRILOR CLIMATICE.
- Author
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SAFTA, Adela Sorinela and POPESCU, Lavinia
- Abstract
Copyright of Economica: Revistă Ştiinţifico-Didactică is the property of Academy of Economic Studies of Moldova (AESM) / Academia de Studii Economice din Moldova (AESM) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
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18. Digitization Meets Energy Transition: Shaping the Future of Environmental Sustainability.
- Author
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Wang, Lin, He, Yugang, and Wu, Renhong
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CARBON dioxide mitigation ,CARBON emissions ,DIGITIZATION ,SUSTAINABILITY - Abstract
This paper presents an empirical investigation into the effects of energy transition and digitization on carbon dioxide emissions, serving as a proxy for environmental sustainability, across 28 Chinese provinces from 2000 to 2021. Utilizing both static and dynamic regression analyses, the study reveals a significant driving effect of the energy transition on environmental sustainability, primarily through a reduction in carbon dioxide emissions. Notably, this influence is more pronounced in the eastern region of China, followed by the central and western regions, indicating regional heterogeneity in the impact of the energy transition. Furthermore, digitization is found to have a substantial moderating effect, enhancing energy conservation and emission reductions. As digitization progresses, its capability to diminish the impact of energy transitions on carbon dioxide emissions becomes more apparent, particularly in the eastern region, while this effect is less marked in central and western China. The study also delves into the nonlinear relationship between energy transitions and carbon dioxide emissions, discovering that increased levels of digitization can exacerbate the negative effects of energy transitions on emissions. These findings offer valuable insights into the dynamics of energy transition and digitalization, highlighting their crucial roles in shaping environmental sustainability in China. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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19. Towards the Circularity of the EU Steel Industry: Modern Technologies for the Recycling of the Dusts and Recovery of Resources.
- Author
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Simoni, Marco, Reiter, Wolfgang, Suer, Julian, Di Sante, Loredana, Cirilli, Filippo, Praolini, Fabio, Mosconi, Manuel, Guzzon, Marta, Malfa, Enrico, Algermissen, David, and Rieger, Johannes
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STEEL industry ,WASTE recycling ,SUSTAINABILITY ,DUST ,STEEL manufacture - Abstract
The EU steel industry accounts for a crude steel production of 140 Mt/y, provided by the integrated (57%) and electric (43%) routes, which respectively require up to 6.0 and 0.6 MWh/t
CrudeSteel of energy input, and emits on average 1.85 and 0.4 tCO2 /tCrudeSteel . The mitigation of such CO2 emissions is crucial, and would involve the direct avoidance of carbon, improvement of energy efficiency, and carbon capture. However, the environmental burden of the steel industry cannot be limited to this, given the very large amount (approximately 5 Mt) of residues landfilled every year in the EU. This practice cannot be sustained anymore, since it represents a detrimental waste of resources and burden to the environment. These aspects require prompt action to meet the Green Deal goals envisioned for 2030. This review paper aims to provide an overview of the main state-of-the-art technologies commercially (and not) available for the effective treatment of a wide variety of residues. To enrich this overview with further potential candidates towards a more sustainable steel manufacturing process, the combined application of two technologies (a plasma reactor and a RecoDust unit for the recovery of metals and minerals, respectively) at TRL 5-6 is also investigated here. [ABSTRACT FROM AUTHOR]- Published
- 2024
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20. Dynamic sustainable multiple-depot vehicle routing problem with simultaneous pickup and delivery in the context of the physical internet.
- Author
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Kantasa-ard, Anirut, Chargui, Tarik, Bekrar, Abdelghani, AitElCadi, Abdessamad, and Sallez, Yves
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VEHICLE routing problem ,CARBON emissions ,INTERNET ,SUPPLY chain management ,METAHEURISTIC algorithms - Abstract
Purpose: This paper proposes an approach to solve the vehicle routing problem with simultaneous pickup and delivery (VRPSPD) in the context of the Physical Internet (PI) supply chain. The main objective is to minimize the total distribution costs (transportation cost and holding cost) to supply retailers from PI hubs. Design/methodology/approach: Mixed integer programming (MIP) is proposed to solve the problem in smaller instances. A random local search (RLS) algorithm and a simulated annealing (SA) metaheuristic are proposed to solve larger instances of the problem. Findings: The results show that SA provides the best solution in terms of total distribution cost and provides a good result regarding holding cost and transportation cost compared to other heuristic methods. Moreover, in terms of total carbon emissions, the PI concept proposed a better solution than the classical supply chain. Research limitations/implications: The sustainability of the route construction applied to the PI is validated through carbon emissions. Practical implications: This approach also relates to the main objectives of transportation in the PI context: reduce empty trips and share transportation resources between PI-hubs and retailers. The proposed approaches are then validated through a case study of agricultural products in Thailand. Social implications: This approach is also relevant with the reduction of driving hours on the road because of share transportation results and shorter distance than the classical route planning. Originality/value: This paper addresses the VRPSPD problem in the PI context, which is based on sharing transportation and storage resources while considering sustainability. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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21. A sustainable green–blue revolution in Pakistan: a new perspective from quantile regression analysis.
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Zahra, Samia, Shah, Syed Ale Raza, and Badeeb, Ramez Abubakr
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QUANTILE regression ,REGRESSION analysis ,CARBON emissions ,AGRICULTURAL credit ,ENVIRONMENTAL degradation ,SUSTAINABILITY - Abstract
The paper explores the impact of the green–blue revolution on environmental sustainability proxied by production-based carbon emission and agro-environmental footprint in Pakistan between 1976 and 2020. The basic objective of this study is to evaluate and compare the impact of green–blue revolution on sustainable environment in different quantiles. Johansen co-integration test with trace and max eigenvalues determines the long-run relationship between green–blue revolution and environmental degradation in Pakistan. Using median quantile regression analysis, we find that agricultural machinery, pesticides, and aquaculture production are positive and significant factors of production-based carbon emissions with 0.49, 0.1, and 0.09 coefficient values, respectively, while fertilizers, agricultural credit, and HYV (high yield variety) seeds are not major determinants of production-based carbon emission. At the same time, high variety seeds and fertilizers enhance the agro-environmental footprint in Pakistan with 0.23 and 0.28 coefficients, respectively, by applying median quantile regression. Similarly, agricultural machinery, pesticides, agricultural credit, and aquaculture production are not the major determinants of agro-environmental footprint by using median quantile regression. However, the response of exogenous variables varies from quantile to quantile in the case of both environmental proxies. These results discuss implications for fruitful and effective policies and recommendations for a sustainable environment. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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22. ELECTRIC VEHICLES INDUSTRY IN EMERGING COUNTRIES: BARRIERS AND ENVIRONMENTAL OPPORTUNITIES.
- Author
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MEHANNECHE, Kaouthar and NAJAFI, Sharareh
- Subjects
ELECTRIC vehicles ,AUTOMOBILE industry ,GLOBALIZATION ,CARBON emissions ,SUSTAINABILITY ,DEVELOPING countries - Abstract
Globalization in Automobile industry is one of the significant discussions nowadays in emerging countries. Conventional cars manufacturing in emerging countries has got a great share in global market for many years. Global environmental concerns, climate change due to negative effect of carbon emissions and greenhouse gases lead in increasing the importance of overview the non-renewable fuels consumption patterns to achieve the sustainability. Consequently, most of countries attempted to rise a consciousness about the usage of Electric Vehicles (EVs). However, poor infrastructure technology and high cost of establishing charging stations make the industry capital intensive. The governments set various strategies such as tax reduction and credit offerings. Moreover, investing in establishing production and manufacture units causes opportunities to commence EVs productions in many emerging countries as a developed country. The main aim of this paper is to explain the significance of EVs production in emerging countries and review of validity of Environmental Kuznets Curve Model. In the second part, the emphasizing is on describing the competitive advantage of Türkiye as an emerging country in VEs market globally. The Porters Diamond model and Country of Origin effect are the main discussed the theories. [ABSTRACT FROM AUTHOR]
- Published
- 2023
23. Comprehensive Analysis of Geopolymer Materials: Properties, Environmental Impacts, and Applications.
- Author
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Sbahieh, Sami, McKay, Gordon, and Al-Ghamdi, Sami G.
- Subjects
POLYMER-impregnated concrete ,MATERIALS analysis ,WASTE minimization ,SUSTAINABILITY ,OZONE layer depletion ,CARBON emissions - Abstract
The advancement of eco-friendly technology in the construction sector has been improving rapidly in the last few years. As a result, multiple building materials were developed, enhanced, and proposed as replacements for some traditional materials. One notable example presents geopolymer as a substitute for ordinary Portland concrete (OPC). The manufacturing process of (OPC) generates CO
2 emissions and a high energy demand, both of which contribute to ozone depletion and global warming. The implementation of geopolymer concrete (GPC) technology in the construction sector provides a path to more sustainable growth and a cleaner environment. This is due to geopolymer concrete's ability to reduce environmental pollutants and reduce the construction industry's carbon footprint. This is achieved through its unique composition, which typically involves industrial byproducts like fly ash or slag. These materials, rich in silicon and aluminum, react with alkaline solutions to form a binding gel, bypassing the need for the high-energy clinker production required in OPC. The use of such byproducts not only reduces CO2 emissions but also contributes to waste minimization. Additionally, geopolymer offers extra advantages compared to OPC, including improved mechanical strength, enhanced durability, and good stability in acidic and alkaline settings. Such properties make GPC particularly suitable for a range of construction environments, from industrial applications to infrastructure projects exposed to harsh conditions. This paper comprehensively reviews the different characteristics of geopolymers, which include their composition, compressive strength, durability, and curing methods. Furthermore, the environmental impacts related to the manufacturing of geopolymer materials were evaluated through the life-cycle assessment method. The result demonstrated that geopolymer concrete maintains positive environmental impacts due to the fact that it produces fewer carbon dioxide CO2 emissions compared to OPC concrete during its manufacturing; however, geopolymer concrete had some minor negative environmental impacts, including abiotic depletion, human toxicity, freshwater ecotoxicity, terrestrial ecotoxicity, and acidification. These are important considerations for ongoing research aimed at further improving the sustainability of geopolymer concrete. Moreover, it was determined that silicate content, curing temperature, and the proportion of alkaline solution to binder are the major factors significantly influencing the compressive strength of geopolymer concrete. The advancement of geopolymer technology represents not just a stride toward more sustainable construction practices but also paves the way for innovative approaches in the field of building materials. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
24. Spatial correlation between producer services agglomeration and carbon emissions in the Yangtze River Economic Belt based on point-of-interest.
- Author
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Zeng, Peng, Shang, Lingjie, and Xing, Mengkun
- Subjects
CARBON emissions ,SUSTAINABILITY ,INDUSTRIAL clusters ,INNER cities ,LEASE & rental services ,SUSTAINABLE development - Abstract
Agglomeration of the industry significantly impacts economic performance and environmental sustainability. In line with its strategic context of striving to achieve carbon reduction targets, China is making efforts to optimize the producer services landscape to reduce carbon emissions. Understanding the spatial correlation between industrial agglomeration and carbon emissions is particularly crucial against this background. Based on POI and remote sensing data of China's Yangtze River Economic Belt (YREB), the paper adopts the mean nearest neighbor analysis, kernel density analysis, and standard deviation ellipse to portray the agglomeration of producer services. Then uses Moran's I to present the spatial distribution characteristics of carbon emissions. Accordingly, the spatial heterogeneity of producer services agglomeration and carbon emissions is showed using the Geographic detector so as to provide strong support for industrial structure optimization and sustainable development. Here are some of the conclusions drawn from the study: (1) Producer services are a significant state of agglomeration in the provincial capitals and some central cities, with similar agglomeration patterns. (2) Carbon emissions exhibits significant spatial aggregation characteristics, with the spatial distribution pattern of "High west–Low east". (3) Wholesale and retail services industry is the primary risk factor that causes spatial differentiation of carbon emission intensity, "leasing and business services industry-wholesale and retail services industry" is the key interaction factor of the spatial differentiation. (4) Carbon emissions shows a downward trend followed by an upward trend as producer services agglomeration increases. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
25. Progress on the demand side management in smart grid and optimization approaches.
- Author
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Sarker, Eity, Halder, Pobitra, Seyedmahmoudian, Mehdi, Jamei, Elmira, Horan, Ben, Mekhilef, Saad, and Stojcevski, Alex
- Subjects
ENERGY demand management ,CARBON emissions ,SMART homes ,ENERGY consumption ,SMART power grids ,POWER resources ,TECHNOLOGY convergence - Abstract
Summary: The integration of demand side management (DSM) with smart grid (SG) can facilitate residents' transfer into smart homes and sustainable cities by reducing the carbon emission. This manuscript reviews the recent works related to the application of DSM in SG through discussing the techniques and algorithms and their associated challenges for effective implementation. This paper also critically discusses the operation mode of DSM, the profile of energy production, storage and consumption, and finally the benefit obtained by the DSM implementation. Previous literature suggested that DSM practice reduced peak‐to‐average ratio, energy cost and carbon emission by approximately 10% to 65%, 5% to 50%, and 14%, respectively. The implementation of DSM in SG deals with a number of challenges such as security and privacy, tariff regulation, energy transmission, distribution, and effective utilization of energy resources. A number of international organizations have taken various measures and solutions to guarantee the security and privacy of the DSM in SG discussed. So far, a number of algorithms have been used as optimization approach to solve the DSM optimization problems; however hybrid algorithms have showed better performance than single algorithms due to their faster convergence speed. At the end, the paper presents the research gaps and future research directions. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
26. The role of biomass energy consumption and economic complexity on environmental sustainability in G7 economies.
- Author
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Shahzad, Umer, Elheddad, Mohamed, Swart, Julia, Ghosh, Sudeshna, and Dogan, Buhari
- Subjects
ECOLOGICAL impact ,SUSTAINABILITY ,ENVIRONMENTAL quality ,CLEAN energy ,SUSTAINABLE investing ,CARBON emissions ,MOMENTS method (Statistics) ,BIOMASS energy ,ENERGY consumption - Abstract
This paper empirically examines the effect of biomass energy consumption and economic complexity on environmental sustainability in G7 economies. The current study attempts to report a comprehensive analysis of biomass energy and economic complexity on ecological and carbon footprints and carbon emissions. We employ data from 1990 to 2019 and adopt robust panel econometric techniques that account for the analysis's cross‐sectional dependence. We conduct cointegration analysis, pooled ordinary least squares (OLS), system generalized method of moments (GMM) and conditional quantile model for our empirical analysis. The empirical findings show that both biomass energy consumption and economic complexity are detrimental to the ecological footprint and carbon footprint. Additionally, we find that globalization positively affects the environment, while we find some evidence that bureaucratic quality improves environmental quality. Finally, in line with other research, we find that economic growth has detrimental effects on the environment. Our results suggest that policymakers should be more cautious in promoting biomass as a clean energy source and that the G7 economies should take advantage of their leading position in innovation to invest more in sustainable practices and investment. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
27. Green Marketing a Journey Driven towards Sustainable Development.
- Author
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Mahanta, Priyanka and Singh, Amit Kumar
- Subjects
GREEN marketing ,EMISSIONS (Air pollution) ,CARBON emissions ,MARKETING strategy - Abstract
Protecting environment has become an essential and important issue for all, as there is an increase in carbon emission and pollution of the environment. Now even the consumers are aware of the environmental issues and are trying to adopt green so that it is less harmful and help protecting the environment for its sustainability. Environment marketing lots of important elements which works towards sustainability, Green Marketing is also a part of it where it has become a important concept for sustainability towards the environment and marketers are adopting this strategy to get the market as customer's mindset also have shifted towards =green'. It is a strategy where the marketers need to satisfy or fulfil the needs of the customer alongside taking care of the environmental issues. In this research paper the objective is to study the importance of green marketing for sustainability and also to study the threats towards adoption of green marketing practices. Data has been collection from various books, journals etc. This paper tries to explore the different issues related to green marketing practices and how it can be a tool towards sustainable development. [ABSTRACT FROM AUTHOR]
- Published
- 2021
28. Assessing the adequacy of transportation overall vehicle effectiveness for sustainable road transportation.
- Author
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Ferraro, Saverio, Cantini, Alessandra, Leoni, Leonardo, and De Carlo, Filippo
- Subjects
SUSTAINABLE transportation ,DELIVERY of goods ,CARBON emissions ,SUSTAINABLE development ,SUSTAINABILITY - Abstract
Organizations in today's supply chains strive for transportation activities optimization. However, transportation is a significant environmental impact activity. Particularly, road transportation is the highest emission rate source and the most widespread modality for last-mile delivery. In this context, the use of performance management tools, such as key performance indicators (KPIs), is a strategy to reach both economic-operative and environmental benefits. Among all KPIs, overall equipment effectiveness (OEE) is one of the most suitable KPIs to measure the utilization of an industrial asset. In the transportation sector, a variant of the OEE, known as the transportation overall vehicle effectiveness (TOVE), is used to define the performance of vehicle distribution activities, such as road transportation for last-mile delivery and urban logistics. Although TOVE is effective for evaluating vehicle performance in terms of administrative availability, operating availability, performance, and quality, the indicator does not take into the environmental impact related to road transportation activities. Literature has proposed several formulations to quantify transport carbon emissions, most of which are linear relationships to the distance travelled. However, these models are not suitable for assessing the TOVE performance of road transportation activities. This paper aims to compare the performance of last-mile delivery in terms of TOVE and carbon emissions evaluated with a distance travelled formulation in two different scenario systems. The comparison shows the inadequacy of TOVE in terms of environmental sustainability, as maximizing road transport performance while ignoring the environmental dimension excludes the minimization of CO
2 emissions. Therefore, the foundation for future developments of TOVE for sustainable road transportation can be established from this divergence. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
29. Sustainable optimal production policies for an imperfect production system with trade credit under different carbon emission regulations.
- Author
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Mahato, Falguni, Mahato, Chandan, and Mahata, Gour Chandra
- Subjects
SUSTAINABILITY ,POLLUTION control costs ,CARBON emissions ,REMANUFACTURING ,PRODUCTION planning ,INVENTORY control - Abstract
Production systems are subject to imperfect processes among other factors that may produce items of imperfect quality. To avoid further losses, regular preventive maintenance, and system breakdowns, firms can make changes in their production planning decisions or invest in a green inventory management. Every manufacturing system generates some harmful by-products which are the causes of environmental pollution, and it is increasing day by day. As a result, one of the goals of this research is to develop a sustainable smart manufacturing model with less waste and controlled pollution. Moreover, permissible delay in payment is a popular payment method and important proportion of company finance. This research proposes a manufacturing plan for products by controlling pollution through sustainable and smart production under warranty and preventive maintenance performed with trade credits. Two different sustainable production models are presented here by considering pollution control costs. A sustainable production model with variable pollution costs is examined under the influence of three pollution control mechanisms to improve the model's applicability. The paper's novelty lies in introducing pollution control costs and pollution control mechanisms together in a flexible, sustainable production system. In comparison with the other models, the model with a variable pollution cost appears to be more sustainable as, in this case, there is a 27.76% reduction in the pollution level compared to the other models. Implementing three pollution-controlling strategies, such as pollution cap, pollution cap & trade, and pollution tax, resulted in reductions of 32.52%, 1.72%, and 0.84% in pollution levels, respectively. A sensitivity analysis of the obtained results is also carried out to show the model's strength and robustness. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. Supply chain coordination: the application of consignment and zero wholesale price contracts under customized cap-and-trade and consumers' environmental awareness.
- Author
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Tat, Roya, Heydari, Jafar, and Mlinar, Tanja
- Subjects
CONSUMERS ,SUPPLY chains ,INCENTIVE (Psychology) ,REVENUE sharing (Corporations) ,CARBON emissions ,WHOLESALE prices ,CARBON credits - Abstract
Purpose: Within a framework of supply chain (SC) coordination, this paper analyzes a green SC consisting of a retailer and a manufacturer, under government incentives and legislations and the consumer environmental awareness. To mitigate carbon emissions and promote the sustainability of the SC, a customized carbon emission trading mechanism is developed. Design/methodology/approach: A game-theoretical decision model formulated determines the optimal sustainability level and the optimal quota of carbon credit from the ceiling capacity set by the government. In order to coordinate the SC and optimize environmental decisions, a novel combination of consignment and zero wholesale price contracts is proposed. Findings: Analytical and numerical analyses conducted highlight that the proposed contract generates a Pareto improvement for both channel members, boosts the profit of the green SC, enhances the sustainability level of the channel and contributes to a reduction in the requested carbon emission credit by the manufacturer. Social implications: With the proposed mechanism, governments can protect their industries and, more importantly, comply with European Union (EU) rules on annually reducing emission ceilings allocated to industries. Originality/value: Different from previous studies on cap-and-trade strategies, the proposed mechanism enables companies to select lower emission quota/allowances than the maximum amount set by the government, and in return, companies can benefit from several incentive strategies of the government. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
31. A Sustainability Analysis Based on the LCA–Emergy–Carbon Emission Approach in the Building System.
- Author
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Zhang, Junxue and Asutosh, Ashish T.
- Subjects
SUSTAINABLE buildings ,CARBON emissions ,SUSTAINABILITY ,BUILDING operation management - Abstract
Ecologically sustainable buildings and their carbon emissions are two popular ideas for building life cycle systems. It is a challenge to comprehensively assess the sustainability of building cases using two different methods. Based on over a decade of research, this paper attempts to explore the possibility of quantitatively integrating both approaches. In this study, we adopted the emergy method and carbon emission approach to assess and analyze a building system. In particular, similarities and differences have been identified through emergy and carbon emissions at each stage of the building's whole life cycle. The results demonstrate that the building operation phase is the critical contributor (Approximately 79.6% of the total emergy and 97.9% of the entire carbon emission), which occupies the most emergy and carbon emission amounts of the whole building system. In order to improve the ecological sustainability of the building system, renewable energy subsystems are considered and explored. While the overall sustainability of the building system is enhanced, the new systems will aggrandize the carbon emissions. Therefore, the ecological sustainability of building systems and carbon emissions should be considered comprehensively, and the relationship between the two views needs to be balanced. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
32. Enabling end-to-end digital carbon emission tracing with shielded NFTs.
- Author
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Babel, Matthias, Gramlich, Vincent, Körner, Marc-Fabian, Sedlmeir, Johannes, Strüker, Jens, and Zwede, Till
- Subjects
CARBON emissions ,NON-fungible tokens ,CARBON cycle ,CARBON dioxide mitigation ,CONSUMERS - Abstract
In the energy transition, there is an urgent need for decreasing overall carbon emissions. Against this background, the purposeful and verifiable tracing of emissions in the energy system is a crucial key element for promoting the deep decarbonization towards a net zero emission economy with a market-based approach. Such an effective tracing system requires end-to-end information flows that link carbon sources and sinks while keeping end consumers' and businesses' sensitive data confidential. In this paper, we illustrate how non-fungible tokens with fractional ownership can help to enable such a system, and how zero-knowledge proofs can address the related privacy issues associated with the fine-granular recording of stakeholders' emission data. Thus, we contribute to designing a carbon emission tracing system that satisfies verifiability, distinguishability, fractional ownership, and privacy requirements. We implement a proof-of-concept for our approach and discuss its advantages compared to alternative centralized or decentralized architectures that have been proposed in the past. Based on a technical, data privacy, and economic analysis, we conclude that our approach is a more suitable technical backbone for end-to-end digital carbon emission tracing than previously suggested solutions. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
33. Implementation and operational feasibility of an offshore floating charging station for sustainable marine transportation
- Author
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Sruthy, V. and Preetha, P. K.
- Published
- 2023
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- View/download PDF
34. Adoption of industry 4.0 technologies for decarbonisation in the steel industry: self-assessment framework with case illustration
- Author
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Mishra, Ruchi, Singh, Rajesh Kr, and Gunasekaran, Angappa
- Published
- 2023
- Full Text
- View/download PDF
35. Zero-Carbon Communities: Research Hotspots, Evolution, and Prospects.
- Author
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Zhu, Yunxi, Koutra, Sesil, and Zhang, Jiazhen
- Subjects
MATERIALS science ,ATMOSPHERIC sciences ,EMISSIONS (Air pollution) ,SCIENTIFIC community ,BUILDING design & construction ,CARBON cycle - Abstract
Global warming is a worldwide concern, with buildings generating more than 40% of the annual global CO
2 emissions. A commonly accepted system of global standards for zero-carbon buildings and communities has not yet been established. In this research, the development history, hotspots, and trends at the urban scale with theoretical and data support are summarized based on the Web of Science (WoS) Core Collection. The review contains works from 1997 to 2022. A total of 19,014 papers were collected, with an overall increasing trend in the number of articles with specific keywords. The scope of the research is broad, covering the environment, sciences, ecology, chemistry, material science, physics, meteorology, atmospheric sciences, and so on. The hotspots in the low-carbon community (LCC) and zero-carbon community (ZCC) involve a wide range of disciplines, and collaborative research between related disciplines should be strengthened to propose practical solutions for the development of zero-carbon cities. The establishment of the ZCC mainly focuses on a zero-carbon-emission construction and zero-carbon operations. This research found approaches such as the choices of building construction and material, a waste recycling system, a regenerating energy system, transportation, and an examination of the community composition to realize the ZCC. In the literature it is presented that the difficulties in the construction of the ZCC are due to the lack of research in practice, operation, and subsequent maintenance. Moreover, other scholars can deepen the research on the hotspots of ZCC. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
36. The Sustainability Study and Exploration in the Building Commercial Complex System Based on Life Cycle Assessment (LCA)–Emergy–Carbon Emission Analysis.
- Author
-
Cao, Jun, Zhu, Yangfei, Zhang, Junxue, Wang, Hechi, and Zhu, Haohao
- Subjects
PRODUCT life cycle assessment ,COMMERCIAL buildings ,BUILDING operation management ,CARBON cycle ,SUSTAINABILITY ,CARBON emissions - Abstract
This paper focuses on the sustainable exploration of building systems, which combines ecological concepts and low-carbon designs for a comprehensive sustainability assessment investigation. The study employed the Life Cycle Assessment (LCA)-Emergy and Life Cycle Assessment (LCA)-Carbon emission methods to discuss a range of topics, including the main contributing factors, sustainability index verification, sensitivity analysis, and potential improvement measures. From an ecological sustainability perspective, the results indicate that the building operation stage plays a critical role, accounting for approximately 45% of the entire emergy in the building commercial complex. The sustainable index (ESI) is 0.354, which is below the standard of 1. Moreover, the building operation stage also significantly contributes to carbon emissions, particularly in the 50th anniversary of operation. Based on these findings, the study recommends two potential strategies to improve the ecological state and low-carbon design which involve the use of renewable energy and carbon sink improvement, respectively. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
37. Interactive strategy of carbon cap-and-trade policy on sustainable multi-objective solid transportation problem with twofold uncertain waste management.
- Author
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Ghosh, Shyamali, Roy, Sankar Kumar, and Weber, Gerhard-Wilhelm
- Subjects
WASTE management ,EMISSIONS trading ,SOLID waste management ,CARBON emissions ,LINEAR programming - Abstract
An appropriate and sustainable waste management plan is required in different scenarios for global development. The main goal of this paper is to evaluate a waste management problem by investigating an integrated multi-objective environment through solid transportation problem. To develop sustainability, three objective functions are optimized by choosing as cost for economical opportunity, time for social satisfaction and carbon emission for environmental view. Cap and trade policy is regarded here to minimize carbon emission and to provide some economical opportunities to the system. To control hesitancy of this scenario, twofold uncertainty (type-2 intuitionistic fuzzy) is incorporated here, and this uncertainty is defuzzified by a ranking operator. A strategy is proposed here to optimize three factors of sustainability by an intellectual model formulation of solid waste management. To check the appropriateness of the proposed model, two numerical problems are evaluated using two advanced methods, namely, neutrosophic linear programming and ϵ -constraint method. The Pareto-optimal solutions are derived by the variation of cap value and fulfilling the criteria of sustainability. The obtained results indicate that cap and trade policy or waste management, or both are highly sophisticated for applying in real-world application. The overall conclusions recommend that a government or NGO should encourage transportation system, or the industry to minimize carbon emission by utilizing several carbon policies. It can assist to establish different new project of waste management in a discrete environment, based on sustainability. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
38. Towards Positive Energy Districts: Energy Renovation of a Mediterranean District and Activation of Energy Flexibility †.
- Author
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Marotta, Ilaria, Péan, Thibault, Guarino, Francesco, Longo, Sonia, Cellura, Maurizio, and Salom, Jaume
- Subjects
ENERGY industries ,SUSTAINABILITY ,CARBON emissions ,SOLAR energy ,SMART power grids - Abstract
The paper presents the analysis of energy retrofitting, integration of renewable energy and activation of energy flexibility in a cluster of buildings in the surroundings of a port on the Mediterranean Sea in Southern Italy, with the aim of checking the potential for it to achieve the status of positive energy district (PED). The objective of this study is to improve the contemporaneity between local energy generation and energy demand and reduce CO
2eq emissions by considering signals that reflect the environmental variability of the electricity grid, through flexibility solutions applied to the HVAC system. The proposed scenarios are based on the dynamic simulation of the district and analyze the effect of actions that activate the energy flexibility of buildings through advanced control strategies of the air conditioning system. The results show that the joint action of energy efficiency strategies, integration of solar energy and energy flexibility improves the environmental sustainability of the district and the balance of energy flows. Specifically, the activation of energy flexibility contributes to a 10% reduction in operational CO2eq emissions and increases in self-consumption of energy per year. The operational emissions of the district vary from the base value of 33.37 tons CO2eq /y to 19.52 tons CO2eq /y in the scenario based on the integration of solar energy systems and energy efficiency measures, and to 17.39 tons CO2eq /y when also the demand-side energy flexibility is activated. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
39. Towards a circular economy: Implications for emission reduction and environmental sustainability.
- Author
-
Hailemariam, Abebe and Erdiaw‐Kwasie, Michael Odei
- Subjects
CIRCULAR economy ,SUSTAINABILITY ,GREENHOUSE gas mitigation ,CARBON emissions ,ENVIRONMENTAL quality ,FOSSIL fuels ,WASTE recycling - Abstract
Governments and policymakers worldwide have been setting targets to achieve an ambitious net‐zero emission target by 2050 to tackle the pressing issue of climate change. However, achieving the net‐zero emission target by 2050 depends on the factors determining the transition from traditional fossil fuel energy sources to renewables. In connection with this, policymakers have emphasised the need to transition from a linear to a circular economy. In this paper, we investigate the effectiveness of the progress towards a circular economy in reducing CO2 emissions and promoting environmental sustainability. To do so, we use annual historical data for a panel of 29 European countries from 2000 to 2020. Using an identification strategy that adopts heteroscedastic‐based instrumental variables and addresses endogeneity issues, we find that progress towards a circular economy significantly improves environmental quality via reducing CO2 emissions. Our findings suggest that business strategies promoting recycling and circular economy practices play an important role in environmental sustainability by reducing emissions. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
40. ANALYZING THE IMPACT OF THE ASPECT RATIO OF A BUILDING ON CONCRETE USE IN ITS STRUCTURE.
- Author
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DIXIT, MANISH K. and KUMAR, PRANAV PRADEEP
- Subjects
CONCRETE ,CARBON emissions ,ECOLOGICAL impact ,STRUCTURAL frames ,SUSTAINABILITY - Abstract
Buildings consume over half of annual energy supply as embodied and operating energy in their construction and operation releasing harmful emissions to the atmosphere. Over 90% of the embodied energy is attributed to construction materials used in building structure, envelope, and interiors that must be reduced to minimize material use. Concrete is one of the major materials that contributes significantly to the energy and carbon footprint of buildings, as it is responsible for 5-9% of global carbon emission. Because most of the concrete use in the building sector occurs in building structures, assessing how building design parameters influence its environmental sustainability is important. One of the design parameters that impact the sustainability of buildings is the aspect ratio, which is defined as the ratio of horizontal to vertical surface area of a building. A building with the same floor area can be designed horizontally or vertically with different aspect ratios, which will influence its structural design and eventually the amount of concrete used in the building. In this paper, we examine how aspect ratio may affect the environmental sustainability of a buildings foundation, structural framing, and slab. We model the structure of a generic building with different aspect ratio to analyze if aspect ratio can help reduce the energy and carbon embodied in reinforced concrete structures. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
41. SF Intra-city 2023 ESG Report: Reducing carbon emissions across multiple steps, further advancing sustainability in the service chain and corporate operations.
- Subjects
CARBON emissions ,HELMETS ,CLIMATE change prevention ,SUSTAINABILITY ,GENDER nonconformity - Abstract
Hangzhou SF Intra-city Industrial Co., Ltd., China's largest third-party on-demand delivery service provider, has released its 2023 Environmental, Social, and Governance Report (ESG Report). The report highlights the company's efforts to reduce carbon emissions and advance sustainability in the on-demand delivery industry. Key achievements include a significant reduction in packaging materials, the use of electric vehicles for delivery, green packaging initiatives, and the implementation of an e-signature platform to reduce paper usage. The company also prioritizes employee well-being, with investments in training, safety equipment, and rest stations for riders. SF Intra-city is committed to addressing climate change and promoting sustainable development within the industry. [Extracted from the article]
- Published
- 2024
42. AN ANALYSIS OF LOW CARBON ENERGY ASSESSORS (LCEA) IN PUBLIC BUILDINGS.
- Author
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Rajasekharan, K. Ayeratharasu and P., Porchelvan
- Subjects
CARBON analysis ,RENEWABLE energy sources ,CARBON emissions ,STAINLESS steel ,APPRAISERS - Abstract
World has been shifting towards cleaner and safer sources of energy. Reducing the carbon footprint is the need of the hour. Industries all over the globe are researching on reducing the pollution causing emissions and trying to improve in terms of using sustainable sources of energy and saving the environment. This paper would analyse the low carbon energy assessors (LCEA) in the construction industry. A detailed study has been conducted using primary and secondary research to determine the carbon emissions at different stages of construction. The study would help us in identifying the main phases and activities and components, contributing the majority of the carbon footprints. The need of this age is to work on this area and minimise the pollution and harm to the environment. The construction sites chosen are diverse and consist of all types of building in the southern part of India. The highest carbon emission component in building construction is the cement as a large amount of CO2 emission takes place during the manufacturing process of the cement. The minimum carbon emission that takes place due to the components from the building are labour, sand, MS steel and stainless steel. The study would give a high level idea about the impact of low carbon energy assessors (LCEA) in the construction industry. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
43. Sustainable multi-objective optimization of a machining parameter model for multi-pass turning processes.
- Author
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Pujiyanto, Eko, Rosyidi, Cucuk Nur, Hisjam, Muh., and Liquddanu, Eko
- Subjects
SUSTAINABILITY ,TOPSIS method ,CARBON emissions ,SURFACE roughness ,MACHINING ,PROCESS optimization - Abstract
In this study, we developed an optimization model for determining the optimal parameters for multi-pass CNC turning processes. The six elements of sustainable manufacturing were considered in this study to derive new insights into multi-pass turning modeling. This paper details the relationship between time and power and considers total noise in terms of the personal health element and cost of quality in terms of the manufacturing cost element. The objective functions for our model include the total energy, surface roughness, total noise, total cost, and total carbon emission. The decision variables for our model include the cutting depth, feed rate, cutting speed, and number of roughing passes. The proposed model was solved using the Gamultiobj algorithm (MATLAB). This algorithm was used to identify a set of non-dominated points on the Pareto front. Additionally, a single optimal solution is identified using the TOPSIS method. There are twelve combinations of multi-objective optimization processes carried out. One of twelve combinations, for the five objective functions, the optimal values were determined as follows: total energy value of 495,965.751 joules, surface roughness of 0.285 μm, average noise of 78.788 dBA, total cost of $288.587, and carbon emission of 337,748.265 kgCO
2 . [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
44. Sustainability Drivers of Small and Medium-Sized Firms: A Review and Research Agenda.
- Author
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Korsakienė, Renata and Raišienė, Agota Giedrė
- Subjects
SUSTAINABILITY ,CARBON emissions ,REFERENCE sources ,PRODUCT safety - Abstract
While increasing awareness of issues such as raising energy prices, increasing customer concerns about the safety of products and services, and the reduction of carbon emissions influence firms, scarce studies focus on small and mediumsized enterprises (SME). This study seeks to systematically analyse the literature focused on sustainability of SMEs. Bibliometric analysis of 220 articles included in the WoS database (Clarivate Analytics) database and visualization with VOSviewer software let us reveal the cooccurrence of author keywords, bibliographic coupling sources and references, leading journals, and countries. The second step of the research is based on a systemic review of 25 articles with the purpose of reviewing empirical findings in the field of firm-level sustainability of SMEs. The analysis has led to thematic commonalities considering resources and capabilities, strategy, stakeholders, human capital, and innovations. The paper fills the literature gap on systematic analysis of SME and sustainability and develops recommendations on how to address prevailing research gaps. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
45. The Structure and Evolution of Renewable Energy Trade Networks in the RCEP Region: Application of SNA Method.
- Author
-
Jinyan Tian, Qianli Wu, Congying Sun, and Ziyang Liu
- Subjects
- *
RENEWABLE energy sources , *RENEWABLE energy costs , *CARBON emissions , *SUSTAINABILITY , *WIND power , *SOLAR energy , *HYDROELECTRIC power plants - Abstract
This paper utilizes social network analysis to examine the structural characteristics and trade dynamics of the renewable energy (hydropower, wind energy, and solar energy) trade network within the RCEP region from 2011 to 2020. The findings reveal: (1) The renewable energy trade network within the RCEP exhibits dynamism, heterogeneity, and an uneven development. The solar energy network is the most balanced and stable, while the wind energy network lags and shows marked fluctuations, with the hydropower network falling between these two. This demonstrates the diversity of energy trade within the region. (2) China, Singapore, and Japan are identified as the key exporting and importing countries, with Vietnam showing substantial growth potential. Individual analyses shed light on the stark disparities in trade status among nations, reflecting the diverse roles and future potential of member countries. (3) The QAP regression analysis reveals a significant influence of environmental pressure, particularly carbon dioxide emissions, on the renewable energy trade network. This study contributes to promoting environmental sustainability and energy security in the RCEP region and provides empirical evidence for global renewable energy trade strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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46. An Integrated Energy Demand Response Model Considering Source-Load Synergy and Stepped Carbon Trading Mechanism.
- Author
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Yi Zhang, Lin Li, and Wei Hu
- Subjects
- *
CARBON offsetting , *SUSTAINABLE development , *CARBON emissions , *ENERGY consumption , *ENERGY conservation , *GREENHOUSE gas mitigation , *COOLING loads (Mechanical engineering) , *SUSTAINABILITY - Abstract
Aiming at the problems of poor scheduling flexibility and insufficient carbon emission reduction capacity of the current integrated energy system, this paper proposes an optimization scheduling model of integrated energy demand response that combines source-load synergy with reward and punishment stepped carbon trading mechanism. Firstly, the integrated energy system operation architecture including electricity-heat-cooling energy was constructed to harmonize the energy generation side and consumption side and effectively improve the multi-energy complementary capability of the system. Secondly, the reward and punishment stepped carbon trading mechanism is established by combining the initial carbon quota allocation method and the actual carbon emission calculation theory, so that environmental friendliness and economic sustainability are effectively improved. Finally, to minimize the system operating cost, an integrated demand response optimal dispatch model that considers the characteristics of electric, thermal and cooling loads is constructed to determine the optimal dispatch scheme for the integrated energy system. The results of the calculation example indicate that the proposed integrated demand response model has the function of peak reduction and valley correction, energy conservation and carbon reduction, and provides a feasible solution for the integrated energy system optimal scheduling. [ABSTRACT FROM AUTHOR]
- Published
- 2024
47. The Impact of ESG Practices in Industry with a Focus on Carbon Emissions: Insights and Future Perspectives.
- Author
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Baratta, Alessio, Cimino, Antonio, Longo, Francesco, Solina, Vittorio, and Verteramo, Saverino
- Abstract
In recent years, interest in economic, environmental and social sustainability has increased significantly. Companies are gradually adopting behaviors aimed at achieving the Sustainable Development Goals, which represent a crucial aspect of the 2030 Agenda. In practice, they are currently incorporating organizational strategies that jointly consider environmental, social and corporate governance (ESG), with the aim of generating value for all stakeholders. This paper aims to review, through a recognized seven-step procedure, the current literature on the impact that ESG practices have in industry, with a focus on the reduction of carbon emissions. The results are extremely useful for both researchers and entrepreneurs. The bibliometric analysis shows that interest in the ESG paradigm has grown considerably in the last three years. Furthermore, through the analysis of 13 key documents, it emerges that (i) the European community is pushing significantly towards the adoption of ESG practices through new regulations, (ii) the link between industrial operations and carbon emissions can no longer be neglected within the factory of the future, and (iii) significant efforts are still needed to standardize, in terms of variables and KPIs, the adoption of ESG-centric strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
48. Sustainable fuzzy inventory model for deteriorating item with partial backordering along with social and environmental responsibility under the effect of learning.
- Author
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Kumar, Sharad, Sami, Saif, Agarwal, Seema, and Yadav, Dharmendra
- Subjects
BUSINESSPEOPLE ,BACK orders ,SOCIAL responsibility ,GREEN technology ,SUSTAINABILITY ,SUSTAINABLE investing ,CARBON emissions - Abstract
Mitigating carbon emissions and waste, along with economic objectives, are the major concerns for businesses and industries today. Current studies have underlined the requirement to shift the company from entrepreneur to ecopreneur with three goals, i.e., social, economic, and environmental sustainability. This paper investigates an economic order quantity model for deteriorating items with partial backordering on integrating the factors that affect the environment and society. Carbon emissions linked to operational activities of inventory can be reduced with the help of investment in green technology. Deterioration is controlled here with the help of investment in preservation technology. Dumping of waste without the proper mechanism has a hazardous effect on society. So, the cost is also included in this study to adopt the appropriate means to dispose of the wastage. Here, imprecise demand with selling price and advertisement cost-dependent demand is considered. This paper provides some theoretical results related to the concavity of the objective function and solution algorithm to obtain the optimal values of decision variables. A numerical analysis is presented to validate the model. Concavity is demonstrated graphically by considering the decision variables in a pair. Results indicate that as the capital investment in preservation technology rises from 3 to 8 units, around 83% and 90% declines in deterioration rate and disposable cost are observed, respectively. Due to the investment in preservation technology, the disposable cost reduces and profit increases to a certain level. A decline of 4% in carbon footprints is observed due to enhancing the investment in green technology by 33%. In the end, sensitivity analysis has been performed and managerial insights have been provided. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
49. Media Coverage of Carbon Neutral Organizations in Costa Rica: Environmental Sustainability Practices and Consumer Recognition.
- Author
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Valenciano-Salazar, Jorge A., André, Francisco J., and Rivero, Carlos
- Subjects
CARBON offsetting ,SUSTAINABILITY ,CONSUMERS ,ELECTRONIC newspapers ,CORPORATE image ,CARBON emissions ,SUSTAINABLE development reporting - Abstract
Copyright of Innovar: Revista de Ciencias Administrativas y Sociales is the property of Universidad Nacional de Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2023
- Full Text
- View/download PDF
50. Ecological sustainability and high-quality development of the Yellow River Delta in China based on the improved ecological footprint model.
- Author
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Wei, Zhongyong, Jian, Zhen, Sun, Yingjun, Pan, Fang, Han, Haifeng, Liu, Qinghao, and Mei, Yuang
- Subjects
ECOLOGICAL impact ,ECOLOGICAL models ,SUSTAINABILITY ,GREENHOUSE gas analysis ,ECOLOGICAL carrying capacity ,CARBON emissions - Abstract
Aiming at the traditional ecological footprint model, the improved ecological footprint of the carbon footprint effectively makes up for the singularity of the ecological footprint's consideration of carbon emissions, and plays an important role in promoting high-quality development and ecological sustainability. This paper selects 2015, 2018 and 2020 as important time points for the study, corrects the ecological footprint parameter factors based on net primary productivity (NPP), measures the ecological footprint after the improvement of the carbon footprint, studies the spatial and temporal variation in the ecological footprint at the 100-m grid scale with the support of IPCC greenhouse gas inventory analysis, and analyzes the current ecological conservation status of the Yellow River Delta. Additionally, in the context of a low carbon economy, the decoupling index of carbon emissions and GDP is extended to the evaluation and analysis of high-quality development. The study showed that (1) the ecological footprint of the Yellow River Delta has increased year by year, from 0.721 hm
2 ·person− 1 to 0.758 hm2 ·person− 1 , an average annual increase of 2.9%; the ecological carrying capacity has decreased from 0.40 hm2 ·person− 1 to 0.31 hm2 ·person− 1 , an overall decrease of 28.59%. (2) The overall ecological deficit of the Yellow River Delta grid is lightly overloaded, with most of the ecological surplus occurring in the northern and eastern parts of the study area and a few moderate and heavy overloads in the center of the core area where there is a lot of built-up land and the area is small and easy to gather. (3) Based on the low-carbon economy analysis, 2015, 2017 and 2020 reach absolute decoupling and are in the ideal scenario. However, in the rest of the years, carbon emissions and economic development are still in a large contradiction, and decoupling has fluctuated and varied greatly in the last six years. The effective combination of ecological footprint and low carbon economy analysis provides an important theoretical basis for improving ecological conservation and achieving high-quality development. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
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