Showing total 130 results

1. Paper Bags vis-à-vis LDPE Bags: Gleanings from Peer-reviewed E-LCA Publications.

Author

Lidbrand, Isabell, Venkatesh, G., and Lestelius, Magnus

Subjects

PAPER bags, LOW density polyethylene, CIRCULAR economy, SOCIOECONOMIC factors, ENERGY consumption, PLASTIC marine debris

Abstract

Copyright of Studia Ecologiae et Bioethicae is the property of Uniwerystet Kardynala Stefana Wyznskiege w Warzawie 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

2. Resource value flow analysis of paper-making enterprises: A Chinese case study.

Author

Li, Zhen, Zeng, Huixiang, Xiao, Xu, Cao, Jin, Yang, Chaoji, and Zhang, Kaixin

Subjects

*PAPER industry, *PAPERMAKING, *LIABILITY for environmental damages, *COST accounting, *SUSTAINABLE development, *ENERGY consumption

Abstract

Abstract Papermaking enterprises are currently under both environmental pressure and economic pressure for sustainable development in China. Thus, the efficiency, effectiveness, and benefits of resource utilization need to be improved. High-consumption and high-pollution companies should manufacture paper using sustainable methods. This study highlights a resource value flow analysis from the circular economy perspective, developing an extension of material flow cost accounting and modifying it by accounting for environmental damage as well as economic benefits. With reference to the Plan-Do-Check-Act cycle, this specific case study was conducted to verify the comprehensive utility of resource value flow analysis by establishing decision-making prioritization according to the dualistic diagnosis of "internal resource loss–external environmental damage costs." In general, applying a resource value flow analysis can both reduce resource consumption and minimize environmental damage, enhancing the sustainable development of a process industry with limited resources. Highlights • Material flows and value flows form an interactive unit in the resource value flow analysis model. • The resource value flow analysis model extends the environmental dimension of material flow cost accounting. • A dualistic diagnosis of "internal resource loss and external environmental damage costs" can achieve both economic profits and environmental benefits. • The Plan-Do-Check-Act cycle was introduced to strengthen the practical application of the resource value flow analysis. [ABSTRACT FROM AUTHOR]

Published

2019

3. Sugarcane Industry Waste Recovery: A Case Study Using Thermochemical Conversion Technologies to Increase Sustainability.

Author

Nunes, Leonel J. R., Loureiro, Liliana M. E. F., Sá, Letícia C. R., and Silva, Hugo F. C.

Subjects

WASTE recycling, BAGASSE, SUGARCANE industry, SUGARCANE, BIOMASS energy, ENERGY consumption, PAPER industry

Abstract

The sugarcane industry has assumed an increasingly important role at a global level, with countries such as Brazil and India dominating the field. However, this causes environmental problems, since the industry produces large amounts of waste, such as sugarcane bagasse. This by-product, which is energetically partially recovered in sugar mills and in the pulp and paper industry, can make a significant contribution to the general use of biomass energy, if the usual disadvantages associated with products with low density and a high moisture content are overcome. From this perspective, thermochemical conversion technologies, especially torrefaction, are assumed to be capable of improving the fuel properties of this material, making it more appealing for potential export and use in far-off destinations. In this work, sugarcane samples were acquired, and the process of obtaining bagasse was simulated. Subsequently, the bagasse was dried and heat-treated at 200 and 300 °C to simulate the over-drying and torrefaction process. Afterward, product characterization was performed, including thermogravimetric analysis, elemental analysis, calorimetry, and energy densification. The results showed significant improvements in the energy content, from 18.17 to 33.36 MJ·kg−1 from dried bagasse to torrefied bagasse at 300 °C, showing that despite high mass loss, there is potential for a future value added chain for this waste form, since the increment in energy density could enhance its transportation and use in locations far off the production site. [ABSTRACT FROM AUTHOR]

Published

2020

4. MSW for Energy Recovery - 2020-2035 Scenarios for a Large City.

Author

Liang Wang, Birgen, Cansu, and Becidan, Michaël

Subjects

REFUSE as fuel, RENEWABLE energy sources, ENERGY consumption, ENERGY demand management, CIRCULAR economy

Abstract

The generation rate, total amount and composition of Municipal Solid Waste (MSW) can be affected by many parameters such as population and economy growth, unfolding of Circular Economy, implementation of new regulations for material recycling and development of sorting and recycling technology. Such changes will also affect measures to treat/utilize the MSW as well as the handling of the residues, primarily ashes. In this work, three scenarios on the future MSW sent to energy recovery for the period 2020-2035 have been developed using detailed MSW composition data from a large Scandinavian city, namely Oslo, Norway. The amount and composition of the MSW sent to energy recovery (incineration) were estimated with consideration of boundary conditions including population growth, improvement of sorting efficiency and increase of recycling rate. This work also evaluated key properties of the MSW sent to energy recovery under different scenarios, including heating value, volatile matter and carbon content and concentration of key ash-forming elements relevant to the operation of an incinerator and ash valorisation. The results revealed that important combustion properties of MSW to incineration might be affected by increased sorting and recycling, towards lower energy and ash content with the conditions set under studied scenarios. Scenario analysis revealed that changes in the fraction of plastic has the largest effect on the carbon content and heating value of the MSW. In addition, changes in the content of ash-forming elements in the MSW were identified, which are the results of the separate collection of an ash-rich subfraction, i.e., food waste. [ABSTRACT FROM AUTHOR]

Published

2023

5. Assessing the Impact of Recycled Building Materials on Environmental Sustainability and Energy Efficiency: A Comprehensive Framework for Reducing Greenhouse Gas Emissions.

Author

Almusaed, Amjad, Yitmen, Ibrahim, Myhren, Jonn Are, and Almssad, Asaad

Subjects

GREENHOUSE gas mitigation, WASTE products as building materials, CONSTRUCTION materials, GREENHOUSE gases, ENERGY consumption, ENVIRONMENTAL management, SUSTAINABLE construction, SUSTAINABILITY

Abstract

In this study, we critically examine the potential of recycled construction materials, focusing on how these materials can significantly reduce greenhouse gas (GHG) emissions and energy usage in the construction sector. By adopting an integrated approach that combines Life Cycle Assessment (LCA) and Material Flow Analysis (MFA) within the circular economy framework, we thoroughly examine the lifecycle environmental performance of these materials. Our findings reveal a promising future where incorporating recycled materials in construction can significantly lower GHG emissions and conserve energy. This underscores their crucial role in advancing sustainable construction practices. Moreover, our study emphasizes the need for robust regulatory frameworks and technological innovations to enhance the adoption of environmentally responsible practices. We encourage policymakers, industry stakeholders, and the academic community to collaborate and promote the adoption of a circular economy strategy in the building sector. Our research contributes to the ongoing discussion on sustainable construction, offering evidence-based insights that can inform future policies and initiatives to improve environmental stewardship in the construction industry. This study aligns with the European Union's objectives of achieving climate-neutral cities by 2030 and the United Nations' Sustainable Development Goals outlined for completion by 2030. Overall, this paper contributes to the ongoing dialogue on sustainable construction, providing a fact-driven basis for future policy and initiatives to enhance environmental stewardship in the industry. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mechanical Recycling of Carbon Fiber-Reinforced Polymer in a Circular Economy.

Author

Aldosari, Salem M., AlOtaibi, Bandar M., Alblalaihid, Khalid S., Aldoihi, Saad A., AlOgab, Khaled A., Alsaleh, Sami S., Alshamary, Dham O., Alanazi, Thaar H., Aldrees, Sami D., and Alshammari, Basheer A.

Subjects

CARBON fiber-reinforced plastics, CIRCULAR economy, COMPOSITE materials, CARBON fibers, CARBON-based materials, ENERGY consumption, FIBROUS composites

Abstract

This review thoroughly investigates the mechanical recycling of carbon fiber-reinforced polymer composites (CFRPCs), a critical area for sustainable material management. With CFRPC widely used in high-performance areas like aerospace, transportation, and energy, developing effective recycling methods is essential for tackling environmental and economic issues. Mechanical recycling stands out for its low energy consumption and minimal environmental impact. This paper reviews current mechanical recycling techniques, highlighting their benefits in terms of energy efficiency and material recovery, but also points out their challenges, such as the degradation of mechanical properties due to fiber damage and difficulties in achieving strong interfacial adhesion in recycled composites. A novel part of this review is the use of finite element analysis (FEA) to predict the behavior of recycled CFRPCs, showing the potential of recycled fibers to preserve structural integrity and performance. This review also emphasizes the need for more research to develop standardized mechanical recycling protocols for CFRPCs that enhance material properties, optimize recycling processes, and assess environmental impacts thoroughly. By combining experimental and numerical studies, this review identifies knowledge gaps and suggests future research directions. It aims to advance the development of sustainable, efficient, and economically viable CFRPC recycling methods. The insights from this review could significantly benefit the circular economy by reducing waste and enabling the reuse of valuable carbon fibers in new composite materials. [ABSTRACT FROM AUTHOR]

Published

2024

7. Energy efficiency as a driver of the circular economy and carbon neutrality in selected countries of Southern Europe: a soft computing approach.

Author

Ramčilović Jesih, Alma, Šimić, Goran, Konatar, Ljubiša, Brljak, Zoran, and Šprajc, Polona

Subjects

CIRCULAR economy, ENERGY consumption, SOFT computing, CARBON offsetting, COAL-fired power plants, EUROPEAN Union membership

Abstract

Background: The main goal of the paper is to define the level of energy efficiency in the economies of selected countries in the Balkan region that have opted for the EU Green Deal, a circular economy, and a transition to carbon neutrality. Energy efficiency, as a determinant of carbon neutrality, was selected as an indicator for analysis because it records particularly unfavorable indicators in the region under observation. The research was carried out on a sample of seven Balkan countries and their surrounding areas. An initial qualitative analysis was followed by a quantitative analysis based on a combination of statistical methods and soft computing. Six indicators were selected for the analysis covering a period of 30 years (1990–2020). Results: A significant obstacle to the green transition and the region's transition to a circular economy and carbon neutrality is energy efficiency and energy related pollution—the reliance of most countries on coal-fired thermal power plants for electricity generation. The research results showed the following: (a) the degree of economic development and membership in the European Union are not significantly related to the level of energy efficiency; (b) most of the sampled countries are in the initial stages of introducing activities to achieve carbon neutrality; and (c) only Slovenia has documented consistent indicators and evident advancements in its efforts to achieve carbon neutrality. Based on the research findings, proposals for improvements were made in the direction of policymaking and in a methodological sense. Conclusions: The implementation of circularity and carbon neutrality as a long-term goal of the European Union is not necessarily related to the level of economic development, nor can its trajectory be exclusively ascertained by means of data processing and monitoring. A more precise understanding of a carbon-neutral future can be achieved through the incorporation of qualitative data to a greater extent, a realistic evaluation of historical facts and their repercussions, as well as projections of the effects that reality and global developments after 2022 will have on each country. [ABSTRACT FROM AUTHOR]

Published

2024

8. Transition of Medical Waste Management (MWM) from Romania to the Circular Economy Paradigm: Expectations and Objective Limits.

Author

Bostan, Patricia, Lazăr, Cristina, and Bostan, Ionel

Subjects

CIRCULAR economy, MEDICAL wastes, WASTE management, SUSTAINABILITY, MEDICAL equipment reuse, TRANSITION economies, ENERGY consumption

Abstract

The circular economy and medical waste management (MWM) are important for protecting the environment and human health. In the healthcare sector, the circular economy can be applied by reusing medical equipment, recycling materials from medical waste and adopting more sustainable practices such as reducing energy consumption and using more environmentally friendly materials. Clearly, reusing medical equipment reduces the amount of medical waste and can reduce costs. The authors intend through this paper to address MWM in Romania within a more sustainable circular system, attempting to identify the pros and cons, as well as the limitations, of a massive shift of MWM to circular economy principles. The structure of this paper includes, following this introductory part (1): Theoretical background (2), Research methodology (3), Circular economy and the healthcare waste management system (4), Approaching healthcare waste management within a more sustainable circular system (5), Limits of the massive shift of MWM to circular economy principles (6) and Conclusions (7). [ABSTRACT FROM AUTHOR]

Published

2023

9. Smart Readiness Indicator (SRI) as a Decision-Making Tool for Low Carbon Buildings.

Author

Chatzikonstantinidis, Konstantinos, Giama, Effrosyni, Fokaides, Paris A., and Papadopoulos, Agis M.

Subjects

BUILDING repair, CLIMATIC zones, PREPAREDNESS, TECHNOLOGICAL innovations, INTELLIGENT buildings, ENERGY consumption

Abstract

According to the European Energy Efficiency Directive for Buildings, member states are required to develop long-term strategies to adopt more sustainable, secure, and decarbonized energy systems in buildings by 2050. In this line of approach, an optional common regime has been established to define and calculate the smart readiness of buildings and assess their ability to adapt their operation to the needs of the occupants and the network. Thus, the smart readiness indicator (SRI) emerged, which assesses technological readiness by examining the presence and evaluation of the functionality level of various smart services, aiming at energy savings, the ability of the building to respond to users' needs, and energy flexibility. This paper focuses on examining the SRI calculation methodology's application to an office building, which is currently being deeply renovated. Initially, there is an analysis of the SRI, its calculation methodology, and its goals. This is followed by the practical calculation part of the SRI for a typical office building located in Greece and belonging to the climate zone of southern Europe. The results indicate that the SRIs application is not a straightforward issue since parameters that need to be considered are not regulated to the same degree. On the other hand, SRI can provide a stimulus for exploiting the renovation potential of buildings, precisely by integrating the various aspects and linking those to the use of innovative technologies. [ABSTRACT FROM AUTHOR]

Published

2024

10. Creating Value via the Circular Economy: Practices in the Tourism Sector.

Author

Axhami, Mirdaim, Ndou, Valentina, Milo, Veronica, and Scorrano, Paola

Subjects

CIRCULAR economy, TOURISM, SUSTAINABILITY, SUSTAINABLE tourism, ENERGY consumption, SUSTAINABLE consumption, ECONOMIC efficiency, INDUSTRIAL energy consumption

Abstract

Among major international research and practice issues, the issue of the circular economy has emerged recently as "an alternative economic paradigm" to address the current needs of the present and to search for innovative solutions for the future. The objective of this paper is to explore the initiatives and practices of the circular economy that could be actuated by tourism firms with the aim of understanding the value that could be created and its contribution to sustainable development based on decarbonization, energy efficiency, and the use of renewable sources. To achieve this objective, an in-depth, qualitative case study of a tourism resort is presented and analyzed to identify the key CE practices activated, with the aim of creating greater value and contributing to sustainable production and consumption. The results show that the main CE practices implemented focus primarily on enhancing resource efficiency, reducing emissions, and minimizing environmental impacts. This research also emphasizes the benefits that the CE provides in terms of economic, environmental, and social efficiency. The study enriches the relevance of CE and the sustainability approach for the tourism sector by highlighting the main value opportunities that tourism firms could grasp from the application of CE. Also, the paper contributes to providing practical suggestions regarding possible initiatives and practices that tourism managers could adopt for deploying CE practices. [ABSTRACT FROM AUTHOR]

Published

2023

11. Challenges of the green transition for the recovery of the Western Balkans.

Author

Ignjatović, Jelena, Filipović, Sanja, and Radovanović, Mirjana

Subjects

CIRCULAR economy, MINE waste, RENEWABLE energy sources, ENERGY consumption, WESTERN countries, ENVIRONMENTAL protection, ENERGY industries

Abstract

Background: The aim of this paper is to reconsider the necessity for the green transition and the key preconditions for the implementation of a circular economy in Western Balkan countries. With the objective of the research in mind, the method of analysis and synthesis was applied to determine (1) regulatory and institutional prerequisites for the green transition; (2) the need for the Western Balkan countries to redefine the model of sustainable economic growth towards the green transition; (3) the development opportunities for recovery defined in the Green Agenda for the Western Balkans; and (4) the possibility of implementing the circular economy in the Western Balkans. Main text: The main findings of the research indicate that: (1) the countries of the Western Balkan region, following the example of the EU, should define a national strategic approach to the green transition with an accompanying action plan and regulatory framework; (2) the biggest challenge of the green transition is the reform of the energy sector and the restructuring of the energy-intensive economy; (3) the countries have untapped potential in renewable energy sources and report the improvement of energy efficiency; (4) the circular economy can boost the green transition, because the countries of the region have a five-time lower value of resource productivity than the average of the EU, while the generation of waste (excluding major mineral wastes) per GDP unit is lower compared to the EU; (5) cross-sectoral governance should be more coordinated. Conclusions: The green transition might be a development opportunity for the Western Balkans, which should enable sustainable economic growth as well as energy security and environmental protection. However, the implementation of the Green Agenda is not easy, because the region faces the problem of underdeveloped regulatory and institutional capacities that might provide not only the base for long-term planning but also financial resources for the efficient implementation of projects. In addition, it is essential to understand the principles of the Green Agenda and the interaction of all activities that should enable the achievement of defined goals. [ABSTRACT FROM AUTHOR]

Published

2024

12. Evaluation and Mitigation of Carbon Footprint of Medical Inhalers.

Author

Sosnowski, Tomasz R., Wyleziński, Daniel, and Emeryk, Andrzej

Subjects

ECOLOGICAL impact, RENEWABLE energy transition (Government policy), CIRCULAR economy, ENERGY industries, ENERGY consumption

Abstract

Pressurized metered dose inhalers (pMDIs) contain propellants with high Global Warming Potential. This paper compares six pMDI products from the Polish market in terms of their contribution to environmental burden by analyzing the release and residuals of greenhouse gases during use and disposal. The results show that these similar medical products have markedly different carbon footprint values (12-22.5 kg CO2e), which might be mitigated by certain measures involving technical and legal actions. [ABSTRACT FROM AUTHOR]

Published

2023

13. A Framework towards Resource Integration and Energy Efficiency Auditing with Zero Hazardous Discharge Programme.

Author

Maffini, Andrea, Bonvicini, Giorgio, Venturin, Alessandro, Morando, Marco, Saba, Antonio, and Fabiano, Bruno

Subjects

ENERGY consumption, INTERNATIONAL financial institutions, ENVIRONMENTAL impact analysis, CLIMATE change, GREENHOUSE gas mitigation, CIRCULAR economy

Abstract

Purpose of this paper is to outline a framework for resources and energy efficiency auditing activities and present its application in field studies carried out in Italy and in Eastern Europe, to support Companies and International Financial Institutions (IFIs) in the implementation of actions to improve industrial performances and reduce global environmental impacts. Among environmental considerations, climate change mitigation and adaptation aspects are included, as well as circular economy, pollution prevention and preservation of biodiversity. Within this context, this study focuses on the peculiar case of the textile industry, which is characterized by a significant use of energy and resources, mainly water and chemicals, thus involving the respect of the Zero Discharge of Hazardous Chemicals Programme. The auditing approach is conceived as a step-by step sequence of activities, starting from the Job Assignment from the Client based on specific Terms of Reference, followed by the submission of a data collection questionnaire, tailored to the specific textile industry, site survey with company managers and concluded with the elaboration of the technical report. In order to demonstrate the capability of the approach, the applicative section of this paper will present results in terms of technical and managerial actions to reduce energy and water consumption and GHGs emissions, as well as to control water pollution and waste generation and disposal. [ABSTRACT FROM AUTHOR]

Published

2022

14. Classification of Industrial Sectors Based on Their Profiles of Greenhouse Gas Emissions and Policy Implications.

Author

Retegi-Albisua, Jabier, Igartua-López, Juan Ignacio, and Kamp, Bart

Subjects

GREENHOUSE gases, GREENHOUSE gas mitigation, VALUE engineering, ENERGY consumption, PETROLEUM refining, RATE of return

Abstract

Purpose: This article determines the volume of greenhouse gases emitted by a range of industrial manufacturing sectors in order to give direction to public emission reduction programmes and increasing the impacts of the latter. Design/methodology/approach: To this end, it applies a classification of industrial manufacturing sectors based on their greenhouse gas emissions profiles. By making use of economic data on the consumption of energy sources and a conversion process, we obtain an estimation of greenhouse gas emissions, and consequently a profile of the direct/indirect emissions, concentration of emissions, total emissions and electrification level of each sector. Finally, this allowed us to segment the sectors into four groups. Findings: By grouping the sectors into four segments we reveal a series of group-specific characteristics, which serves as a basis for corresponding greenhouse gas reduction programmes. Special attention should be given to the segment that features a large amount of emissions concentrated in a relatively low number of firms and a low level of electrification, while making a disproportional use of public funds as compared to the volume of their emissions. Research limitations/implications: This research followed an aggregate (macro) approach, which limits the possibilities to interpret the results from a NACE level towards individual companies pertaining to a specific sector. This applies also to the use of average values for conversion factors. Take note also that some big emitter sectors, such as extractive industries and petroleum refining industries, are not included in the study. Practical implications: Public programmes should consider different approaches to reducing greenhouse gas emissions based on sectoral segmentation. General recommendations are proposed for each of the identified segments. Social implications: Improved public programmes can foster the reduction of greenhouse gas emissions and the United Nation's Sustainable Development Goals 7 and 12. Originality/value: The methodology proposed in this paper allows pointing out sectors where return on investments in greenhouse gas reduction would be highest. [ABSTRACT FROM AUTHOR]

Published

2023

15. Towards Waste-to-Energy-and-Materials Processes with Advanced Thermochemical Combustion Intelligence in the Circular Economy.

Author

De Greef, Johan, Hoang, Quynh N., Vandevelde, Raf, Meynendonckx, Wouter, Bouchaar, Zouhir, Granata, Giuseppe, Verbeke, Mathias, Ishteva, Mariya, Seljak, Tine, Van Caneghem, Jo, and Vanierschot, Maarten

Subjects

CIRCULAR economy, COMBUSTION, WASTE recycling, ENERGY consumption, INORGANIC compounds, INCINERATION

Abstract

Waste-to-energy processes remain essential to ensure the safe and irreversible removal of materials and substances that are (or have become) unsuitable for reuse or recycling, and hence, to keep intended cycles of materials in the circular economy clean. In this paper, the behavior of inorganic compounds in waste-to-energy combustion processes are discussed from a multi-disciplinary perspective, against a background of ever tightening emission limits and targets of increasing energy efficiency and materials recovery. This leads to the observation that, due to the typical complexity of thermally treated waste, the intelligence of combustion control systems used in state-of-the-art waste-to-energy plants needs to be expanded to better control the behavior of inorganic compounds that typically end up in waste furnaces. This paper further explains how this goal can be achieved by developing (experimentally validated) predictive numerical models that are engineering-based and/or data-driven. Additionally, the significant economic potential of advanced thermochemical intelligence towards inorganic compounds in waste-to-energy combustion control systems is estimated on the basis of typical operational figures. [ABSTRACT FROM AUTHOR]

Published

2023

16. Impacts of sustainable consumption and production initiatives in energy and waste management sectors: examples from India.

Author

Singhal, Shaleen, Thapar, Sapan, Kumar, Meenakshi, and Jain, Sourabh

Subjects

WASTE management, SUSTAINABLE consumption, CONSTRUCTION & demolition debris, ENERGY management, CIRCULAR economy, ENERGY consumption, SUSTAINABILITY, URBAN growth

Abstract

Energy and waste management sectors are considered important for the country's progress towards adopting sustainable consumption and production (SCP) practices and achieving Sustainable Development Goals. However, the rapid pace of urbanization, energy-intensive growth approaches, and generation of large quantities of waste have led to severe environmental degradation of cities in India. While the government has taken several initiatives for increasing resource efficiency, limited research has been done in an Indian context to explore the policy and institutional factors. The paper focuses on challenges relating to policy enablers within the energy management in buildings and construction and demolition waste sectors; 28 semi-structured interviews were conducted with stakeholders associated with both these sectors. The findings indicate that though India has been integrating climate change measures into its national policies and enhancing the domestic market's readiness for a circular economy, successful implementation of policy framework(s) urgently requires lifestyle and behavioural changes in the society. The study further identified the role of key stakeholders including government, businesses, and consumers, for transition to a low-carbon economy for both these sectors. This paper presents a bottom-up approach to understand the changes required in the enabling environment for the uptake of SCP practices that can be adapted by other emerging economies in the Asia Pacific region for building resource efficiency. The importance of soft factors relating to institutional capacities and governance structure is raised by the analysis in this paper. [ABSTRACT FROM AUTHOR]

Published

2022

17. New Resources for Sustainable Thermal Insulation Using Textile and Agricultural Waste in a New Circular Economy Approach: An Overview.

Author

Biyada, Saloua, Merzouki, Mohammed, and Urbonavičius, Jaunius

Subjects

THERMAL insulation, CIRCULAR economy, AGRICULTURAL wastes, TEXTILE waste, INSULATING materials, ENERGY consumption of buildings, ENERGY consumption

Abstract

Energy conservation has emerged as a strategic target worldwide, which will enable the protection of the environment and the preservation of natural resources. Energy consumption in buildings for heating and cooling is considered one of the main sources of energy consumption in several countries. For this reason, there is an ongoing search for appropriate alternatives to preserve energy and reduce energy losses. To overcome this challenge, thermal insulation is becoming increasingly essential to save energy. Although a large number of insulation materials are used commercially, this sector still faces various challenges such as cost, thermal and mechanical properties, the end-of-life cycle, as well as health issues, etc. Furthermore, the harmful impact of buildings on the environment and health issues should be considered not only in relation to the energy expended whilst using them but also in relation to the energy performance materials they are constructed from. The insulation materials commonly used in the construction industry today are polymer-based materials such as polystyrene and polyurethane foam. These materials have a critical impact on the environment. In light of these results, several researchers have concluded that it is imperative to develop insulating materials with outstanding properties that have a lower impact on the environment and are relatively affordable. Agricultural and/or industrial wastes, and even natural fibers, are increasingly used as green insulation materials, as they are an eco-friendly, cost-effective alternative to conventional oil-based materials, as well as the fact that their end-of-life cycle does not pose a critical problem. This review paper discusses the several renewable resources and industrial wastes developed as thermal insulations. Furthermore, it sheds light on composite materials used as construction materials, as well as their end-of-life cycle. [ABSTRACT FROM AUTHOR]

Published

2023

18. Simplified Multi-Life Cycle Assessment at the Urban Block Scale: GIS-Based Comparative Methodology for Evaluating Energy Efficiency Solutions.

Author

Costantino, Carlo, Benedetti, Anna Chiara, and Gulli, Riccardo

Subjects

ENERGY consumption, CIRCULAR economy, ENERGY consumption of buildings, CONSUMPTION (Economics), COMMERCIAL buildings

Abstract

The Italian residential building stock consists of 12.2 million buildings, with 7.2 constructed post-World War II during the economic boom. These structures were designed without specific regulations for seismic safety, fire resistance, and energy efficiency, and today lies the current state of strong obsolescence. Therefore, energy refurbishment may not always be the best cost/benefit solution due to these intrinsic issues. Consequently, the transition to construction systems based on circular economy principles brings new opportunities and becomes key to proposing replacement interventions for this heritage. This paper presents a comparative GIS-based bottom-up approach to evaluate the lifecycle impact of residential building blocks, encompassing energy, environmental, and economic aspects. Two tools are introduced: one for measuring energy consumption and the other for quantifying the quantities of materials stored in buildings. This methodology permits comparing the new circular buildings and different refurbishment scenarios to identify the most suitable solution from an environmental impact and financial point of view. The application of a case study, a residential urban block in Bologna, built in 1945–1965, highlights how the demolition and reconstruction scenario based on circular economy principles presents the lowest environmental impacts and is economically competitive compared to standard deep renovation techniques. [ABSTRACT FROM AUTHOR]

Published

2023

19. Energy-based industrial symbiosis: a literature review for circular energy transition.

Author

Fraccascia, Luca, Yazdanpanah, Vahid, van Capelleveen, Guido, and Yazan, Devrim Murat

Subjects

INDUSTRIAL ecology, RENEWABLE energy transition (Government policy), MANUFACTURING processes, ENERGY consumption, INDUSTRIAL energy consumption

Abstract

Nowadays, industrial symbiosis (IS) is recognized as a key strategy to support the transition toward the circular economy. IS deals with the (re)use of wastes produced by a production process as a substitute for traditional production inputs of other traditionally disengaged processes. In this context, this paper provides a systematic literature review on the energy-based IS approach, i.e., IS synergies aimed at reducing the amount of energy requirement from outside industrial systems or the amount of traditional fuels used in energy production. This approach is claimed as effective aimed at reducing the use of traditional fuels in energy production, thus promoting a circular energy transition. 682 papers published between 1997 and 2018 have been collected, and energy-based IS cases have been identified among 96 of these. As a result of the literature review, three categories of symbiotic synergies have been identified: (1) energy cascade; (2) fuel replacement; and (3) bioenergy production. Through the review, different strategies to implement energy-based IS synergies are highlighted and discussed for each of the above-mentioned categories. Furthermore, drivers, barriers, and enablers of business development in energy-based IS are discussed from the technical, economic, regulatory, and institutional perspective. Accordingly, future research directions are recommended. [ABSTRACT FROM AUTHOR]

Published

2021

20. ISSUES AND TRENDS OF PROGRESS TOWARDS SUSTAINABLE DEVELOPMENT GOALS IN ROMANIA.

Author

FRONE, Dumitru Florin and FRONE, Simona

Subjects

ECONOMIC expansion, WASTE management, ENERGY consumption, PROGRESS, ECONOMIC impact

Abstract

The paper resumes research on the current dimensions and implications of a sustainable development. Taking in consideration some of the latest theoretical insights and strategic approaches of the European Union for progress towards the Sustainable Development Goals (SDG), a few trends and issues are analysed, also in the particular case of Romania. The close inter-correlation between most of the SDGs is highlighted, since they cannot be all reviewed here. For a more practical purpose, there will be analyses on the required and actual evolution in reducing the Romanian gap of some SDG progress indicators. Monitoring SDG 12 in an EU context focuses on progress made in decoupling environmental impacts from economic growth, in decreasing energy consumption and in tackling waste generation and management. The conclusions refer to conceptual or applied sustainable development insights and policy recommendation for promoting a more sustainable production and consumption pattern in a circular economy. [ABSTRACT FROM AUTHOR]

Published

2020

21. A New Framework for Circular Refurbishment of Buildings to Operationalize Circular Economy Policies.

Author

Fernandes, Joana and Ferrão, Paulo

Subjects

CIRCULAR economy, TAX incentives, BUILDING permits, ENERGY consumption, LOCAL government

Abstract

The current policies aimed at promoting the decarbonization of existing buildings under the principles of the circular economy are in need of practical measures tailored to local conditions to increase their effectiveness. The lack of standard practices for assessing buildings' refurbishment strategies toward energy efficiency and CE principles reflects this reality. To tackle this issue, a new framework for refurbishing circular buildings, is proposed in this paper, based on circular procurement and incorporating a lifecycle perspective. This framework articulates a dialogue between local authorities and private stakeholders through a set of steps that encompass building mapping, selective disassembly, (re)design, and (re)build practices, providing opportunities to implement policy-based incentives. The application of the framework within the Portuguese context demonstrates the potential to identify critical moments within the refurbishment process that can materialize in a new set of CE policy actions to be implemented at the building level. These policies are aligned with local construction permitting procedures and take advantage of the resources and incentives offered by the local administration, such as tax incentives. [ABSTRACT FROM AUTHOR]

Published

2023

22. Facts and Figures on Aspects of Waste Management in Middle East and North Africa Region.

Author

Thabit, Qahtan, Nassour, Abdallah, and Nelles, Michael

Subjects

WASTE management, CIRCULAR economy, GROSS domestic product, ENERGY consumption

Abstract

The waste management field in Middle Eastern and North African countries suffers from multiple drawbacks and chronic problems that require strategic solutions and collaboration among various institutions. Due to a lack of data, a financial deficit, limited economic resources for the municipalities, and singular treatment processes, until recently, waste has been dealt with as garbage that needs to be disposed of, while, in a large number of developed countries, waste now represents a substantial economic resource and an important source of materials that can be reinserted into the industrial sector. This paper presents a review of several aspects and sectors that are directly related to waste generation and the current situation regarding the waste management system in the Middle East and North Africa (MENA) region in terms of composition, generated amount/capita, existing treatment routes, and institutional frameworks. Furthermore, gross domestic production and population growth are specified as critical factors governing the waste sector in the region. Such data and information will increase the possibility of drawing a roadmap to convert the current waste treatment stream into a material flow concept and circular economy. The energy sector (energy consumption) is also considered to illustrate the potential role of waste if incineration technology (energy recovery from waste) is realized as a radical solution for the waste system in the region. Following a review of the literature, the main challenges in the waste management sector that need to be solved are summarized. The novelty of this work is two-fold. First, it elucidates the connection between gross domestic product (GDP), waste composition, and waste generation. According to the literature, countries with a high GDP produce a greater amount of waste (around 1.5–2.7 kg/capita/day) with a lower organic share of waste composition of around 40%, as they have an increased lifestyle rate. Second, a review of energy consumption per capita illuminates the essential role of waste as a source of energy. [ABSTRACT FROM AUTHOR]

Published

2023

23. Information Technology and Digital Sufficiency for Building the Sustainable Circular Economy.

Author

Akberdina, Victoria, Strielkowski, Wadim, Linder, Natalia, Kashirin, Sergey, and Shmeleva, Lyudmila

Subjects

CIRCULAR economy, INFORMATION technology, DIGITAL technology, ENERGY consumption

Abstract

Information technologies possess the significant potential to improve the efficiency of resources and optimize energy usage, as well as make a significant contribution to the sustainable circular economy (CE). The concept of digital sufficiency provides a framework for understanding how information technology can be part of significant achievements in the circular economy, especially when embraced by business companies. Moreover, the possibility of the implementation of closed-loop resources has become possible with the development of digital manufacturing technologies. However, the research of establishing the CE in SMEs, especially in fossil-energy-abundant countries, such as the Russian Federation, is quite limited. Our paper fills in this gap by studying the adoption of CE practices as well as the investments for promoting CE in Russian SMEs through such factors as the existence of R&D, bank loans, and access to grants at the national and international level. It achieves this based on the data sample of 314 managers of Russian SMEs. Our results demonstrate that the investment or existence of R&D in SMEs and knowledge of CE as well the governmental funding and access to wider markets all together tend to have a significant and positive effect on implementing and investing into CE in SMEs, while the administrative barriers yield a small but negative effect. These results might be helpful for the relevant stakeholders in order to identify factors catalyzing attention from both the SMEs engaged in CE transitions, as well as help the decision makers wishing to foster the transformation of the SMEs to a circular economy. We can conclude that supporting SMEs (both financially and via increasing their public awareness) to make their own transitions towards CE has a societal effect that can speed up a greener transition and significantly contribute to increasing energy efficiency. [ABSTRACT FROM AUTHOR]

Published

2023

24. Carbon Circular Utilization and Partially Geological Sequestration: Potentialities, Challenges, and Trends.

Author

Hou, Zhengmeng, Luo, Jiashun, Xie, Yachen, Wu, Lin, Huang, Liangchao, and Xiong, Ying

Subjects

CARBON sequestration, GEOLOGICAL carbon sequestration, RENEWABLE energy transition (Government policy), CIRCULAR economy, CARBON offsetting, ENERGY consumption, UNDERGROUND storage

Abstract

Enhancing carbon emission mitigation and carbon utilization have become necessary for the world to respond to climate change caused by the increase of greenhouse gas concentrations. As a result, carbon capture, utilization, and storage (CCUS) technologies have attracted considerable attention worldwide, especially in China, which plans to achieve a carbon peak before 2030 and carbon neutrality before 2060. This paper proposed six priorities for China, the current world's largest carbon emitter, to achieve its dual carbon strategy in the green energy transition process. We analyzed and summarized the challenges and potentialities of conventional carbon utilization (CU), carbon capture utilization (CCU), and CCUS. Based on the current development trend, carbon dioxide capture, circular utilization, and storage (CCCUS) technology that integrates carbon circular utilization and partial sequestration, with large-scale underground energy storage were proposed, namely biomethanation. Technically and economically, biomethanation was believed to have an essential contribution to China's renewable energy utilization and storage, as well as the carbon circular economy. The preliminary investigation reveals significant potential, with a corresponding carbon storage capacity of 5.94 × 108 t~7.98 × 108 t and energy storage of 3.29 × 1012 kWh~4.42 × 1012 kWh. Therefore, we believe that in addition to vigorously developing classical CCUS technology, technical research and pilot projects of CCCUS technology that combined large-scale underground energy storage also need to be carried out to complete the technical reserve and the dual-carbon target. [ABSTRACT FROM AUTHOR]

Published

2023

25. Study on the slurrying mechanism of coal water slurry prepared from coal gasification wastewater.

Author

Li, Dedi, Feng, Biao, Xu, Chenxuan, Chen, Cong, Wang, Jianbin, and Huang, Huimin

Subjects

COAL gasification, SEWAGE, COAL, SLURRY, CIRCULAR economy, ENERGY consumption

Abstract

The coal gasification process produces a large amount of wastewater which is seriously polluted and difficult to biochemically treat. The regasification of coal water slurry produced from gasification wastewater meets the requirements of clean and efficient use of energy and the concept of circular economy. In this paper, the slurryability of coal water slurry prepared with gasification wastewater was measured, and the influence mechanism of organic matter, metal ions, and ammonia nitrogen components in coal gasification wastewater on slurryability has been studied. Results show that (a) Coal water slurry can be prepared with gasification wastewater, and the composition of wastewater has a great influence on the slurryability. (b) Phenols and alcohols in wastewater are not conducive to slurryability, while urethane in wastewater is beneficial for slurrying. (c) K+ and Na+ in wastewater have little effect on the slurryablity even in high concentration, while Mg2+ and Ca2+ have basically no effect on the slurryability under the concentration range of coal gasification wastewater. However, Fe3+ has a negative effect and Cu3+ has a positive effect on the slurryability at low concentrations. (d) Ammonia nitrogen can affect the slurryability of coal water slurry by affecting the pH of the solution. NH4OH solution is alkaline, which is conducive to slurrying, while (NH4)2SO4 and NH4Cl solutions are acidic, resulting in poor slurryability of coal water slurry. [ABSTRACT FROM AUTHOR]

Published

2024

26. Green Buildings as a Necessity for Sustainable Environment Development: Dilemmas and Challenges.

Author

Bungau, Constantin C., Bungau, Tudor, Prada, Ioana Francesca, and Prada, Marcela Florina

Abstract

Sustainable development encompasses numerous development goals and strategies, with green buildings (GBs) being among the implementations of this concept. The development of GBs is a topic of increasing interest due to the massive development of conventional infrastructure that has the major limitation of environmental degradation, a fact also proven by the research of the scientific literature, with publications in the field enhancing in recent times. Even if strategies applying the GBs concept have many advantages, the public acceptance is not so high due to technologies that still need to be optimized, the relatively low return on investment, and the limited dissemination of information about this concept. Therefore, the manuscript provides a comprehensive assessment in a distinctive way of GBs in the context of sustainable development, clarifying notions and principles of application while integrating green materials and circular economy into the general scientific framework provided. Moreover, a score has been proposed which is assigned to the different types of buildings described, based on the assessment of several specific parameters. This paper provides stakeholders, from designers to occupiers, with a coherent overview of the GB concept and its beneficial role for future generations in order to develop this field by increasing the dissemination of scientific information based on a technical-engineering perspective. [ABSTRACT FROM AUTHOR]

Published

2022

27. Multi-Case Study on Environmental and Economic Benefits through Co-Burning Refuse-Derived Fuels and Sewage Sludge in Cement Industry.

Author

Wojtacha-Rychter, Karolina and Smoliński, Adam

Subjects

SEWAGE sludge, ENVIRONMENTAL sciences, CEMENT industries, CEMENT clinkers, ENERGY consumption, CEMENT

Abstract

The use of waste as an energy source in cement clinker production is a promising way to transition toward a circular economy and limit carbon dioxide (CO2) in the atmosphere. The cement industry is responsible for around 5% of global CO2 emissions. In this paper, the analysis of environmental and economic profits associated with the substitution of coal by two refuse-derived fuels (RDF) and sewage sludge (SS) in a cement kiln was presented. Differences in the fuel-related CO2 emissions were calculated for two-, three-, and four-component fuel blends based on the fuel consumption data, heating values, and the correspondent emission factors. The biogenic fraction content of 19% and 43% were measured in RDFs. The material balance of fuels with the assumed technological parameters of the cement clinker production installation (capacity of 6000 Mg per day and unit heat of 3.6 GJ) shows that the RDF heat substitution at the level of 90% allows for a saving of approximately 28.6 Mg per hour of coal, and to manage even approx. 40 Mg per hour of RDF. The increase in the share of SS in the total heat consumption to 6% contributed to reducing the actual emissions by 17 kg of CO2 per 1 Mg of clinker. Multilateral benefits due to the use of RDF in the cement plant were evident. [ABSTRACT FROM AUTHOR]

Published

2022

28. Evaluating the environmental impacts of recycling wind turbines.

Author

Jensen, Jonas Pagh

Subjects

WIND power plants, ENERGY consumption, RENEWABLE energy sources, OFFSHORE wind power plants, WIND speed

Abstract

Wind power is one of the fastest growing renewable energy sources. The wind turbines have an expected design lifetime in the range of 20 to 25 years after which decommissioning is expected. The trend in the wind turbine industry is that the turbines increase in size—especially when considering offshore wind turbines in the 7 to 8 MW size range. Life cycle assessments show that the materials used for manufacturing the turbines accounts for 70 to 80% of the environmental impact, so ensuring optimal recycling at the end‐of‐service‐life is of economic and environmental interest and in line with the principles of transitioning towards a circular economy. The decommissioning and recycling process is analysed in this paper, with special considerations given to the environmental aspects of a theoretical 100% recyclability scenario. This includes cradle‐to‐gate life‐cycle inventory analysis of the materials, embedded energy, and CO2‐equivalent emissions. The findings show that established recycling methods are present for most of the materials and that recycling of a 60 MW wind park at end‐of‐service‐life provides environmental benefits as well as lowering the natural resource use and securing resources for use in the future. The saved energy is estimated to approximately 81 TJ. The reduction in emissions related to the recycling of wind turbine material totals approximately 7351 ton CO2. [ABSTRACT FROM AUTHOR]

Published

2019

29. Nonwoven Textile Waste Added with PCM for Building Applications.

Author

Rubino, Chiara, Liuzzi, Stefania, Martellotta, Francesco, Stefanizzi, Pietro, and Straziota, Pierfrancesco

Subjects

TEXTILE waste, NONWOVEN textiles, PHASE change materials, MATERIALS testing, TECHNICAL textiles, ENERGY consumption, ENERGY consumption of buildings, CONSTRUCTION & the environment

Abstract

Due to the overall improvement of living standards and considering the priority to reduce the energy consumption, the adoption of efficient strategies, mainly in the building area is mandatory. In fact, the construction sector can be considered as one of the key field essential for the sustainability, due to the diversity of components and their life cycles. Reuse strategies may play an essential role in reducing the environmental impact of building processes. Within this framework, the reuse of textile waste to produce insulating materials represents one of the biggest opportunities for the promotion of a circular economy. It contributes significantly to improve the environmental sustainability reusing a waste as new raw matter involved to achieve high energy efficient buildings. This paper provides the results of an experimental campaign performed using wool waste derived from the industrial disposal of fabrics matched with phase change materials (PCMs) used in order to enhance the thermal mass of the final products. Physical and thermal parameters were measured in order to demonstrate the good performances of the textile materials and the essential role played by PCMs in shifting heat waves and reduce surface temperatures. Furthermore, DesignBuilder software was used to assess the energy consumption of a mobile shelter type structure under three different climatic scenarios. A comparison between the experimented materials and other solutions, currently available in the market, highlighted a significant reduction in energy consumption when adopting the materials under test. [ABSTRACT FROM AUTHOR]

Published

2021

30. Heritage buildings towards the future: conservation and circular economy for sustainable development.

Author

Antonini, Ernesto, Favaretto, Giulia, and Pretelli, Marco

Subjects

SUSTAINABLE development, PRESERVATION of architecture, HISTORIC buildings, ENERGY consumption, CLIMATE change

Abstract

The issues of energy efficiency and climate change belong to a complex scenario to which contemporaneity is called upon to answer. Architecture can contribute by promoting practices that look at the environment with a view to building the future. As an architectural activity, restoration of heritage buildings can actively participate in this fundamental challenge within the perspective of a circular economy proposing a globally sustainable model. Starting from a state-of-the-art investigation, this paper aims to enucleate the BECK project’s contribution in this field, as well as to underline how careful strategies of conservation and contemporary use can have positive effects on sustainable future scenarios. [ABSTRACT FROM AUTHOR]

Published

2021

31. Methodology for Dimensioning the Socio-Economic Impact of Power-to-Gas Technologies in a Circular Economy Scenario.

Author

Llera-Sastresa, Eva, Romeo, Luis M., Scarpellini, Sabina, and Portillo-Tarragona, Pilar

Subjects

SOCIOECONOMIC factors, ENERGY consumption, ENERGY futures, ECONOMIC impact, ENERGY industries

Abstract

Innovative and sustainable energy technologies are needed in the transition of energy toward a circular economy. Because of the use of renewable energy and carbon utilization, power-to-gas could be a cutting-edge technology that supports the circular model in future sustainable energy markets. However, this technology faces new technical and socio-economic challenges. The use of power-to-gas is limited because of barriers that limit the mobilization of investment capital. In addition, social and economic impacts on the territories in which these facilities are located are under study. In this context, the aims of this paper are: (i) To explore the determinants and barriers for power-to-gas technology to enhance the understanding of investment in innovative energy technologies; and (ii) to support effective policymaking and energy companies' decision-making processes. This study defines and measures, from a circular economy perspective, the main impacts of the deployment of this technology on a territory in terms of volume of investment, employment generation, and CO2 capture. The study also provides a simplified methodology to contribute to the analysis of the use of power-to-gas. Finally, it improves the knowledge of the socio-economic impact of this cutting-edge technology for the transition of energy to a zero-emission scenario. [ABSTRACT FROM AUTHOR]

Published

2020

32. CIRCULAR ECONOMY IN WASTEWATER TREATMENT PLANT.

Author

KALEMBA, Katarzyna

Subjects

WASTEWATER treatment, WASTE management, ENERGY consumption, RAW materials, MECHANICAL behavior of materials

Abstract

Wastewater treatment plants are becoming an important part of circular economy. In addition to the classic role of wastewater treatment plants, they are gaining a new important mission to fulfil. According to the Nutrients-Energy-Water (N-E-W) paradigm, wastewater treatment plants should also focus on energy production and resource recovery. Intensification of biogas production is an important element in improving the energy efficiency of wastewater treatment plants. This can be achieved by introducing sewage sludge co-digestion with organic substrate, thermal hydrolysis and disintegration of the sludge. Water renewal, which includes a number of processes to restore the water features of the wastewater, is also becoming an important objective. Intensive research is being carried out on the production of bioplastics by bacteria inhabiting municipal and industrial sewage. Technologies for recovery of nutrients (nitrogen and phosphorus) from sewage and sludge are also advanced. The paper presents current trends in the development of sewage treatment plants based on the assumptions of circular economy and current policy of the European Green Deal. [ABSTRACT FROM AUTHOR]

Published

2020

33. Microwave-assisted pyrolysis in biomass and waste valorisation: Insights into the life-cycle assessment (LCA) and techno-economic analysis (TEA).

Author

Foong, Shin Ying, Chan, Yi Herng, Yek, Peter Nai Yuh, Lock, Serene Sow Mun, Chin, Bridgid Lai Fui, Yiin, Chung Loong, Lan, John Chi-Wei, and Lam, Su Shiung

Subjects

*PRODUCT life cycle assessment, *PYROLYSIS, *ENERGY consumption, *BIOMASS, *TEA, *BIOMASS conversion

Abstract

[Display omitted] • Microwave-assisted pyrolysis is a promising method for biomass/waste valorisation. • Life cycle analysis shows reduced energy consumption, low global warming potential. • Innovations in reactor design and operation parameters aids in cost reduction. Microwave-assisted pyrolysis (MAP) has been perceived as a promising technology for biomass and waste conversion due to its distinctive features, including fast, even, and precise heating. This results in higher energy efficiency when compared to conventional pyrolysis via thermal heating. However, the scaling up of MAP of biomass and waste poses challenges, with investigations ongoing to uncover not only the technological aspect, but also both the environmental impacts and economic feasibility associated with this process/technology. The possible environmental impacts associated with MAP processes can be analyzed through systematic life-cycle assessment (LCA), while the economic feasibility can be evaluated via techno-economic analysis (TEA). This paper presents an overview of the current research trend in MAP and the products produced, as well as the LCA and TEA of the pyrolysis technologies. The LCA study reported a 2.5 folds reduction in energy consumption and up to 62% reduction in global warming potential. TEA study revealed that conventional pyrolysis has a greater profit for long-term assessment due to a higher maturity and less complexity technology; however, MAP may be more economically feasible in the future owing to the increased maturity and more established technology. Finally, the challenges and future perspectives for LCA and TEA in MAP are elucidated. [ABSTRACT FROM AUTHOR]

Published

2024

34. Climate-responsive design practices: A transdisciplinary methodology for achieving sustainable development goals in cultural and natural heritage.

Author

Lucchi, Elena, Turati, Francesca, Colombo, Benedetta, and Schito, Eva

Subjects

*SUSTAINABLE development, *SUSTAINABLE communities, *DESIGN services, *CULTURAL property, *PROTECTION of cultural property, *BUILT environment, *ENERGY consumption

Abstract

The 17 Sustainable Development Goals (SDGs) defined by the United Nations represent a blueprint for the adoption of global practices and policies to foster sustainability in societies and increase efficiencies in resources uses. The Italian National Trust, FAI, has embraced these goals, developing a holistic and transdisciplinary methodology to promote a more sustainable approach to preserve its natural and built heritage. This methodology combines heritage protection with the SDGs in various macro-areas of interventions, including energy, water, biosphere, responsible consumption, and sustainable communities. The aim is to increase access to affordable and clean energy, reduce water, waste, and soil footprints, promote responsible consumption, and develop human capital. The paper proposes a set of strategies to achieve the SDGs in heritage, involving the collaboration of several stakeholders, ranging from institutions to citizens. The methodology is applied to a specific Italian case study, Casa Macchi in Morazzone, to highlight the challenges in achieving the dual objective of preserving the historic building and promoting sustainability in the built environment. [Display omitted] • We propose a trans-disciplinary methodology for sustainable heritage preservation. • The heritage preservation project is analyzed in five macro-areas of intervention. • Assessment of effects on energy, water, biosphere, resources, and sustainability. • Casa Macchi preservation project to apply methodology and prove effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

35. Enhancing frameworks for utilising Sankey diagrams in modelling the water-energy nexus and circularity.

Author

Rambau, Lutendo D., Mativenga, Paul T., and Marnewick, Annlizé L.

Subjects

*WATER supply, *LITERATURE reviews, *HYDRONICS, *ENERGY intensity (Economics), *CIRCULAR economy, *ENERGY consumption, *POWER resources

Abstract

Understanding the connection between water supply and energy consumption in a circular economy is crucial for managing the demands of these resources. Sankey diagrams have the potential to enhance the visualisation of resource flows. However, there is a knowledge gap regarding the effective use of Sankey diagrams to capture the water-energy nexus and circularity of water. This study focused on effectively utilizing Sankey diagrams to model the nexus of water and energy flows and to assess the circularity of water. A comprehensive literature review was conducted on major studies on water material flows and modelling. This was supported by a review of approaches for modelling circularity, which have evolved from the material circularity index. The newly developed framework in this paper models water resource flows at all stages of the water supply chain, embedding the nexus as an interaction and considering resource intensity and material circularity index at each node. A city-level case study in South Africa was then used to apply the recommendations, model circularity, and the water-energy nexus using Sankey diagrams. In terms of circularity, the results indicate that water loss in the study area was very high, accounting for up to 40% of the total water supply and the water recycle rate was still very low, ranging from 3% to 7%. In terms of the nexus, the residential sector was found to have the highest energy intensity for water supply, primarily due to energy demand for water heating. Exploring the use of renewable or solar energy for water heating will be of interest and value. The new approach presented in this study allows for the simultaneous consideration of objectives, enabling a more robust analysis of energy-effective water use and water circularity along the water supply chain. [Display omitted] • A new framework for modelling the water energy nexus enriched by circularity options, energy intensity factors and confidence modelling. • Options for embedded circularity through the water supply chain. • The urgent challenge to address massive water loses in water supply systems for water scarce regions. • New Sankey diagrams showcasing how to model nexus and circularity. [ABSTRACT FROM AUTHOR]

Published

2024

36. Integrated Risk-Aware Smart Disassembly Planning for Scrap Electric Vehicle Batteries.

Author

Yang, Shibo, Zhuo, Xiaojun, Ning, Wei, Xia, Xing, and Huang, Yong

Subjects

ELECTRIC vehicle batteries, RISK perception, ELECTRIC vehicle industry, WASTE recycling, ENERGY consumption, OPERATIONAL risk

Abstract

With the increase in the production of electric vehicles (EVs) globally, a significant volume of waste power battery modules (WPBM) will be generated accordingly, posing challenges for their disposal. An intelligent scrap power battery disassembly sequence planning method, integrated with operational risk perception, is proposed to automate the planning process. Taking into consideration the risk coefficients, energy consumption, and costs during disassembly, this method maximizes profits, minimizes energy usage, and ensures safety. Utilizing an extended part priority graph, an optimized model for integrated risk-aware disassembly sequence planning (IRA-DSP) is constructed. With the Guangqi Toyota LB7A-FX1 as a case study, and using real data from resource recovery enterprises, an improved MOPSO-GA algorithm is proposed to solve the model and generate disassembly plans. The results demonstrate the method's ability to achieve unit-level disassembly of WPBM, avoid high-risk sequences, and optimize profit and energy consumption, exhibiting its practicality and feasibility. [ABSTRACT FROM AUTHOR]

Published

2024

37. Polyethylene Terephthalate (PET) Recycled by Catalytic Glycolysis: A Bridge toward Circular Economy Principles.

Author

Enache, Andra-Cristina, Grecu, Ionela, and Samoila, Petrisor

Subjects

CIRCULAR economy, POLYETHYLENE terephthalate, GLYCOLYSIS, RECYCLING management, ENERGY consumption, INDUSTRIAL energy consumption, CHEMICAL recycling

Abstract

Plastic pollution has escalated into a critical global issue, with production soaring from 2 million metric tons in 1950 to 400.3 million metric tons in 2022. The packaging industry alone accounts for nearly 44% of this production, predominantly utilizing polyethylene terephthalate (PET). Alarmingly, over 90% of the approximately 1 million PET bottles sold every minute end up in landfills or oceans, where they can persist for centuries. This highlights the urgent need for sustainable management and recycling solutions to mitigate the environmental impact of PET waste. To better understand PET's behavior and promote its management within a circular economy, we examined its chemical and physical properties, current strategies in the circular economy, and the most effective recycling methods available today. Advancing PET management within a circular economy framework by closing industrial loops has demonstrated benefits such as reduced landfill waste, minimized energy consumption, and conserved raw resources. To this end, we identified and examined various strategies based on R-imperatives (ranging from 3R to 10R), focusing on the latest approaches aimed at significantly reducing PET waste by 2040. Additionally, a comparison of PET recycling methods (including primary, secondary, tertiary, and quaternary recycling, along with the concepts of "zero-order" and biological recycling techniques) was envisaged. Particular attention was paid to the heterogeneous catalytic glycolysis, which stands out for its rapid reaction time (20–60 min), high monomer yields (>90%), ease of catalyst recovery and reuse, lower costs, and enhanced durability. Accordingly, the use of highly efficient oxide-based catalysts for PET glycolytic degradation is underscored as a promising solution for large-scale industrial applications. [ABSTRACT FROM AUTHOR]

Published

2024

38. Data-Driven Strategies for Optimizing Albania's Utilization of Renewable Energy Sources from Urban Waste: Current Status and Future Prospects.

Author

Vito, Sonila, Boci, Ilirjana, Gheibi, Mohammad, Dhoska, Klodian, Malollari, Ilirjan, Shehu, Elmaz, Moezzi, Reza, and Annuk, Andres

Subjects

RENEWABLE energy sources, ENERGY consumption, CIRCULAR economy, WASTE management, EXECUTIVE departments

Abstract

Albania is now implementing a range of steps as part of its journey towards European Union integration, based on agreements that have been achieved. Key to these initiatives is the extensive adoption of circular economy concepts through comprehensive waste management systems. This collaboration is based on systematically implementing measures that align with the fundamental principles of the waste management hierarchy. Albania wants to lead in waste-to-energy conversion exploration by focusing on trash minimization, reuse, recycling, and energy generation from residual waste. Although there has been notable advancement, especially in aligning laws with EU requirements, there are practical obstacles, especially in the execution of waste-to-energy projects. The challenges involve the need for effective waste segregation, higher recycling rates, and the use of advanced waste-to-energy technologies. The essay utilizes meticulously selected data on Albania's waste generation from reputable organizations and the legal framework regulating waste management to assess the current situation and predict future possibilities, which may be advantageous for government ministries and agency platforms. [ABSTRACT FROM AUTHOR]

Published

2024

39. Contribution of energy based circularity for better environmental quality: an evidence from Bias-corrected linear dynamic approach.

Author

Usman, Muhammad, Hussain, Bilal, Anwar, Sofia, and Naqvi, Syed Asif Ali

Subjects

ENVIRONMENTAL quality, RENEWABLE energy sources, ENERGY consumption, ENERGY development, LOW-income countries, INSTITUTIONAL environment

Abstract

Environmental behavior needs a keen intervention to avoid the upcoming worse outcomes of the energy utilization. Global warming is transitioning towards the global boiling stage and the reason behind the faster growth of renewable energy resources exploration. The present study empirically investigates the circularity impact of the renewable energy on the environment. Two different models of the environment were estimated by applying biased corrected method on 28 low income countries from 1990 to 2019. In this study, we develop a circularity index on the basis of renewable energy sources and found that in low income economies circularity brings a positive impact on the environment in both models. The study also concludes that digitization has also positive implication in terms of environmental quality. In the sample study trade shows negative as well as positive association with environment while economic growth, financial development and energy use have positive impact on the environment. The study suggested policies based on the circular practices for energy generation to achieve the sustainable development goals. [ABSTRACT FROM AUTHOR]

Published

2024

40. Advances in Research and Technology of Hydrothermal Carbonization: Achievements and Future Directions.

Author

Ischia, Giulia, Berge, Nicole D., Bae, Sunyoung, Marzban, Nader, Román, Silvia, Farru, Gianluigi, Wilk, Małgorzata, Kulli, Beatrice, and Fiori, Luca

Subjects

HYDROTHERMAL carbonization, WASTE management, WASTEWATER treatment, ENERGY consumption, CIRCULAR economy, CARBONIZATION

Abstract

Hydrothermal carbonization (HTC) has emerged as a pivotal technology in the battle against climate change and fosters circular economies. Operating within a unique reaction environment characterized by water as a solvent and moderate temperatures at self-generated pressures, HTC efficiently converts biomass residues into valuable bio-based products. Despite HTC's potential—from the management of challenging biomass wastes to the synthesis of advanced carbons and the implementation of biorefineries—it encounters hurdles transitioning from academic exploration to industrial implementation. Gaps persist, from a general comprehension of reaction intricacies to the difficulty of large-scale integration with wastewater treatments, to the management of process water, to the absence of standardized assessment techniques for HTC products. Addressing these challenges demands collaboration to bridge the many scientific sectors touched by HTC. Thus, this article reviews the current state of some hot topics considered crucial for HTC development: It emphasizes the role of HTC as a cornerstone for waste management and biorefineries, highlighting potentialities and challenges for its development. In particular, it surveys fundamental research aspects, delving into reaction pathways, predictive models, analytical techniques, and HTC modifications while exploring HTC's crucial technological applications and challenges, with a peculiar focus on combined HTC, wastewater integration, and plant energy efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

41. Advancing Urban Building Energy Modeling: Building Energy Simulations for Three Commercial Building Stocks through Archetype Development.

Author

Hossain, Md. Uzzal, Cicco, Isabella, and Bilec, Melissa M.

Subjects

COMMERCIAL buildings, STOCKS (Finance), CLIMATE change, CIRCULAR economy, PRODUCT life cycle assessment, ENERGY consumption

Abstract

Urban building energy models (UBEMs), developed to understand the energy performance of building stocks of a region, can aid in key decisions related to energy policy and climate change solutions. However, creating a city-scale UBEM is challenging due to the requirements of diverse geometric and non-geometric datasets. Thus, we aimed to further elucidate the process of creating a UBEM with disparate and scarce data based on a bottom-up, physics-based approach. We focused on three typically overlooked but functionally important commercial building stocks, which are sales and shopping, healthcare facilities, and food sales and services, in the region of Pittsburgh, Pennsylvania. We harvested relevant local building information and employed photogrammetry and image processing. We created archetypes for key building types, designed 3D buildings with SketchUp, and performed an energy analysis using EnergyPlus. The average annual simulated energy use intensities (EUIs) were 528 kWh/m2, 822 kWh/m2, and 2894 kWh/m2 for sales and shopping, healthcare facilities, and food sales and services, respectively. In addition to variations found in the simulated energy use pattern among the stocks, considerable variations were observed within buildings of the same stock. About 9% and 11% errors were observed for sales and shopping and healthcare facilities when validating the simulated results with the actual data. The suggested energy conservation measures could reduce the annual EUI by 10–26% depending on the building use type. The UBEM results can assist in finding energy-efficient retrofit solutions with respect to the energy and carbon reduction goal for commercial building stocks at the city scale. The limitations highlighted may be considered for higher accuracy, and the UBEM has a high potential to integrate with urban climate and energy models, circular economy, and life cycle assessment for sustainable urban planning. [ABSTRACT FROM AUTHOR]

Published

2024

42. Critical consideration of buildings' environmental impact assessment towards adoption of circular economy: An analytical review.

Author

Hossain, Md. Uzzal and Ng, S. Thomas

Subjects

*ENVIRONMENTAL impact analysis, *ENVIRONMENTAL risk assessment, *ENVIRONMENTAL research, *ENERGY consumption, *CARBON sequestration

Abstract

Abstract A rapid development of building environmental research from the globe is witnessed in recent years to deal with the environmental issues, especially in terms of energy consumption and carbon emissions, due to the substantial environmental burdens associated with the building industry. Thus, numerous scientific efforts have been devoted to buildings through environmental assessment like a life cycle assessment (LCA) and a methodological framework development. Concerning the rapid growth of buildings, LCA is increasingly used for assessing and mitigating the associated environmental impacts from material selection to the whole building systems. This study aims to comprehensively review the LCA implication on buildings by discussing the contemporary issues related to the development of this research field. The study considers a wide range of literature including case studies, reviews and surveys, and these articles are critically examined according to the predefined criteria developed. An in-depth analysis is also conducted on selected studies to unveil the criticality of the assessments and results under different considerations. In addition to demonstrating the research gaps for comprehensive assessment of buildings, the adoption of a circular economy (CE) concept is highlighted by providing a comprehensive framework. The findings show that resource recovery and resource-efficient building construction are seldom considered in prevailing studies. As a result, the framework proposed in this paper should help support a paradigm shift towards a comprehensive research for increasing the accuracy and practicability by introducing the CE principle to the building industry for enhancing its sustainability performance. Highlights • Literature related to building-environmental research was critically analyzed. • LCA implication on buildings was comprehensively reviewed by discussing the contemporary issues. • Selected papers were critically analyzed to unveil the research trends and practices. • Knowledge gaps for comprehensive assessment of buildings under the CE principle are identified. • Comprehensive framework based on the CE principle was proposed for comprehensiveness building LCA. [ABSTRACT FROM AUTHOR]

Published

2018

43. Analysing the systemic implications of energy efficiency and circular economy strategies in the decarbonisation context.

Author

Fragkos, Panagiotis

Subjects

GREENHOUSE gas mitigation, ENERGY consumption, INDUSTRIAL energy consumption, CARBON sequestration, CARBON dioxide mitigation, CARBON pricing, GLOBAL modeling systems

Abstract

The Paris Agreement goals require a rapid and deep reduction in global greenhouse gas emissions. Recent studies have shown the large potential of circular economy to reduce global emissions by improving resource and material efficiency practices. However, most large-scale energy system and Integrated Assessment Models used for mitigation analysis typically ignore or do not adequately represent circular economy measures. This study aims to fill in this research gap by enhancing a leading global energy system model with a representation of energy efficiency and circular economy considerations. The scenario-based analysis offers an improved understanding of the potentials, costs and impacts of circular economy in the decarbonisation context. The study shows that enhanced energy efficiency and increased material circularity can reduce energy consumption in all sectors, but most importantly in the industrial sector. They can also reduce the required carbon price to achieve Paris goals and the dependence on expensive, immature, and risky technologies, like Carbon Capture and Storage. Circular economy measures should be properly integrated with broad climate policies to provide a holistic and self-consistent framework to deeply reduce carbon emissions. [ABSTRACT FROM AUTHOR]

Published

2022

44. A Novel Methodology for Developing an Advanced Energy-Management System.

Author

Gheorghiu, Cristian, Scripcariu, Mircea, Tanasiev, Gabriela Nicoleta, Gheorghe, Stefan, and Duong, Minh Quan

Subjects

MACHINE learning, RENEWABLE energy sources, ENERGY management, CIRCULAR economy, ENERGY industries, SUSTAINABILITY, ENERGY consumption

Abstract

Highlights: What are the main findings? The use of machine learning algorithms in energy management services can lead to a significant increase in the implementation rate of energy performance, power quality and renewable energy sources projects; Integrating machine learning algorithms in the process of assessing the energy saving potential can accelerate the deployment of energy performance contracting; What is the implication of the main finding? Digitization of the energy services sector could support end-users in achieving their targets regarding the transition towards environmental sustainability Policy makers could also use the proposed methodology to evaluate the global energy performance of the relevant energy sectors, thus increasing the performance of the available financing mechanisms. Current targets, which have been set at both the European and the international level, for reducing environmental impacts and moving towards a sustainable circular economy make energy efficiency and digitization key elements of all sectors of human activity. The authors proposed, developed, and tested a complex methodology for real-time statistical analysis and forecasting of the following main elements contributing to the energy and economic performance of an end user: energy performance indicators, power quality indices, and the potential to implement actions to improve these indicators, in an economically sustainable manner, for the end user. The proposed methodology is based on machine learning algorithms, and it has been tested on six different energy boundaries. It was thus proven that, by implementing an advanced energy management system (AEMS), end users can achieve significant energy savings and thus contribute to the transition towards environmental sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

45. Circular Economy for the Energy System as a Leverage for Low-Carbon Transition: Long-Term Analysis of the Case of the South-East Region of France.

Author

Andrade, Carlos and Selosse, Sandrine

Subjects

CIRCULAR economy, ENERGY consumption, REGIONAL development, ENERGY development, FREIGHT & freightage, CARBON offsetting

Abstract

The circular economy is a decisive strategy for reconciling economic development and the environment. In France, the CE was introduced into the law in 2015 with the objective of closing the loop. The legislation also delegates energy policy towards the French regions by granting them the jurisdiction to directly plan the energy–climate issues on their territory and to develop local energy resources. Thereby, the SUD PACA region has redefined its objectives and targeted carbon neutrality and the transition to a CE by 2050. To study this transition, we developed a TIMESPACA optimization model. The results show that following a CE perspective to develop a local energy system could contribute to reducing CO2 emissions by 50% in final energy consumption and reaching almost free electricity production. To obtain greater reductions, the development of the regional energy systems should follow a careful policy design favoring the transition to low energy-consuming behavior and the strategical allocation of resources across the different sectors. Biomethane should be allocated to the buildings and industrial sector, while hydrogen should be deployed for buses and freight transport vehicles. [ABSTRACT FROM AUTHOR]

Published

2024

46. Advances in Biological Wastewater Treatment Processes: Focus on Low-Carbon Energy and Resource Recovery in Biorefinery Context.

Author

Sravan, J. Shanthi, Matsakas, Leonidas, and Sarkar, Omprakash

Subjects

WASTEWATER treatment, WASTE recycling, POWER resources, SUSTAINABILITY, ENVIRONMENTAL protection, ENERGY consumption, CLEAN energy

Abstract

Advancements in biological wastewater treatment with sustainable and circularity approaches have a wide scope of application. Biological wastewater treatment is widely used to remove/recover organic pollutants and nutrients from a diverse wastewater spectrum. However, conventional biological processes face challenges, such as low efficiency, high energy consumption, and the generation of excess sludge. To overcome these limitations, integrated strategies that combine biological treatment with other physical, chemical, or biological methods have been developed and applied in recent years. This review emphasizes the recent advances in integrated strategies for biological wastewater treatment, focusing on their mechanisms, benefits, challenges, and prospects. The review also discusses the potential applications of integrated strategies for diverse wastewater treatment towards green energy and resource recovery, along with low-carbon fuel production. Biological treatment methods, viz., bioremediation, electro-coagulation, electro-flocculation, electro-Fenton, advanced oxidation, electro-oxidation, bioelectrochemical systems, and photo-remediation, are summarized with respect to non-genetically modified metabolic reactions. Different conducting materials (CMs) play a significant role in mass/charge transfer metabolic processes and aid in enhancing fermentation rates. Carbon, metal, and nano-based CMs hybridization in different processes provide favorable conditions to the fermentative biocatalyst and trigger their activity towards overcoming the limitations of the conventional process. The emerging field of nanotechnology provides novel additional opportunities to surmount the constraints of conventional process for enhanced waste remediation and resource valorization. Holistically, integrated strategies are promising alternatives for improving the efficiency and effectiveness of biological wastewater treatment while also contributing to the circular economy and environmental protection. [ABSTRACT FROM AUTHOR]

Published

2024

47. Evaluation of the Thermal Energy Potential of Waste Products from Fruit Preparation and Processing Industry.

Author

Bača, Petr, Mašán, Vladimír, Vanýsek, Petr, Burg, Patrik, Binar, Tomáš, Suchý, Pavel, and Vaňková, Lenka

Subjects

WASTE products as fuel, WASTE products, FRUIT processing, POTENTIAL energy, RENEWABLE energy sources, ENERGY consumption

Abstract

In the context of a changing climate and increasing efforts to use renewable energy sources and waste materials and to green the environment, new sources and technologies for energy recovery from waste are being sought. This study evaluates the possibilities of energy generation potential from waste products of fruit species used in the food processing industry. The results indicate good potential for energy use of materials from fruit processing due to low input moisture content of around 15 wt. %, an average energy lower heating value (LHV) of 16.5 MJ·kg−1, an average low ash content of 4.9% and meeting most of the emission limits of similar biofuels. Elemental analysis and combustion residue studies indicate safe operation within existing standards. The results of our analyses and experience from similar studies allow us to recommend most of the studied waste materials for energy generation use directly in processing plants at the local level. [ABSTRACT FROM AUTHOR]

Published

2024

48. The Role of AI in Improving Environmental Sustainability: A Focus on Energy Management.

Author

Uriarte-Gallastegi, Naiara, Arana-Landín, Germán, Landeta-Manzano, Beñat, and Laskurain-Iturbe, Iker

Subjects

ENERGY management, ARTIFICIAL intelligence, CIRCULAR economy, ENERGY consumption, SUSTAINABILITY, GREENHOUSE gas mitigation

Abstract

This research addresses the increasing importance of understanding how Artificial Intelligence can facilitate the transition of companies to a Circular Economy model. This study focuses on energy management, examining its impact on efficiency and emissions across a multi-case analysis of 18 projects in diverse sectors. The findings indicate that Artificial Intelligence positively influences both variables, with variations across applications and sectors. Notably, Artificial Intelligence significantly enhances energy efficiency in four out of six sectors, achieving over 5% improvement in half of the projects. Regarding emissions, positive effects are observed in 15 out of 18 projects, resulting in over 5% reductions in seven cases. Artificial Intelligence plays a pivotal role in emissions reduction in the Design and Energy sectors, with some projects achieving over 20% reductions. Additionally, this study explores how improved energy efficiency positively affects strategic business variables, such as cost, quality, and delivery time. The impact on emissions contributes to reducing occupational risks, particularly those associated with chemical and biological agents. Although managers are satisfied, measures need to be taken to overcome the lack of employee acceptance. These findings are of great interest to the stakeholders involved in the integration of Artificial Intelligence into companies. [ABSTRACT FROM AUTHOR]

Published

2024

49. Eco-design practices with a focus on quantitative environmental targets: An exploratory content analysis within ICT sector.

Author

Sihvonen, Siru and Partanen, Jouni

Subjects

*TELECOMMUNICATION, *PERFORMANCE, *ENERGY consumption, *INFORMATION & communication technologies, *INFORMATION technology

Abstract

Circular economy ambitions demand considering lifecycle of products within product development. From the perspective of the circular economy, environmental considerations should, for example, increasingly entail product's use phase not only to increase product's energy-efficiency, but also to prolong the time in use. This paper investigates how these considerations are addressed within information and communications technology (ICT) sector. Drawing from previous research in constructing the hypotheses, it is examined how companies report about their quantitative environmental targets for products, and what topical areas are in focus for their environmentally conscious practices related to products' reuse. Then, relationships with these published quantitative targets and environmental performance are assessed. Content analysis method is used to derive data from 43 sustainability reports. Our results suggest that being mature enough to publish quantitative environmental targets for products is positively associated with lifecycle thinking, considering the durability of products, and remanufacture. This exploratory study reveals among others, that although published, quantitative environmental targets for products are not yet dominantly present; they are positively associated with environmental performance measures. This includes capability to report quantitatively on flows of reclaimed products, and positions in external ranking. But, we also highlight the need for more discussion around reuse alternatives that are not commonly published among companies in this sample. The paper concludes by discussing the applicability of this research method. [ABSTRACT FROM AUTHOR]

Published

2017

50. One step closer: Laypeople's perception of production steps for manufacturing CO2-based jet fuel.

Author

Engelmann, Linda, Arning, Katrin, and Ziefle, Martina

Subjects

JET fuel, RISK perception, GREENHOUSE gas mitigation, CIRCULAR economy, AIRCRAFT fuels, RENEWABLE energy sources, ENERGY consumption

Abstract

Background: The need for greenhouse gas abatement measures grows as climate change threatens life on earth. Negative emission technologies, such as carbon capture and utilization (CCU), can reduce emissions from the transport sector, particularly aviation. However, the lack of support and low public acceptance can impact the successful introduction of new technologies. This study analyzes the factors that influence acceptance of the single production steps (capture, purification, conversion, and transport of CO2) of production of CO2-based jet fuels to identify acceptance hot spots and potential roll-out barriers. Results: In a quantitative survey with n = 543 German respondents, we find that transport of CO2 in comparison with capture, purification, and conversion of CO2 into hydrocarbons is perceived as less acceptable, efficient, and useful, more expensive as well as damaging for the environment and health. Furthermore, product-step specific risk perceptions, as well as benefit and barrier perceptions for CCU mainly predict people's attitude towards the four production steps. A cluster-analysis revealed two groups, "Approvers" and "Sceptics", which were characterized by distinctive perception profiles. Further analysis showed that sustainability (e.g., use of renewable energy) and efficiency (e.g., carbon removal and resource use) were of greater importance to Approvers. Conclusions: The study's results suggest the need for further research and information provision to enhance public understanding of the technology and its role as a part of circular economy approaches. Risk perceptions play a central role in determining attitudes towards CCU, which should be considered in future studies and communication strategies. The findings can inform policymakers, industry stakeholders, and communication experts working to promote sustainable aviation fuel technologies. [ABSTRACT FROM AUTHOR]

Published

2024