Your search keyword '"GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY"' showing total 153 results

1. The influence of energy output and substitution on the environmental impact of waste-to-energy operation: quantification by means of a case study

Author

G. Wauters, Jo Van Caneghem, Jan-Kees De Voogd, and Elizabeth Zoe Boakes

Subjects

Technology, Economics and Econometrics, Environmental Engineering, Circular economy, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Life cycle assessment, Engineering, Material recovery from waste, MANAGEMENT, CARBON CAPTURE, Environmental Chemistry, Environmental impact assessment, CO2 CAPTURE, Green & Sustainable Science & Technology, MUNICIPAL SOLID-WASTE, Science & Technology, CLIMATE-CHANGE, Waste management, Waste-to-energy, LCA, Substitution (logic), Engineering, Environmental, Sustainable waste management, RECOVERY, General Business, Management and Accounting, LIFE-CYCLE ASSESSMENT, Environmental science, Science & Technology - Other Topics, TECHNOLOGIES, INCINERATION, Life Sciences & Biomedicine, Energy (signal processing), Environmental Sciences

Abstract

A Life Cycle Assessment (LCA) was conducted to evaluate the total environmental impact of state-of-the-art Waste-to-Energy (WtE) in Belgium, with respect to recovered energy utilization and addition of Carbon Capture and Storage (CCS). Four energy output scenarios were modelled on Umberto LCA software using primary data of mass and energy flows surrounding the six incinerators at the considered WtE plant, and predefined processes from the Ecoinvent 3.6 database. The normalized LCA results suggest that by utilizing all the recovered energy as steam, the WtE plant can avoid an equivalent annual environmental impact value of approximately 21200, 36800, 6700, 15800, 37000 and 6900 average European citizens in the impact categories ‘climate change’, ‘freshwater and terrestrial acidification’, ‘freshwater eutrophication, ‘photochemical ozone creation’ and ‘respiratory effects, inorganics’, ‘terrestrial eutrophication’, respectively. The ‘Electricity and Steam with CCS’ scenario resulted in the most avoided environmental impact in the impact category ‘climate change’. However, in all other impact categories, it resulted in less avoided environmental impact compared to the ‘Steam’ scenario. The comparative analysis showed that 19 out of 24 of the LCA results varied by more than 50% between two energy substitution models, thus quantifying the influence of energy substitution in LCA modelling. This study exemplifies the environmental benefit WtE technology can realize by substituting conventional energy production processes that are reliant on fossil resources, whilst performing its primary function that is reducing the volume of non-recyclable waste, destroying hazardous organic components it contains and recovering useful materials from it.

Published

2022

2. A Longitudinal Study Examining the Association between Cognitive Behavior and Rational Abilities and the Effect of Sleep Quality on Construction Laborers

Author

Sathvik Sharath Chandra, Krishnaraj Loganathan, Bankole Osita Awuzie, and Faming Wang

Subjects

Science & Technology, STRESS, construction laborers, rational abilities, cognitive behavior, sleep quality, DISORDERS, IMPACT, Renewable Energy, Sustainability and the Environment, Environmental Studies, OF-LIFE, DURATION, LEVEL, Geography, Planning and Development, Environmental Sciences & Ecology, Building and Construction, Management, Monitoring, Policy and Law, SHIFT WORK, MANAGEMENT, Science & Technology - Other Topics, DEPRIVATION, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Construction laborers are constantly subjected to irregular work hours, leading to insomnia and poor sleep quality, which impacts cognitive and rational behavior. This negatively influences decision-making capabilities, resulting in accidents on site. This study determined the effect of sleep quality on the cognitive behavior and rational ability of construction laborers. A quantitative research design comprised of a questionnaire survey was conducted for data collection purposes. Respondents comprised a randomly selected sample of construction workers, and a statistical analysis of the results was performed to investigate existing correlations. Data were collected using questionnaires from 575 and 310 respondents in the initial and latter phases, respectively, from five construction companies in Southern India, and analyzed using inferential statistics. Shift work negatively affects both the early and late phases of rational abilities. A negative correlation was observed between age and disturbed rationality in the late phase, despite not being observed in the early phase. Gender, rational ability, age, shift work, sleep quality, and cognitive behavior were not correlated in either the early or late phases. Furthermore, age, shift work, and sleep quality were not correlated with cognitive behavior. Rather, sleep quality and shift schedules were associated with rational ability and cognitive behavior impairment. There was a transient relationship between insufficient sleep and the ability to make rational decisions. This study contributes to the current discourse regarding the improvement of the sleep health of construction workers to enhance their well-being and productivity.

Published

2023

3. Roadmap to develop a stress test for forest ecosystem services supply

Author

Koen Kramer, Laura Bouriaud, Peter H. Feindt, Lan van Wassenaer, Nicole Glanemann, Marc Hanewinkel, Martijn van der Heide, Geerten M. Hengeveld, Marjanke Hoogstra, Verina Ingram, Anders Levermann, Marcus Lindner, Csaba Mátyás, Frits Mohren, Bart Muys, Gert-Jan Nabuurs, Marc Palahi, Nico Polman, Christopher P.O. Reyer, Ernst-Detlef Schulze, Rupert Seidl, Wim de Vries, Saskia E. Werners, Georg Winkel, and Rasoul Yousefpour

Subjects

EUROPE, Environmental Studies, ECONOMY, Environmental Sciences & Ecology, WASS, Forest and Nature Conservation Policy, CARBON, Earth and Planetary Sciences (miscellaneous), Bos- en Natuurbeleid, Directie, Duurzaam Bodemgebruik, Green & Sustainable Science & Technology, resilience, Green Economy and Landuse, General Environmental Science, Sustainable Soil Use, Science & Technology, WIMEK, forest ecosystem services, PE&RC, Innovation- and Risk Management and Information Governance, Biometris, Environmental Systems Analysis, Groene Economie en Ruimte, Milieusysteemanalyse, Technologie and Innovatie, Knowledge Technology and Innovation, Science & Technology - Other Topics, stress test, Kennis, BIODIVERSITY, Water Systems and Global Change, Life Sciences & Biomedicine, Kennis, Technologie and Innovatie, Environmental Sciences

Abstract

Forests play a key role in a bio-based economy by providing renewable materials, mitigating climate change, and accommodating biodiversity. However, forests experience massive increases in stresses in their ecological and socioeconomic environments, threatening forest ecosystem services supply. Alleviating those stresses is hampered by conflicting and disconnected governance arrangements, competing interests and claims, and rapid changes in technology and social demands. Identifying which stresses threaten forest ecosystem services supply and which factors hamper their alleviation requires stakeholders' perceptions. Stakeholder-oriented stress tests for the supply of forest ecosystem services are therefore necessary but are not yet available. This perspective presents a roadmap to develop a stress test tailored to multiple stakeholders' needs and demands across spatial scales. We provide the Cascade and Resilience Rosetta, with accompanying performance- and resilience indicators, as tools to facilitate development of the stress test. The application of the stress test will facilitate the transition toward a bio-based economy in which healthy and diverse forests provide sustainable and resilient ecosystem services.

Published

2022

4. Using Systematic Building Decomposition for Implementing LCA: The Results of a Comparative Analysis as Part of IEA EBC Annex 72

Author

B. Soust-Verdaguer, T. Potrč Obrecht, N. Alaux, E. Hoxha, M.R.M. Saade, M. Röck, A. Garcia-Martinez, C. Llatas, J.C. Gómez de Cózar, A. Passer, Universidad de Sevilla. Departamento de Construcciones Arquitectónicas I (ETSA), Universidad de Sevilla. TEP986: Digital Architecture for Sustainability Lab (Datus-Lab), Universidad de Sevilla. TEP130: Arquitectura, Patrimonio y Sostenibilidad: Acústica, Iluminación, Óptica y Energía, Ministerio de Economia, Industria y Competitividad (MINECO). España, Junta de Andalucía, and Austrian Ministry for Transport, Innovation and Technology

Subjects

Technology, Science & Technology, Renewable Energy, Sustainability and the Environment, Strategy and Management, Engineering, Environmental, Environmental Sciences & Ecology, Building and Construction, Life Cycle Assessment (LCA), Industrial and Manufacturing Engineering, Engineering, Science & Technology - Other Topics, BIM, Green & Sustainable Science & Technology, Systematic building decomposition, Life Sciences & Biomedicine, Environmental Sciences, General Environmental Science

Abstract

The building Life Cycle Assessment (LCA) applied to buildings requires collecting and organizing large quantities of data over all building life cycles. To overcome specific difficulties related to the system boundaries definition and life cycle inventory stages, the literature recognizes that systematic building decomposition methods (SBDM) can be used to classify building components, elements and materials, as well as to increase the reliability and transparency of LCA results, particularly for embodied carbon and other environmental impacts. In this paper developed in the context of the research project IEA EBC Annex 72, the authors aim to provide a basis for understanding how different SBDMs decompose a building and classify its parts. This study analyses the implications of using different SBDM along the steps of an LCA study. Such as to support transparent and comprehensible (de)composition of the life cycle inventory (LCI), definition of service lives for different building parts or clear and comparable communication of assessment results and environmental hotspots particularly when using digital tools to conduct LCA. The study analyses 12 national SBDMs used in participating countries of IEA EBC Annex 72. To showcase the implications of SBDMs in building LCA practice, an office building was used as a common case study for applying the different SBDM approaches. Differences were identified among the decomposition levels and the consequences of these differences on the LCI organization. Thus, some of the main contributions to this study are the investigation of different SBDM approaches for improving the design workflows, by discussing BIM model definitions and the recommendation to use hierarchically based methods to allow the building elements and materials decomposition.

Published

2023

5. Integrated early-stage environmental and economic assessment of emerging technologies and its applicability to the case of plasma gasification

Author

Giovanna Sauve, John Laurence Esguerra, David Laner, Joakim Johansson, Niclas Svensson, Steven Van Passel, and Karel Van Acker

Subjects

Technology, Strategy and Management, Environmental Sciences & Ecology, Plasma gasification, Industrial and Manufacturing Engineering, LANDFILL, ECO-EFFICIENCY, Life cycle assessment, Life cycle costing, Engineering, Integrated assessment, Green & Sustainable Science & Technology, Biology, General Environmental Science, MUNICIPAL SOLID-WASTE, RESOURCE RECOVERY, Science & Technology, Renewable Energy, Sustainability and the Environment, LCA, Engineering, Environmental, Ex -ante assessment, Building and Construction, PERFORMANCE, LIFE-CYCLE ASSESSMENT, Chemistry, Global sensitivity analysis, Science & Technology - Other Topics, VALORIZATION, Life Sciences & Biomedicine, Engineering sciences. Technology, Environmental Sciences

Abstract

Economic and environmental impact assessments are increasingly being adopted in the design and implementation of emerging systems. However, their emerging nature leads to several assessment challenges that need to be addressed to ensure the validity and usefulness of results in understanding their potential performance and supporting their development. There is the need to (i) account for spatial and temporal variability to allow a broader perspective at an early stage of development; (ii) handle uncertainties to systematically identify the critical factors and their interrelations that drive the results; (iii) integrate environmental and economic results to support sound decision-making based on two sustainability aspects. To address these assessment challenges, this study presents an alternative approach with the following corresponding features: (i) multiple scenario development to conduct an exploratory assessment of the systems under varying conditions and settings, (ii) global sensitivity analysis to identify the main critical factors and their interrelations, and (iii) trade-off and ecoefficiency analysis to integrate the economic and environmental results. The integrated approach is applied to a case study on plasma gasification for solid waste management. The results of the study highlight how the approach allows the identification of the dynamic relations between project settings and surrounding conditions. For example, the choice of gasifying agent largely depends on the background energy system, which dictates the impacts of the process energy requirement and the savings from the substituted energy of the syngas output. Based on these findings, the usefulness and validity of the proposed integrated approach are discussed in terms of how the key assessment challenges are addressed and how it can provide guidance for the development of emerging systems.

Published

2023

6. Decision-making fitness of methods to understand Sustainable Development Goal interactions

Author

Lorenzo Di Lucia, Raphael Slade, Jamil Khan, and Natural Environment Research Council (NERC)

Subjects

Global and Planetary Change, Science & Technology, Ecology, Renewable Energy, Sustainability and the Environment, Environmental Studies, Geography, Planning and Development, PATHWAYS, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Urban Studies, Science & Technology - Other Topics, Green & Sustainable Science & Technology, ACHIEVE, Life Sciences & Biomedicine, Environmental Sciences, SDGS, Nature and Landscape Conservation, Food Science

Abstract

The integrated nature of the Sustainable Development Goals (SDGs) presents a challenge to implementing the 2030 Agenda. Analytical methods to support decision-makers are often developed without explicitly incorporating decision-makers’ views and experience. Here, we investigate whether existing methods are fit-for-purpose in supporting decision-makers at national and subnational levels. We identify prominent methods for SDG interaction analysis, which we then evaluate by engaging directly (via a survey and interviews) with method developers and decision-makers in Sweden. We find that decision-makers prioritize methods that are simple and flexible to apply and able to provide directly actionable and understandable results. They are less concerned with the accuracy, precision, completeness or quantitative nature of the knowledge. Prominent categories of methods include self-assessment, expert judgement, literature-based, statistical analyses and modelling. Interviewed decision-makers consider these methods in line with the features prioritized in the survey but highlight low performance on features they value highly, such as the extent to which results are actionable and overall ease of use. Methods developers have limited awareness of decision-makers’ priorities and requirements, so hindering methodological advancement. They should focus on the practical value of applications to support decision-makers, resource-constrained organizations and those seeking to evaluate multiple cases.

Published

2021

7. China’s future food demand and its implications for trade and environment

Author

Pete Smith, Jinfeng Chang, Michael Obersteiner, Mario Herrero, Hao Zhao, Zhaohai Bai, Hugo Valin, Lin Ma, Petr Havlik, Michiel van Dijk, and Charlotte Janssens

Subjects

LAND, Natural resource economics, Environmental Studies, Geography, Planning and Development, Distribution (economics), Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, BIOMASS, FLOWS, Agricultural land, Openness to experience, Life Science, International Policy, Green & Sustainable Science & Technology, China, Internationaal Beleid, EMISSIONS, Nature and Landscape Conservation, Global and Planetary Change, Science & Technology, Ecology, Renewable Energy, Sustainability and the Environment, business.industry, NEXUS, Urban Studies, Agriculture, Greenhouse gas, Sustainability, Science & Technology - Other Topics, Livestock, business, Life Sciences & Biomedicine, Environmental Sciences, Food Science

Abstract

Satisfying China’s food demand without harming the environment is one of the greatest sustainability challenges for the coming decades. Here we provide a comprehensive forward-looking assessment of the environmental impacts of China’s growing demand on the country itself and on its trading partners. We find that the increasing food demand, especially for livestock products (~16%–30% across all scenarios), would domestically require ~3–12 Mha of additional pasture between 2020 and 2050, resulting in ~−2% to +16% growth in agricultural greenhouse gas (GHG) emissions. The projected ~15%–24% reliance on agricultural imports in 2050 would result in ~90–175 Mha of agricultural land area and ~88–226 MtCO2-equivalent yr−1of GHG emissions virtually imported to China, which account for ~26%–46% and ~13%–32% of China’s global environmental impacts, respectively. The distribution of the environmental impacts between China and the rest of the world would substantially depend on development of trade openness. Thus, to limit the negative environmental impacts of its growing food consumption, besides domestic policies, China needs to also take responsibility in the development of sustainable international trade.

Published

2021

8. Evaluation of Commercial Reverse Osmosis and Nanofiltration Membranes for the Removal of Heavy Metals from Surface Water in the Democratic Republic of Congo

Author

Vercus Lumami Kapepula, Mar García Alvarez, Vida Sang Sefidi, Estella Buleng Njoyim Tamungang, Théophile Ndikumana, Dieu-Donné Musibono, Bart Van Der Bruggen, Patricia Luis, UCL - SST/IMMC/IMAP - Materials and process engineering, Hydrobiology Research Center - Department of Hydrology, Uvira, RDC, University of Burundi/Bujumbura - Department of Chemistry, Research & Innovation Center for Process Engineering - ReCIPE, UCLouvain, University of Dschang - Department of Chemistry, Cameroon, University of Bamenda - Department of Chemistry, Cameroon, University of Kinshasa - Department of the Environment, RDC, KU Leuven - Process Engineering for Sustainable Systems (ProcESS), and Tshwane University of Technology - Faculty of Engineering and the Built Environment, South Africa

Subjects

IONS, reverse osmosis, nanofiltration, wastewater, heavy metals, Lake Tanganyika, Technology, Science & Technology, REMEDIATION, GROUNDWATER, General Engineering, Engineering, Environmental, COPPER, Environmental Sciences & Ecology, WASTEWATERS, Engineering, INDUSTRIAL WASTE-WATER, AQUEOUS-SOLUTIONS, FILTRATION, Science & Technology - Other Topics, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

This study evaluates the performance of commercial reverse osmosis (RO) and nanofiltration (NF) membranes for the removal of metal ions from synthetic water and surface water carried from the north-west of Lake Tanganyika in the city of Uvira, in the east of the Democratic Republic of Congo. Metal ion analyses were performed by the standardized ICP-MS and ICP-OES methods. The RO membrane showed higher metal ion rejection in high-concentration solutions (synthetic samples) prepared in the laboratory as well as in low-concentration samples from real raw water collected near Lake Tanganyika. Rejection levels were higher than 98% for Cr3+, Pb2+, Cd2+, As3+, Ni2+, and Sb+3 ions in the synthetic solutions, and 99.2, 98.8, 98.6, 99.2, 98.4, and 98.8%, respectively, in the real samples. The concentrations of metals in the permeate varied depending on the feed concentration and were 0.15 to 1.02 mg/L, 0.33 to 22 mg/L, and 0.11 to 22 mg/L in RO, NF90, and NF270 membranes, respectively. Regarding the NF membranes, the rejection of Cr, Ni, and Cd ions was interesting: 98.2, 97.8, and 92.3%, respectively. However, it was lower for Pb, As, and Sb ions: 76.9, 52.5 and 64.1%, respectively. The flux of NF was 329 to 375 L/m2.h, much higher than for RO membranes, which had a flux of 98 to 132 L/m2.h. The studied membranes are thus a feasible solution to remove the studied metals from real water sources at low concentrations since they meet the standards of the World Health Organization on specific values assigned to chemicals from industrial sources and human habitation areas where these ions are present in drinking water.

Published

2022

9. The Design of the Outer-Rotor Brushless DC Motor and an Investigation of Motor Axial-Length-to-Pole-Pitch Ratio

Author

Ozturk Tosun, Necibe Fusun Oyman Serteller, and Tosun O., OYMAN SERTELLER N. F.

Subjects

Social Sciences and Humanities, Social Sciences (SOC), Tarımsal Bilimler, Sosyal Bilimler ve Beşeri Bilimler, Geography, Planning and Development, axial length to pole pitch ratio, Çevre / Ekoloji, Sociology, genetic algorithm, Tarım ve Çevre Bilimleri (AGE), Su Bilimi, GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY, Agricultural Sciences, General Social Sciences, Life Sciences, ENVIRONMENTAL SCIENCES, ÇEVRE ÇALIŞMALARI, PERMANENT-MAGNET, Physical Sciences, Engineering and Technology, Sosyal Bilimler (SOC), ENVIRONMENTAL STUDIES, ÇEVRE BİLİMLERİ, Yönetim, İzleme, Politika ve Hukuk, Environmental Engineering, SOCIAL SCIENCES, GENERAL, ENVIRONMENT/ECOLOGY, Doğa ve Peyzaj Koruma, Management, Monitoring, Policy and Law, Environmental Science (miscellaneous), Aquatic Science, hub BLDC design, efficiency, optimization, Çevre Bilimi (çeşitli), Yaşam Bilimleri, Genel Sosyal Bilimler, Sosyal ve Beşeri Bilimler, Social Sciences & Humanities, OPTIMIZATION, Sosyoloji, Nature and Landscape Conservation, YEŞİL VE SÜRDÜRÜLEBİLİR BİLİM VE TEKNOLOJİ, Renewable Energy, Sustainability and the Environment, Building and Construction, Agriculture & Environment Sciences (AGE), Sosyal Bilimler Genel, MACHINE, Çevre Mühendisliği, Fizik Bilimleri, Mühendislik ve Teknoloji

Abstract

In this study, the effects of the ratio of a motor’s axial length to its pole pitch on efficiency, magnetic flux density distribution, torque, torque/weight, and motor volume were investigated in an outer-rotor (hub) brushless direct current motor. The weight and volume of an electrical machine affects the output power, efficiency and output torque, and it is advantageous to design an electric motor at an appropriate power and high efficiency with an appropriate weight and volume. Therefore, the aim of this study was to optimize the motor’s axial length and stator outer diameter, which affects the motor volume. Initially, the axial-length-to-pole-pitch ratio of the hub BLDC motor was taken at 0.75. According to this ratio, the dimensions of the rotor outer diameter, rotor inner diameter, stator outer diameter, stator inner diameter, slot height, motor axial length, and magnet thickness were optimally determined. Then, the axial-length-to-pole-pitch ratio was considered as 1, 1.50, 2, and 3, respectively. The effects of the change in the motor’s axial-length-to-pole-pitch ratio on the efficiency, torque, speed, torque/volume, torque/weight, and cogging torque were examined in a simulation environment. According to the motor’s axial-length-to-pole-pitch ratio, the torque value in the final state was 28.65% higher than the torque value in the initial state. In the last part, the motor axial length and the stator outer diameter were defined as variables in a genetic algorithm procedure and optimized. The number of poles and the number of slots were fixed parameters. Simulation studies were carried out using the finite element method via AN-SYS/Maxwell software.

Published

2022

10. Mutual Influence between Polyvinyl Chloride (Micro)Plastics and Black Soldier Fly Larvae (Hermetia illucens L.)

Author

Siebe Lievens, Giulia Poma, Lotte Frooninckx, Tom Van der Donck, Jin Won Seo, Jeroen De Smet, Adrian Covaci, and Mik Van Der Borght

Subjects

bioconversion, Geography, Planning and Development, Environmental Studies, polymer degradation, food waste, growth performance, feed conversion, waste reduction, PVC, insect larvae, Environmental Sciences & Ecology, BIODEGRADATION, Management, Monitoring, Policy and Law, SUBSTRATE, FEED, Green & Sustainable Science & Technology, DIPTERA STRATIOMYIDAE, MINERALIZATION, Biology, Science & Technology, Renewable Energy, Sustainability and the Environment, Building and Construction, Chemistry, SAFETY, POLYSTYRENE, Science & Technology - Other Topics, GROWTH, Engineering sciences. Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Due to the expansion in the global population, there is an increase in animal protein demand and waste generation. Currently, food waste derived from supermarkets, etc., which is used to produce biogas, is collected separately and can contain (micro)plastics deriving from food packaging, imposing potential risks to the environment. A possible solution to address protein, waste and plastic concerns can potentially be achieved by rearing black soldier fly (BSF) larvae on such substrates. In this study, we investigated the effect of polyvinyl chloride (PVC) (micro)plastics on the growth, survival, and bioconversion of BSF larvae. On the other hand, the impact of the larvae on the polymer structure and degradation was also assessed. This was carried out by rearing BSF larvae on artificial food waste spiked with micro-, meso-, and macroplastics, while measuring larval growth, survival, and bioconversion parameters. The remaining plastics were collected and analysed upon changes and degradation of their polymer structure. Generally, BSF larvae were not affected in terms of growth performance (179.9–210.4 mg), survival (77.1–87.3%), and bioconversion (FCR: 4.65–5.53) by the presence of (micro)plastics in the substrates. Furthermore, the larvae were also unable to significantly alter the polymer structure of the used plastic.

Published

2022

11. Towards a Decision-Making Approach of Sustainable Water Resources Management Based on Hydrological Modeling: A Case Study in Central Morocco

Author

Abdennabi Alitane, Ali Essahlaoui, Ann Van Griensven, Estifanos Addisu Yimer, Narjisse Essahlaoui, Meriame Mohajane, Celray James Chawanda, Anton Van Rompaey, Faculty of Engineering, Hydrology and Hydraulic Engineering, and Geography

Subjects

R'Dom watershed, DEMAND, Geography, Planning and Development, Environmental Studies, SWAT MODEL, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, SEDIMENT, water balance, HISTORY, RUNOFF, CYCLE, Green & Sustainable Science & Technology, SWAT plus model, validation, Science & Technology, NORTH, Renewable Energy, Sustainability and the Environment, Building and Construction, calibration, LAKE, RIVER-BASIN, Science & Technology - Other Topics, streamflow, SWAT+ model, R’Dom watershed, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Water is one of the fundamental resources of economic prosperity, food security, human habitats, and the driver of many global phenomena, such as droughts, floods, contaminated water, disease, poverty, and hunger. Therefore, its deterioration and its inadequate use lead to heavy impacts on environmental resources and humans. Thus, we argue that to address these challenges, one can rely on hydrological management strategies. The objective of this study is to simulate and quantify water balance components based on a hydrologic model with available data at the R’Dom watershed in Morocco. For this purpose, the hydrologic model used is the Soil and Water Assessment Tool + (SWAT+) model. The streamflow model simulations were run at the monthly time step (from 2002 to 2016), during the calibration period 2002–2009, the coefficient of determination (R2) and Nash–Sutcliffe efficiency (NSE) values were 0.84 and 0.70, respectively, and 0.81 and 0.65, respectively, during the validation period 2010–2016. The results of the water balance modeling in the watershed during the validation period revealed that the average annual precipitation was about 484 mm, and out of this, 5.75 mm came from the development of irrigation in agricultural lands. The evapotranspiration accounted for about 72.28% of the input water of the watershed, while surface runoff (surq_gen) accounted for 12.04%, 11.90% was lost by lateral flow (latq), and 4.14% was lost by groundwater recharge (perco). Our approach is designed to capture a real image of a case study; zooming into other case studies with similar environments to uncover the situation of water resources is highly recommended. Moreover, the outcomes of this study will be helpful for policy and decision-makers, and it can be a good path for researchers for further directions based on the SWAT model to simulate water balance to achieve adequate management of water resources.

Published

2022

12. An Empirical Study for Senior Citizens Using a Customized Medical Informatics System for Dementia Diagnosis and Analysis

Author

Hsu-Hua Ho, Jien-Jou Lin, Jia-Qiao Gong, and Tzu-Yi Yu

Subjects

RISK, Science & Technology, Renewable Energy, Sustainability and the Environment, medical informatic system, Geography, Planning and Development, Environmental Studies, healthcare sustainability, SOCIETY, Environmental Sciences & Ecology, Building and Construction, big data, Management, Monitoring, Policy and Law, Science & Technology - Other Topics, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

The treatment of dementia-related diseases is a global issue. Taiwan is facing a more serious dementia problem due to the combination of an aging society and a declining birthrate. A great portion of healthcare resources has been utilized for dementia among the aged population. In order to understand how dementia develops in rural areas in Taiwan, a cooperated effort between the university and a regional hospital was formed to develop a customized medical information system to collect and track dementia patients. This efficient customized system compiled information on 768 patients with dementia-released diseases. Big data technology and data mining approaches were then applied to analyze the relevant information. Using statistical analysis, we then extracted useful medical findings from the large amounts of collected medical data. Some of the findings indicate that the patients’ education level and care practices have a major effect on the dementia severity in these local senior populations.

Published

2022

13. Water Splitting by MnOx/Na2CO3 Reversible Redox Reactions

Author

Jia Liu, Shuo Li, Raf Dewil, Maarten Vanierschot, Jan Baeyens, and Yimin Deng

Subjects

Science & Technology, thermochemical water splitting, HYDROGEN-PRODUCTION, Renewable Energy, Sustainability and the Environment, H-2 yield, Geography, Planning and Development, Environmental Studies, Environmental Sciences & Ecology, pilot-scale, Building and Construction, Management, Monitoring, Policy and Law, H2 yield, redox reactions, cyclic operation, solar reactor, LOW-TEMPERATURE, GAS, Science & Technology - Other Topics, Green & Sustainable Science & Technology, THERMOCHEMICAL CYCLE, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Thermal water splitting by redox reactants could contribute to a hydrogen-based energy economy. The authors previously assessed and classified these thermo-chemical water splitting redox reactions. The Mn3O4/MnO/NaMnO2 multi-step redox cycles were demonstrated to have high potential. The present research experimentally investigated the MnOx/Na2CO3 redox water splitting system both in an electric furnace and in a concentrated solar furnace at 775 and 825 °C, respectively, using 10 to 250 g of redox reactants. The characteristics of all reactants were determined by particle size distribution, porosity, XRD and SEM. With milled particle and grain sizes below 1 µm, the reactants offer a large surface area for the heterogeneous gas/solid reaction. Up to 10 complete cycles (oxidation/reduction) were assessed in the electric furnace. After 10 cycles, an equilibrium yield appeared to be reached. The milled Mn3O4/Na2CO3 cycle showed an efficiency of 78% at 825 °C. After 10 redox cycles, the efficiency was still close to 60%. At 775 °C, the milled MnO/Na2CO3 cycles showed an 80% conversion during cycle 1, which decreased to 77% after cycle 10. Other reactant compounds achieved a significantly lower conversion yield. In the solar furnace, the highest conversion (>95%) was obtained with the Mn3O4/Na2CO3 system at 775 °C. A final assessment of the process economics revealed that at least 30 to 40 cycles would be needed to produce H2 at the price of 4 €/kg H2. To meet competitive prices below 2 €/kg H2, over 80 cycles should be achieved. The experimental and economic results stress the importance of improving the reverse cycles of the redox system.

Published

2022

14. Countering the effects of habitat loss, fragmentation, and degradation through habitat restoration

Author

Cristina Banks-Leite, Robert M. Ewers, Hollie Folkard-Tapp, and Adam Fraser

Subjects

Science & Technology, Extinction, Ecology, Environmental Studies, CONSERVATION, Fragmentation (computing), Biodiversity, Environmental Sciences & Ecology, Geography, Habitat destruction, Habitat, Earth and Planetary Sciences (miscellaneous), Science & Technology - Other Topics, BIODIVERSITY, Ecosystem, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Restoration ecology, Environmental Sciences, General Environmental Science, Global biodiversity

Abstract

Summary Habitat loss, fragmentation, and degradation impacts are the most direct threat to global biodiversity. In this Primer, we discuss how these three forms of habitat transformation are inextricably intertwined, and how their effects on biodiversity and ecosystems are often context specific. We draw on recent analyses that have explored this context-dependence directly to discuss how local-scale impacts of habitat transformation are mediated by biogeographic-scale variation in evolutionary histories and species’ geographic ranges. We also discuss how changes to ecosystem functions and services in modified habitats can be just as context-dependent—and how these changes are further obscured by high levels of ecological redundancy in species functions, which can confer resilience to habitat transformation. To avoid the impending extinction of millions of species, it is crucial that the impacts of habitat transformation are mitigated through a combination of preventing further habitat loss while simultaneously extending and repairing the habitats that remain.

Published

2020

15. Investigating environmental awareness of citizens of Azerbaijan: a survey on ecological footprint

Author

Elcin Nesirov, Ismail Bulent Gurbuz, Gulay Ozkan, Bursa Uludağ Üniversitesi/Ziraat Fakültesi/Tarım Ekonomisi Bölümü., Gürbüz, İsmail Bülent, Nesirov, Elçin, Özkan, Gülay, A-8721-2018, G-7807-2015, and M-4349-2019

Subjects

Economics and Econometrics, Azerbaijan, Science & technology - other topics, Sustainable environment, Geography, Planning and Development, 0211 other engineering and technologies, Sample (statistics), 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, CO2 emissions, 01 natural sciences, Water consumption, Tourism, Sustainable development, Environmental sciences & ecology, Ecological footprint, Ecological Footprint, Biocapacity, China, 021108 energy, Kuznets curve, Socioeconomics, Energy-consumption, Economic-growth, 0105 earth and related environmental sciences, Data collection, University-students, Water, Energy consumption, Green & sustainable science & technology, Environmental sciences, Food-consumption, Biological capacity, Residence, Globalization, Ecological footprint awareness survey

Abstract

The adverse effects of humans on the environment are growing every day. "Ecological footprint" (EF) is related to the Sustainable Environment and measures the impact of human activities on the environment. The reduction of EF has become a critical issue. This research aims to determine the EF awareness of consumers. The research sample consists of 404 consumers residing in the Ganja province of Azerbaijan. The "ecological footprint awareness survey" has been used as a data collection tool. The collected data were analysed with the SPSS 24.0 package program. The variables of the research were gender, educational status, place of residence, occupation, and income. Research has shown that the highest consumer awareness of EF was in food and transportation, and the lowest awareness was in water consumption. There was no statistically significant difference by gender. When the resident effect was examined, EF water consumption awareness was significantly higher among those living in the town than those living in the city. Consumers with middle school and university degrees were more conscious of their energy consumption levels. By profession, civil servants, farmers and housewives exerted higher environmental awareness than other groups examined. Finally, the income variable showed that higher-income consumers were more aware of the food, energy, and water consumption related matters.

Published

2020

16. Sustainable lead management in halide perovskite solar cells

Author

Hyun Suk Jung, Hyemin Lee, Kai Zhu, Ji-Sang Park, Byeong Jo Kim, So Yeon Park, Aron Walsh, and Dong Hoe Kim

Subjects

IONS, ADSORPTION, Environmental Studies, Geography, Planning and Development, Halide, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, HIGHLY EFFICIENT, REMOVAL, Adsorption, Lead (geology), Green & Sustainable Science & Technology, Nature and Landscape Conservation, Electrostatic interaction, Perovskite (structure), Pollutant, Global and Planetary Change, Science & Technology, Ecology, Renewable Energy, Sustainability and the Environment, Chemistry, Urban Studies, PRECIPITATION, Environmental chemistry, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences, Food Science

Abstract

Despite the rapid development of perovskite solar cells (PSCs) toward commercialization, the toxic lead (Pb) ions in PSCs pose a potential threat to the environment, health and safety. Managing Pb via recycling represents a promising approach to mitigating its toxicity. However, managing Pb from commonly used organic solvents has been challenging due to the lack of suitable Pb adsorbents. Here, we report a new adsorbent for both separation and recovery of Pb from PSC pollutants. The synthesized iron-incorporated hydroxyapatite possesses a strongly negatively charged surface that improves electrostatic interaction through surface-charge delocalization, thus leading to enhanced Pb adsorption. We demonstrate the feasibility of a complete Pb management process, including the purification of Pb-containing non-aqueous solvents below 15 parts per 109, a level compliant with the standards of the US Environmental Protection Agency, as well as recycling of 99.97% of Pb ions by forming lead iodide. The most-efficient solar cells use Pb-based halide perovskites; however, their toxicity poses environmental and health risks. Here, the authors report an adsorbent that allows for sustainable Pb management in these devices.

Published

2020

17. An in-silico proof-of-concept of electrohydrodynamic air amplifier for low-energy airflow generation

Author

Donato Rubinetti, Kamran Iranshahi, Daniel I. Onwude, Lei Xie, Bart Nicolaï, and Thijs Defraeye

Subjects

Technology, Science & Technology, Electrohydrodynamics, Renewable Energy, Sustainability and the Environment, Strategy and Management, Engineering, Environmental, Environmental Sciences & Ecology, Building and Construction, Industrial and Manufacturing Engineering, Engineering, Coanda effect, Air propulsion, CFD, Corona dischargeIonic wind, Science & Technology - Other Topics, Corona discharge, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Ionic wind, Environmental Sciences, General Environmental Science

Abstract

Electrohydrodynamic (EHD) technology generates airflow without moving parts, making it a reliable solution for various low-energy applications. EHD-based airflow devices enhance airflow patterns, resulting in significant energy savings in air-moving systems. This airflow, also known as ionic wind, is created through Corona discharge, which accelerates electrically charged air molecules in a strong electric field. Currently, EHD's low electrical-to-mechanical energy conversion rate still limit its ability to generate large flow rates. The objective of this study is to enhance the flow rate of EHD-based devices, for applications where EHD can be used as an effective auxiliary technology with low pressure lift, to enhance airflow distribution and circulation. To this end, a novel bladeless air propulsion device is proposed that combines ionic wind with air amplification based on the Coanda phenomenon to amplify EHD-generated flow rates. We assess the performance of the bladeless air propulsion device to generate airflow by investigating fluid dynamics, electrostatics, and energy consumption. We demonstrate the proof-of-concept with an innovative fully-coupled simulation approach for corona discharge and EHD modeling. We explore different design parameters on the conceptual EHD air amplifier, such as the electric potential (10–30 kV) of the discharge electrode, the electrode spacing (5–25 mm), and the channel height (30–150 mm). The studies are performed on a 2D constrained channel flow and a 2D-axisymmetric open space design, respectively. In order to quantify the benefit of air amplification on EHD, the results are benchmarked to a regular EHD setup without amplifying vane as well as to a comparable commercial axial fan. We assess the performance in terms of flow rate per electric power input. Here, the EHD air amplifier in the constrained flow configuration increases the total flow rate by 59% compared to regular EHD and 48% compared to the axial fan for the same electrical energy input. Amplification factors of 16.5–19 are achieved for the constrained configuration and 5.5 to 6.4 for the open space configuration. The predicted energy consumption is 4–17.5 W for the open space configuration, resulting in flow rates up to 140 m3 h−1. These results show that EHD air amplification is a promising way to generate high flow rates with low pressure rise at a low electrical cost, by which it can provide a more sustainable alternative to conventional fans in specific applications., Journal of Cleaner Production, 398, ISSN:0959-6526

Published

2022

18. Effects of Photovoltaic Solar Farms on Microclimate and Vegetation Diversity

Author

Jeffrey Vervloesem, Ernesto Marcheggiani, MD Abdul Mueed Choudhury, and Bart Muys

Subjects

Science & Technology, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Environmental Studies, SOIL PROPERTIES, TRADE-OFFS, SMOOTHING PARAMETER, PHYSICAL-PROPERTIES, Environmental Sciences & Ecology, Building and Construction, WORLD MAP, Management, Monitoring, Policy and Law, land use impact, renewable energy, land planning, ENVIRONMENTAL IMPACTS, ENERGY, OZONE UPTAKE, OAK FOREST, FOREST QUERCUS-ILEX, Science & Technology - Other Topics, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

The need for energy and the increasing importance of climate change mitigation are leading to a conversion from conventional to renewable energy sources. Solar photovoltaic (PV) power has seen the most significant increase among all renewable energy sources. However, most of these installations are land-based, significantly changing global land use (LU). The real impacts, whether positive or negative, are poorly understood. This study was undertaken to have a better understanding of the impacts of solar parks on the microclimate and vegetation dynamics. First, different solar parks were visited to take measurements of the surface temperature (Tsurf), photosynthetic active radiation (PAR), air temperature (Tair), and humidity (RH) to quantify the microclimate and perform a vegetation relevé. The measurements were taken at different positions: underneath, in between, and outside solar panels. For vegetation, the data were first converted to diversity indices, which in turn contributed to a multi-indicator land use impact assessment that evaluated effects on vegetation, biodiversity, soil and water. Solar parks had clear effects on microclimate: if the panels were high enough from the ground, they could lower the Tsurf by providing shade and enough airflow. Additionally, the multidimensional functional diversity (FD) analysis of the vegetation indicated that there was less light at a higher humidity and lower temperature underneath the panels. Interestingly, the species underneath the panels also preferred a lower pH and a higher nitrogen level. Finally, the land use impact assessment found that the total land use impact for a wheat field was higher than that of the solar park, which suggests that the conversion of conventional intensive agriculture to a solar park would be beneficial.

Published

2022

19. Systematic Quantification of Waste Compositions: A Case Study for Waste of Electric and Electronic Equipment Plastics in the European Union

Author

Alexander Boudewijn, Jef R. Peeters, Dirk Cattrysse, Wim Dewulf, Luca Campadello, Alessia Accili, and Joost R. Duflou

Subjects

Science & Technology, DISCRETE MATERIALS, Renewable Energy, Sustainability and the Environment, e-waste, Environmental Studies, Geography, Planning and Development, Environmental Sciences & Ecology, Building and Construction, recycling, Management, Monitoring, Policy and Law, BROMINATED FLAME RETARDANTS, WEEE, Science & Technology - Other Topics, plastics, Green & Sustainable Science & Technology, WEEE PLASTICS, data integration, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Waste Electric and Electronic Equipment (WEEE) is a prominent and increasing waste stream for which the Commission of the European Union has put in place ambitious recycling targets. However, these targets can only be achieved by ensuring that both industry and governments develop adequate infrastructure and policies for recycling plastics in an economically and technically optimal manner. Unfortunately, a quantitative overview of WEEE plastics covering the composition of waste streams down to the product component level and describing polymer and additive concentrations, is currently lacking. This hinders policymakers and recyclers in making strategic decisions regarding WEEE plastics recycling. Therefore, a novel method is proposed in this paper combining experimental results with findings from prior literature in order to provide sound quantitative insights into the volume and characteristics of the plastics content of WEEE collected in the European Union. The provided overview was obtained through a combination of proprietary experimental data and a statistical data integration method. More specifically, over 3800 samples awere analysed through manual composition analysis, FTIR, and XRF. The obtained results were integrated with data from prior literature through a novel data integration methodology based on linear opinion pools. The obtained results confirm that distinct plastic types can be found in different product categories and that flame retardants are only found in high concentrations in specific waste streams or components thereof. Hence, the presented analysis provides a quantitative substantiation for the separate collection and treatment of specific waste streams in order to reduce the complexity of the mix of plastic types and allow for the more cost-efficient and higher quality recycling of plastics.

Published

2022

20. Multi-Channel LED Luminaires: An Object-Oriented Approach for Retail Lighting Based on the SOR Framework

Author

Kaveh Ahmadian Tazehmahaleh, Hamideh Godazgar, Kevin AG Smet, and Peter Hanselaer

Subjects

PERCEPTION, Science & Technology, SOR framework, lighting, Renewable Energy, Sustainability and the Environment, Environmental Studies, LED, Geography, Planning and Development, color rendering, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, ATMOSPHERICS, memory color, DESIGN, COLOR APPEARANCE, TIME-COURSE, Science & Technology - Other Topics, QUALITY, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences, REAL

Abstract

In this paper, a method to find the optimum spectrum for the illumination of objects in a retail environment is presented. A variety of familiar objects are illuminated with a number of illuminants of a predefined Correlated Color Temperature (CCT) of 3000 K, strategically selected from the entire range of metamers, which can be generated by the multi-channel luminaire under test. The solution space has been derived by solving basic colorimetric equations using a brute force method. In a paired comparison experiment, observers had to select the most “attractive” appearance for the presented objects. The results illustrate that objects may indeed appear more attractive for a statistically meaningful number of observers under a particular lighting condition. Assuming attractiveness of an object as a stimulus in the SOR framework, this approach facilitates the generation and the selection of the “optimum” spectrum based on the goals of the stakeholders in retail lighting applications.

Published

2022

21. How to Reduce Individuals’ Ecological Footprint without Harming Their Well-Being: An Application to Belgium

Author

Brent Bleys, Elsy Verhofstadt, Luc Van Ootegem, and Bart Defloor

Subjects

Monitoring, PLANNED BEHAVIOR, Environmental Studies, Geography, Planning and Development, GREEN, Social Sciences, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, KNOWLEDGE, Renewable Energy, ATTITUDES, Green & Sustainable Science & Technology, life satisfaction, SELF-IDENTITY, Planning and Development, Science & Technology, Policy and Law, Sustainability and the Environment, Geography, Renewable Energy, Sustainability and the Environment, pro-environmental behaviour, VALUES, EXPERIENCED UTILITY, ecological footprint, Management, Earth and Environmental Sciences, PRO-ENVIRONMENTAL BEHAVIOR, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Human activities are a key driver of many environmental problems the world is facing today, including climate change, the disruption of biogeochemical cycles, and biodiversity loss. Behavioural changes at the individual and household level are needed to reduce humanity’s environmental impact, but people also need the capacity to behave in a sustainable way. If their well-being is negatively impacted or if behaving sustainably is too time consuming or too expensive, people might be less inclined to change their behaviour. In this article, we look at the determinants of different types of pro-environmental behaviour and how these are associated with their experienced levels of well-being. More specifically, we focus on the determinants of behaviours that influence both the ecological footprint (EF) and satisfaction with life. In our analysis we include socio-demographic characteristics and a number of psychological antecedents of pro-environmental behaviour (PEB). The data we use was collected in Flanders (Belgium) and allows us to calculate the EF of each respondent individually. Our main conclusions are threefold. First, even if individuals are provided with opportunities to behave in a more sustainable way, they do not always do so (e.g., richer people on average have a higher EF). Efforts could be put in place at the collective side (e.g., public infrastructure) to stimulate people to reduce their environmental impact. Second, as we distinguish seven EF components, we are able to show differential effects of each of the determinants. Third, the association between PEB and satisfaction with life is not strong: only the type of housing is significantly associated with satisfaction with life. Related to that, the psychological antecedents of PEB are only associated with the EF, not with satisfaction with life.

Published

2022

22. Development of a Bio-Digital Interface Powered by Microbial Fuel Cells

Author

Jiseon You, Arjuna Mendis, John Greenman, Julie Freeman, Stephen Wolff, Rachel Armstrong, Rolf Hughes, and Ioannis A. Ieropoulos

Subjects

sustainable built environment, microbial fuel cell, bio-digital interface, adaptive dynamic cell reconfiguration, Science & Technology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Environmental Studies, Geography, Planning and Development, TJ807-830, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, Science & Technology - Other Topics, GE1-350, LOAD, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

This paper reports the first relatable bio-digital interface powered by microbial fuel cells (MFCs) that was developed to inform the public and introduce the concept of using live microbes as waste processors within our homes and cities. An innovative design for the MFC and peripherals system was built as a digital data generator and bioreactor, with a custom-built energy-harvesting controller that was connected to the system to enable efficient system operation using adaptive dynamic cell reconfiguration and transmit data for the bio-digital interface. This system has accomplished multiple (parallel) tasks such as electricity generation, wastewater treatment and autonomous operation. Moreover, the controller demonstrated that microbial behaviour and consequent system operation can benefit from smart algorithms. In addition to these technical achievements, the bio-digital interface is a site for the production of digital art that aims to gain acceptance from a wider-interest community and potential audiences by showcasing the capabilities of living microorganisms in the context of green technologies.

Published

2022

23. Catalytic Ozonation of the Secondary Effluents from the Largest Chinese Petrochemical Wastewater Treatment Plant-A Stability Assessment

Author

Siyu Zhang, Hao Wang, Yuexi Zhou, Mohammadreza Kamali, Xuwen He, Mohammadreza Khalaj, and Yu Xia

Subjects

catalytic ozonation, Science & Technology, OZONE, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Environmental Studies, petrochemical industry, secondary effluent, stability evaluation, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, ABSORBENCY, Science & Technology - Other Topics, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Effluents discharged from petrochemical facilities are complex and composed of various types of highly toxic contaminants, which necessitates the development of sustainable treatment technologies. Stability is among the most important sustainability criteria of the wastewater treatment processes. In the present manuscript, the standard-reaching rate (η) index was used to evaluate the stability of the catalytic ozonation process for treating the secondary effluent from the petrochemical industry. A pilot-scale device was designed and implemented for catalytic ozonation. The effluents were taken from the secondary sedimentation tank of a petrochemical wastewater treatment plant in China. A commercially available γ-Al2O3 was used as the catalyst after a pre-treatment heating step. The catalyst was characterized using scanning electron microscopy. Three mathematical statistics indexes, discrete coefficient (Vσ), skewness coefficient (Cso), and range coefficient (VR), were used to analyze the results achieved from the catalytic ozonation process. Continuous operation of the pilot-scale device was monitored for 9 months under an ozone concentration of 36 mg/L and the contact oxidation time of 1 h. The results demonstrated that the stability evaluation grades of chemical oxygen demand (COD) and suspended solids (SS) in the effluent of the catalytic ozonation system were both 3 and A, indicating that the process was relatively stable over a long period of application. The effluent COD compliance grade was also calculated as B, indicating that the effluent COD does not meet the standard and the process parameters need to be further optimized. When the reflux ratio is 150%, the removal rate of COD is the highest (38.2%) and the COD of effluent is 49.34 mg/L. Meanwhile, to enhance the efficiency and stability of the system, the ozone concentration and the two-stage aeration ratio are 40 mg/L and 4:1, respectively. Moreover, the presence of SS in the water of the catalytic ozonation system will result in the waste of ozone and reduce the utilization rate of ozone.

Published

2022

24. Scanning the solutions for the sustainable supply of forest ecosystem services in Europe

Author

Hernández-Morcillo, M., Torralba, M., Baiges, T., Bernasconi, A., Bottaro, G., Brogaard, S., Bussola, F., Díaz-Varela, E., Geneletti, D., Grossmann, C.M., Kister, J., Klingler, M., Loft, L., Lovric, M., Mann, C., Pipart, N., Roces-Díaz, J.V., Sorge, S., Tiebel, M., Tyrväinen, L., Varela, E., Winkel, G., and Plieninger, T.

Subjects

Health (social science), Forstwirtschaft, Sociology and Political Science, CONSERVATION, Geography, Planning and Development, Ecosystem services, EU Forestry Strategy, European forests, Leverage points, Solution scanning, Sustainability, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Forest and Nature Conservation Policy, MANAGEMENT, Bos- en Natuurbeleid, Green & Sustainable Science & Technology, ADAPTATION, Nature and Landscape Conservation, Global and Planetary Change, Science & Technology, Nachhaltigkeit, Ecology, VALUES, Leverage-Effekt, POLICY, PRINCIPLES, PAYMENTS, Science & Technology - Other Topics, European forests, Ecosystem services, Sustainability, Solution scanning, Leverage points, EU Forestry Strategy, Forstökologie, Europa, Ökosystemdienstleistung, Life Sciences & Biomedicine, Environmental Sciences

Abstract

UNLABELLED: Forests are key components of European multifunctional landscapes and supply numerous forest ecosystem services (FES) fundamental to human well-being. The sustainable provision of FES has the potential to provide responses to major societal challenges, such as climate change, biodiversity loss, or rural development. To identify suitable strategies for the future sustenance of FES, we performed a solution scanning exercise with a group of transdisciplinary forest and FES experts from different European regions. We identified and prioritized fifteen major challenges hindering the balanced provision of multiple FES and identified a series of potential solutions to tackle each of them. The most prominent challenges referred to the increased frequency and impacts of extreme weather events and the normative mindset regarding forest management. The respective solutions pointed to the promotion of forest resilience via climate-smart forestry and mainstreaming FES-oriented management through a threefold strategy focusing on education, awareness raising, and networking. In a subsequent survey, most solutions were assessed as highly effective, transferable, monitorable, and with potential for being economically efficient. The implementation of the solutions could have synergistic effects when applying the notion of leverage points. Seven emerging pathways towards the sustainable supply of FES have been identified. These pathways build on each other and are organized based on their potential for transformation: (1) shifting forest management paradigms towards pluralistic ecosystem valuation; (2) using integrated landscape approaches; (3) increasing forest resilience; (4) coordinating actions between forest-related actors; (5) increasing participation in forest planning and management; (6) continuous, open, and transparent knowledge integration; and (7) using incentive-based instruments to support regulating and cultural FES. These pathways can contribute to the implementation of the new EU Forestry Strategy to support the balanced supply of multiple FES. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s11625-022-01111-4. ispartof: SUSTAINABILITY SCIENCE vol:17 issue:5 pages:2013-2029 ispartof: location:Japan status: published

Published

2022

25. Research strategies to catalyze agroecological transitions in low‑ and middle‑income countries

Author

Sarah K. Jones, Nadia Bergamini, Francesca Beggi, Didier Lesueur, Barbara Vinceti, Arwen Bailey, Fabrice A. DeClerck, Natalia Estrada-Carmona, Carlo Fadda, Etienne M. Hainzelin, Danny Hunter, Chris Kettle, Job Kihara, Abdel Kader Naino Jika, Mirjam Pulleman, Roseline Remans, Celine Termote, Tobias Fremout, Evert Thomas, Louis Verchot, Marcela Quintero, Bioversity International [Montpellier], Bioversity International [Rome], Consultative Group on International Agricultural Research [CGIAR] (CGIAR)-Consultative Group on International Agricultural Research [CGIAR] (CGIAR), Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) [Rome] (Alliance), Consultative Group on International Agricultural Research [CGIAR] (CGIAR), The Alliance of Bioversity International and International Center for Tropical Agriculture (CIAT) [India], Ecologie fonctionnelle et biogéochimie des sols et des agro-écosystèmes (UMR Eco&Sols), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut de Recherche pour le Développement (IRD)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Département Environnements et Sociétés (Cirad-ES), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), International Center for Tropical Agriculture [Hanoï] (CIAT Asia), International Center for Tropical Agriculture [Colombie] (CIAT), Deakin University [Burwood], Cirad Direction Générale (Cirad-DG), The Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) [Cali], International Center for Tropical Agriculture [Kenya] (CIAT), Wageningen University and Research [Wageningen] (WUR), Bioversity International [Genève], Bioversity International [Kenya], International Centre of Insect Physiology and Ecology (ICIPE), ICIPE, Bioversity International [Pérou], and Columbia University [New York]

Subjects

Health (social science), AGRICULTURE, Sociology and Political Science, INNOVATION, [SDV]Life Sciences [q-bio], F08 - Systèmes et modes de culture, agroécologie, Geography, Planning and Development, research methods [EN], systèmes alimentaires, Agroecology, Sustainable food systems, Food system transformation, Transition pathways, Green & Sustainable Science & Technology, Global and Planetary Change, Ecology, ECOLOGICAL INTENSIFICATION, FOOD SECURITY, Soil Biology, PE&RC, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences & Ecology, Politique de développement, Management, Monitoring, Policy and Law, SUSTAINABILITY, SYSTEMS, MANAGEMENT, Life Science, Pays en développement, Durabilité, Bodembiologie, E10 - Économie et politique agricoles, Nature and Landscape Conservation, Science & Technology, PATHWAYS, BIODIVERSITY, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Politique agricole, Environmental Sciences

Abstract

Governments are updating national strategies to meet global goals on biodiversity, climate change and food systems proposed in the Convention on Biological Diversity post-2020 framework and agreed at the United Nation’s Climate Change Conference (COP26) and Food Systems Summit (UNFSS). This represents a unique and crucial opportunity to integrate and accelerate food system actions to tackle interconnected global challenges. In this context, agroecology is a game-changing approach that can provide the world’s growing population with nutritious, healthy afordable food, ensure fair incomes to farmers and halt and reverse the degradation of the natural environment. Here, we explore agroecological transition pathways in four case studies from low- and middle- income countries and identify catalysts for change. We fnd that enabling policy and market environments, participatory action research and local socio-technical support each plays a critical role in stimulating transitions towards agroecology. We propose strategies and priorities for research to better support agroecological transitions using these catalysts of change as entry points. Engagement of governments, private sector, civil society, farmers and farm workers in this research agenda is essential., Sustainability Science, 17 (6), ISSN:1862-4065, ISSN:1862-4057

Published

2022

26. Implementation of circular economy approaches in the electrical and electronic equipment (EEE) sector: Barriers, enablers and policy insights

Author

Vasileios Rizos and Julie Bryhn

Subjects

Circular economy barriers and enablers, Technology, Circular economy, STRATEGIES, Electrical and electronic equipment (EEE)&nbsp, Strategy and Management, ENVIRONMENTAL-MANAGEMENT, Environmental Sciences & Ecology, Circular economy business models, E-waste, Industrial and Manufacturing Engineering, Resource efficiency, SUPPLY CHAINS, Engineering, DRIVERS, ATTITUDES, ECODESIGN, Green & Sustainable Science & Technology, General Environmental Science, Science & Technology, CHALLENGES, ENERGY EFFICIENCY, Renewable Energy, Sustainability and the Environment, Engineering, Environmental, Building and Construction, BUSINESS, Sustainability, Science & Technology - Other Topics, Life Sciences & Biomedicine, sector, Environmental Sciences, STANDARDS

Abstract

ispartof: JOURNAL OF CLEANER PRODUCTION vol:338 status: published

Published

2022

27. Climate-Fit.City: Urban Climate Data and Services

Author

Lefebre, Filip, De Ridder, Koen, Jupova, Katerina, Koeberl, Judith, Lauwaet, Dirk, Passani, Antonella, Remund, Jan, Willems, Patrick, Witpas, Katrien, Kondrup, C, Mercogliano, P, Bosello, F, Mysiak, J, Scoccimarro, E, Rizzo, A, Ebrey, R, DeRuiter, M, Jeuken, A, and Watkiss, P

Subjects

Science & Technology, Urban heat stress, Urban adaptation planning, IMPACT, PRECIPITATION, Science & Technology - Other Topics, Environmental Sciences & Ecology, Urban flooding, Mathematical & Computational Biology, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences, Urban climate change

Abstract

ispartof: pages:105-113 ispartof: CLIMATE ADAPTATION MODELLING pages:105-113 ispartof: High-level Expert Workshop on Climate Adaptation Modelling organised by the European Commission, Directorate General Climate Action, in co-operation with the Euro-Mediterranean Centre on Climate Change location:online status: published

Published

2022

28. Institutional Barriers and Facilitators of Sustainability for Indonesian Batik SMEs: A Policy Agenda

Author

Arien Arianti Gunawan, Jose Bloemer, Allard C. R. van Riel, Caroline Essers, GUNAWAN, Arien, Essers, Caroline, Bloemer, Jose, and VAN RIEL, Allard

Subjects

Science & Technology, JARUM VILLAGE, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Environmental Studies, batik industry, policy recommendations, sustainable entrepreneurship, female entrepreneurs, Environmental Sciences & Ecology, Building and Construction, Management, Monitoring, Policy and Law, ENTREPRENEURSHIP, DRIVERS, IMPLEMENTATION, Science & Technology - Other Topics, Green & Sustainable Science & Technology, Institute for Management Research, Life Sciences & Biomedicine, Environmental Sciences

Abstract

The implementation of sustainability-oriented practices in small-and medium-sized enterprises (SMEs) has been discussed frequently over the years. Recent studies on sustainability have focused mainly on links between ecological and economic sustainability. This exploratory study aims to explore institutional barriers and facilitators regarding the implementation of sustainability-oriented practices in the Indonesian batik industry and to provide policy recommendations. The Indonesian batik industry is well-known for its cultural heritage and for being part of the Indonesian identity. Batik products are mostly hand-crafted by women crafters. The study used in-depth insights from two focus groups conducted with entrepreneurs active in the batik industry, while also building on earlier empirical insights. The lack of customer knowledge and socio-cultural and regulatory factors were found to be barriers to sustainability in batik SMEs. Ecological, technological, socio-cultural, and political factors were found to facilitate achieving sustainability objectives. This study contributes to the sustainable entrepreneurship and women entrepreneurship literature by considering facilitators and barriers as they are experienced by batik entrepreneurs and by furthering the conceptualization of sustainable entrepreneurs as either "committed" or "followers". This article was funded by the Indonesian Endowment Fund for Education (LPDP) from the Ministry of Finance, Republic of Indonesia (grant number: 20140622100990).

Published

2022

29. The effect of COVID-19 on the environmental impact of our lifestyles and on environmental concern

Author

Luc Van Ootegem, Elsy Verhofstadt, Bart Defloor, and Brent Bleys

Subjects

Monitoring, Environmental Studies, Geography, Planning and Development, CONSUMERS, Environmental Sciences & Ecology, effect of COVID-19, DETERMINANTS, Management, Monitoring, Policy and Law, environmental impact, Renewable Energy, Green & Sustainable Science & Technology, Planning and Development, Science & Technology, Policy and Law, Sustainability and the Environment, Geography, Renewable Energy, Sustainability and the Environment, ecological footprint, CONSUMPTION, Building and Construction, TRANSPORT, Management, Earth and Environmental Sciences, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences, BEHAVIOR

Abstract

Since the beginning of 2020, the worldwide COVID-19 pandemic made it necessary to change our lifestyles (e.g., restrictions on transport or travelling and forced telework). This has also changed the environmental impact of our lifestyles. To quantify that impact, we used surveys to calculate the Ecological Footprint (EF) and environmental concern of Belgian respondents in 2021 and compared this to the EF-situation in 2017, before COVID-19. We observed that the EF became significantly lower during the COVID-19 crisis. Of course, this change in behaviour is the result of compulsory measures. Therefore, we asked about people’s willingness to reduce the EF permanently, particularly after COVID-19 and on a voluntary basis. We observed that, in 2021, respondents had a strong desire to return to a pre-COVID-19 lifestyle and that they are even less concerned about the environment than they were in the period before COVID-19. Moreover, these results hold after taking into account the effect of different explanatory variables in a multivariate analysis. As a general conclusion, there is little or no evidence that COVID-19 will fundamentally change the environmental impact of our behaviour or our environmental concern if there is no associated public intervention. There is a need for policies that make use of the potential created by COVID-19 (e.g., stimulate working from home and increased cycling).

Published

2022

30. Scaling-up electrohydrodynamic drying for energy-efficient food drying via physics-based simulations

Author

Alex Martynenko, Daniel I. Onwude, Kamran Iranshahi, Donato Rubinetti, and Thijs Defraeye

Subjects

Technology, Strategy and Management, MASS-TRANSFER, Mingzhou Jin, Environmental Sciences & Ecology, Computational fluid dynamics, Non -thermal drying, Industrial and Manufacturing Engineering, Lower energy, Industrial dryers, Engineering, Drying time, Plant-based foods, Process engineering, Green & Sustainable Science & Technology, Scaling, Ionic wind, KINETICS, General Environmental Science, Science & Technology, Energy, Dehydration, Renewable Energy, Sustainability and the Environment, business.industry, FRUIT, AIR, Engineering, Environmental, Energy consumption, Physics based, Handling Editor, PRODUCTS, Non-thermal drying, Science & Technology - Other Topics, Electrohydrodynamics, business, Life Sciences & Biomedicine, Environmental Sciences, Efficient energy use

Abstract

Electrohydrodynamic (EHD) drying is a novel non-thermal drying method to dry heat-sensitive foods faster and with lower energy. Upscaling EHD drying to dry large amounts of food is the current challenge of this technology. In this regard, we quantify how successful a newly-proposed electrode configuration for EHD dryers is for drying commercial amounts of fruit for a wide range of operating conditions. To achieve this goal, we simulate an EHD dryer using physics-based modeling. The scalability was evaluated by quantifying the impact of fruit loading density in the dryer, applied voltage, and distance between electrodes on the drying time and energy consumption. Drying fruits in a commercial EHD dryer is more optimal when the dryer is densely loaded, compared to a low loading density. Loading the trays in the dryer to a capacity of 70% increased the drying time by 16%, compared to drying a few fruits widely spaced apart, but the energy consumption was 28% less. We identified the best strategy to dry a particular batch of fruit with EHD drying to achieve the fastest drying with the least energy possible. We found that it is most energy-efficient and quick to load the dryer close to its full capacity, instead of drying smaller batches in many different runs. By loading the trays in the dryer to 70% of their capacity, we could dry 7 times faster and with 11 times less energy in a single drying run instead of drying the same amount of fruit by many different runs. This study presents a key step towards upscaling EHD drying systems for the industry to dry large amounts of fruits in the shortest possible time and more energy-efficiently., Journal of Cleaner Production, 329, ISSN:0959-6526

Published

2021

31. Comparative analysis of changes in hydromorphological conditions upstream and downstream hydropower plants on selected rivers in Poland and Belgium

Author

Mirosław Wiatkowski, Patrick Willems, and Paweł Tomczyk

Subjects

Technology, IMPACT, Strategy and Management, FLOW, Environmental Sciences & Ecology, SEDIMENT, Industrial and Manufacturing Engineering, Renewable energy sources, Upstream and downstream (DNA), Engineering, Rivers, QUALITY, Green & Sustainable Science & Technology, HABITAT, DAMS, Hydropower, General Environmental Science, Upstream (petroleum industry), Hydrology, Science & Technology, RIPARIAN, Renewable Energy, Sustainability and the Environment, business.industry, Hydromorphology, Engineering, Environmental, Environmental impacts, Renewable energy, Current (stream), Climate change mitigation, Flow conditions, Water quality, Habitat, Environmental science, Science & Technology - Other Topics, VEGETATION, business, Life Sciences & Biomedicine, Environmental Sciences, BEHAVIOR, MIDDLE

Abstract

Currently, it is believed that the share of renewable energy in the overall balance of electricity production should increase in view of the climate change mitigation needs. Analysis of the current capacity of renewable energy shows that the hydropower constitutes the largest part. In this article, the authors undertook the assessment of the impact of hydropower plants on the hydromorphological conditions of the rivers on which they are located. Research sections located upstream and downstream of the facilities and on reference sections were investigated and compared for selected rivers in Poland (Oder, Bystrzyca, Śleza Rivers) and Belgium (Meuse River). Impacts of the hydropower plants were studied based on 42 indicators, including physical conditions, coastal habitats, morphology, and hydrological regime. It was also determined which hydromorphological indicators influenced the hydromorphological conditions. Results show that in the sections upstream of the hydropower plants, the average hydromorphological state is moderate, whereas it is poor downstream of the plants and very good in the reference stations. From the 42 analyzed indicators, 26 show a deterioration in the hydromorphological state, and 14 show an improvement. The hydromorphological conditions are mostly influenced by anthropogenic pressures, the presence of transverse and longitudinal obstacles in the riverbed, river regulation, and changes in the hydrological regime and flow conditions. The presented methods used in individual EU countries (HIR, HEM, QBR, and MC) complement each other well and their results show a high convergence of the findings for the general hydromorphological state, with an average level of agreement of 82.14%.

Published

2021

32. Mitigating Polluted Runoff from Industrial Estates by SUDS Retrofits: Case Studies of Problems and Solutions Co-Designed with a Participatory Approach

Author

Brian J. D’Arcy, Chris Semple, Scott Arthur, Vladimir Krivtsov, and Alejandro Escribano Sevilla

Subjects

media_common.quotation_subject, Environmental Studies, Geography, Planning and Development, TJ807-830, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Ecosystem services, Economic cost, Pollution prevention, MANAGEMENT, industrial design, GE1-350, Green & Sustainable Science & Technology, Air quality index, Environmental planning, resilience, media_common, BGI, Contingency plan, Science & Technology, Scope (project management), Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, contingency planning, Environmental sciences, sustainable drainage, Science & Technology - Other Topics, Psychological resilience, Business, Green infrastructure, Life Sciences & Biomedicine, optimization, 12 Built Environment and Design

Abstract

Contaminated runoff from industrial estates is a significant cause of poor quality in receiving watercourses. Pollution risk begins at each of the industrial premises, presenting different environmental risks which require individual treatment and contingency plans. This is best achieved using SUDS technology, which adds green infrastructure with passive drainage features to the existing drainage and treatment systems, designed to capture the pollutants present in runoff at source on individual sites, for conveyance and on a regional basis serving the whole estate. Here, we develop a multistage investigative framework structured to facilitate the search for relevant solutions and optimization of their design. This paper presents the results of the awareness survey, identifies barriers and opportunities, and reports on case studies dealing with potential SUDS retrofits at industrial facilities, assessing the existing control measures and the scope for new ones with the aim of improving pollution management. The feasibility of SUDS components was assessed with respect to their functional characteristics, economic costs, and logistical constraints. Lack of knowledge related to SUDS and pollution prevention legislation was identified as the major barrier to retrofits, which should be addressed through educational measures. Although comprehensive SUDS retrofits could be prohibitive in cost for small and medium-sized companies, partial and affordable retrofit solutions can be easily implemented to achieve the environmental benefits sought. In addition to the improvements in water quality and alleviation of flood risk, the introduction of Blue-Green Infrastructure will bring about further multiple benefits related to such ecosystem services as the amelioration of the local climate, reduction of noise, improvements in air quality, enhancement of the local biodiversity, and positive effects for the human well-being and mental health.

Published

2021

33. One Earth

Author

Araos, Malcolm, Jagannathan, Kripa, Shukla, Roopam, Ajibade, Idowu, Coughlan de Perez, Erin, Davis, Katy, Ford, James D., Galappaththi, Eranga K., Grady, Caitlin, Hudson, A. J., Joe, Elphin Tom, Kirchhoff, Christine J., Lesnikowski, Alexandra, Alverio, Gabriela Nagle, Nielsen, Miriam, Orlove, Ben, Pentz, Brian, Reckien, Diana, Siders, A. R., Ulibarri, Nicola, van Aalst, Maarten K., Abu, Thelma Zulfawu, Agrawal, Tanvi, Berrang-Ford, Lea, Kerr, Rachel Bezner, Coggins, Shaugn, Garschagen, Matthias, Harden, Alexandra, Mach, Katharine J., Nunbogu, Abraham Marshall, Spandan, Pandey, Templeman, Sienna, and Turek-Hankins, Lynee L.

Subjects

IMPACT, AGENCY, CITIES, Environmental Studies, CLIMATE-CHANGE ADAPTATION, Environmental Sciences & Ecology, MITIGATION, SOCIAL VULNERABILITY, TRACKING, JUSTICE, PEOPLE, Green & Sustainable Science & Technology, COMMUNITIES, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Growing evidence suggests that climate adaptation responses that do not incorporate equity considerations may worsen inequality and increase vulnerability. Using data from a systematic review of peer-reviewed empirical research on adaptation responses to climate change (n = 1,682), we present an assessment of how social equity is considered in adaptation across regions, sectors, and social groups. Roughly 60% of peer-reviewed literature on adaptation responses considers social equity by reporting on which marginalized groups were involved in planning or implementation. Articles on responses in Africa and Asia and those focusing on poverty reduction most frequently considered social equity. Equity was less likely to be considered in adaptation responses in Europe, Australasia, and North America, as well as in literature focused on cities. Income-based inequity was more frequently considered than gender, age, or Indigenous status. Ethnic and racial minorities, migrants, and people with disabilities were rarely considered. Attention to the levels and forms in which equity is integrated into adaptation research and practice is needed to ensure just adaptation. Published version

Published

2021

34. Well-being outcomes of marine protected areas

Author

Charlotte K. Whitney, Mairi C. Meehan, Sara Jo Breslow, Morena Mills, Stefan Gelcich, Georgina G. Gurney, Nadine Marshall, Tanya C. Tran, Michael Cox, Nathan J. Bennett, Stephen Ban, Caroline Butler, and Natalie C. Ban

Subjects

IMPACTS, PERCEPTIONS, Environmental Studies, CONSERVATION, Geography, Planning and Development, Biodiversity, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, SUSTAINABILITY, BENEFITS, MANAGEMENT, Ecosystem, Green & Sustainable Science & Technology, Environmental planning, CONFLICT, Nature and Landscape Conservation, Global and Planetary Change, Science & Technology, Ecology, Renewable Energy, Sustainability and the Environment, Corporate governance, Direct effects, FRAMEWORK, Livelihood, Urban Studies, Marine biodiversity, Geography, RESERVES, Well-being, Science & Technology - Other Topics, Marine protected area, Life Sciences & Biomedicine, FISHERIES, Environmental Sciences, Food Science

Abstract

Marine protected areas are advocated as a key strategy for simultaneously protecting marine biodiversity and supporting coastal livelihoods, but their implementation can be challenging for numerous reasons, including perceived negative effects on human well-being. We synthesized research from 118 peer-reviewed articles that analyse outcomes related to marine protected areas on people, and found that half of documented well-being outcomes were positive and about one-third were negative. No-take, well-enforced and old marine protected areas had positive human well-being outcomes, which aligns with most findings from ecological studies. Marine protected areas with single zones had more positive effects on human well-being than areas with multiple zones. Most studies focused on economic and governance aspects of well-being, leaving social, health and cultural domains understudied. Well-being outcomes arose from direct effects of marine protected area governance processes or management actions and from indirect effects mediated by changes in the ecosystem. Our findings illustrate that both human well-being and biodiversity conservation can be improved through marine protected areas, yet negative impacts commonly co-occur with benefits. While marine protected areas are key for supporting biodiversity and coastal communities, the outcomes can be, and can be perceived, as a mixed bag. Synthesizing research from 118 articles, this Analysis draws broad insights about both the effects of marine protected areas as well as which aspects remain understudied.

Published

2019

35. Social Impact Assessment of Circular Construction: Case of Living Lab Ghent

Author

Nuri Cihan Kayaçetin, Chiara Piccardo, and Ana Ramos

Subjects

Science & Technology, LIFE CYCLE ASSESSMENT, Renewable Energy, Sustainability and the Environment, BUILDINGS, Environmental Studies, circular economy, Geography, Planning and Development, ECONOMY, Environmental Sciences & Ecology, social life cycle assessment, bio-based construction, living lab, Building and Construction, Management, Monitoring, Policy and Law, SUSTAINABILITY, Science & Technology - Other Topics, HEALTH, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

The construction industry is considered to have a high potential in achieving the sustainable development goals. The circular economy is a promising framework that supports the shift from a linear-construction industry to an environmental-friendly and efficient sector. On the other hand, there is a lack of effort in measuring the impact of construction-related activities on users and society. The gap is greater when the context of social impacts is related to circular and bio-based construction. For this purpose, a social impact assessment framework was developed in the Interreg 2 seas CBCI project and tested on a residential prototype: Living Lab (LL) Ghent. Under 13 impact categories relevant to 4 stakeholder categories, circular and bio-based construction materials and methods were assessed for production and construction phases. Qualitative and quantitative data were collected through expert workshops and questionnaires. The results include identification of new indicators (urban mining, social economy, and post-intervention manuals) for several circular construction methods. The social impacts of the LL were discussed depending on each stakeholder category. It was seen that there are several positive impacts related to workers and the local community. Certain recommendations were also provided specifically on a construction-sector basis which may be integrated into existing social impact assessment guidelines.

Published

2022

36. Special Issue 'Towards the Sustainability of AI; Multi-Disciplinary Approaches to Investigate the Hidden Costs of AI'

Author

Aimee van Wynsberghe, Tijs Vandemeulebroucke, Larissa Bolte, and Jamila Nachid

Subjects

Science & Technology, Renewable Energy, Sustainability and the Environment, Environmental Studies, Geography, Planning and Development, Science & Technology - Other Topics, Environmental Sciences & Ecology, Building and Construction, Management, Monitoring, Policy and Law, Green & Sustainable Science & Technology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Artificial Intelligence (AI) applications, i [...]

Published

2022

37. Net zero energy barns for industrial egg production: An effective sustainable intensification strategy?

Author

Haibo Feng, Yang Li, Karen Allacker, Mohammad Davoud Heidari, and Nathan Pelletier

Subjects

IMPACTS, Technology, Renewable energy, EUROPE, Natural resource economics, 020209 energy, Strategy and Management, Environmental Sciences & Ecology, Environmental impact payback time, 02 engineering and technology, D600, H800, Net zero energy buildings, Industrial and Manufacturing Engineering, PAYBACK TIME, Life cycle assessment, Engineering, 0202 electrical engineering, electronic engineering, information engineering, Production (economics), Environmental impact assessment, Green & Sustainable Science & Technology, Life-cycle assessment, 0505 law, General Environmental Science, Science & Technology, Zero-energy building, Renewable Energy, Sustainability and the Environment, business.industry, BUILDINGS, 05 social sciences, Fossil fuel, Engineering, Environmental, CARBON FOOTPRINT, PERFORMANCE, Direct energy use, Livestock production, LIFE-CYCLE ASSESSMENT, OZONE CREATION POTENTIALS, BALANCE, Sustainability, 050501 criminology, Science & Technology - Other Topics, Environmental science, business, Life Sciences & Biomedicine, Environmental Sciences, SYSTEM, Efficient energy use

Abstract

Net zero energy buildings (NZEBs) are energy efficient buildings that incorporate renewable energy generation systems so as to produce sufficient renewable energy to at least offset the total amount of non-renewable energy used by the building on an annual basis. NZEB technologies have widespread commercial and residential application, but their feasibility and efficacy in the livestock sector in support of sustainable intensification have received little attention. This study quantifies the potential for such technologies to improve sustainability outcomes in the livestock sector based on an ISO 14044-compliant life cycle assessment of a pilot net zero energy laying hen facility in Alberta, Canada compared to a conventional facility. It was found that direct energy inputs account for 6.47% and 31.64% of the life cycle cumulative energy use of egg production in NZE and non-NZE hen housing, respectively. Average infrastructure-related contributions to the life cycle impacts of egg production are only 4.34% and 1.94% for the NZE and non-NZE barns, but NZE technologies reduce the net impacts of egg production by 0.89–64.82%. The environmental impact payback time for the NZE barn (30-year lifespan) ranges from 1.38 to 20.66 years, considering the largely fossil fuel-based electricity grid in Alberta, which indicates that non-trivial environmental benefits would accrue across impact categories considered. However, this could vary considerably elsewhere depending on the types and amounts of green energy utilized in regional grid mixes. The type and availability of renewable energy resources that are integrated into NZE barns will similarly be important in determining the potential of such technologies to support sustainable intensification in this sector.

Published

2021

38. Landscape Design to Meet the Societal Demand for Ecosystem Services: A Perspective

Author

Carron, Bjoke, Muys, Bart, Van Orshoven, Jos, Orshoven, Jos van, and Leinfelder, Hans

Subjects

research through design, VALUATION, Ecosystem services cascade, Ecosystem services critique, Landscape change, Landscape design, Research through design, Raumplanung und Regionalforschung, Geography, Planning and Development, Spatial design, Ökologie und Umwelt, landscape planning, Ecosystem services, Order (exchange), AREAS, ecosystem services critique, SUPPORT, Ökologie, GE1-350, Landschaftsplanung, Green & Sustainable Science & Technology, ddc:710, biodiversity, Städtebau, Raumplanung, Landschaftsgestaltung, Global and Planetary Change, CHALLENGES, Ecology, VALUES, Area Development Planning, Regional Research, TRADE-OFFS, ecosystem services cascade, SCIENCE, ComputingMilieux_GENERAL, NATURES CONTRIBUTIONS, Raumplanung, Science & Technology - Other Topics, Umweltschutz, LAND, landscape change, Context (language use), Ecology, Environment, Management, Monitoring, Policy and Law, land utilization, Landnutzung, ecological system, Landscape design and planning, Biodiversität, Political science, ddc:577, ökologisches System, Environmental planning, environmental protection, Nature and Landscape Conservation, Landscaping and area planning, Science & Technology, Land use, business.industry, Environmental sciences, Paradigm shift, Stewardship, spatial planning, landscape design and planning, business

Abstract

In recent decades, the concept of Ecosystem Services (ES) has generated a paradigm shift in the perspective of human society on nature and has had an important awareness-raising role concerning the importance of ecosystems. However, the concept has not been capable to stop the loss of biodiversity and nature in order to meet the societal challenges of ES provision, especially in urbanized territories. From the reviewed literature, it is obvious that implementing the ES concept within spatial design and planning processes poses several difficulties. In this context we state that a more comprehensive approach is needed of which the ES concept is part. To move to genuine landscape change and a shift in land use and land stewardship, we argue that a landscape design approach can play a significant activating role. The goal of this paper is to underpin this assumption from a theoretical and methodological point of view. The paper first gives an overview of the difficulties that the field of ES science and practice is facing when implementing the ES concept in landscape design and planning processes. Then a landscape design approach is presented as an alternative approach and a possible way forward for genuine landscape change to meet the societal demand for ES.

Published

2021

39. How do we effectively communicate air pollution to change public attitudes and behaviours? A review

Author

Peter Capella, Yuya Kajikawa, Cristian Mejia, Laure B. de Preux, Rosie Riley, and Audrey de Nazelle

Subjects

Information role, Health (social science), Sociology and Political Science, INFORMATION, IMPACT, Geography, Planning and Development, CONSERVATION, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, Campaign, HEALTH BELIEF MODEL, Cognitive dissonance, Disengagement theory, Green & Sustainable Science & Technology, Nature and Landscape Conservation, Sustainable development, Global and Planetary Change, Engagement, Science & Technology, Ecology, OZONE, business.industry, Communication, METROPOLITAN-AREA, SOCIAL NORMS, SCIENCE, Public relations, Focus group, QUALITY WARNINGS, Variety (cybernetics), Collective responsibility, ALERTS, Framing (social sciences), Action (philosophy), Air quality, Science & Technology - Other Topics, business, Psychology, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Solutions that engage the public are needed to tackle air pollution. Technological approaches are insufficient to bring urban air quality to recommended target levels, and miss out on opportunities to promote health more holistically through behavioural solutions, such as active travel. Behaviour change is not straightforward, however, and is more likely to be achieved when communication campaigns are based on established theory and evidence-based practices. We systematically reviewed the academic literature on air pollution communication campaigns aimed at influencing air pollution-related behaviour. Based on these findings, we developed an evidence-based framework for stimulating behaviour change through engagement. Across the 37 studies selected for analyses, we identified 28 different behaviours assessed using a variety of designs including natural and research-manipulated experiments, cross-sectional and longitudinal surveys and focus groups. While avoidance behaviour (e.g. reducing outdoor activity) followed by contributing behaviours (e.g. reducing idling) were by far the most commonly studied, supporting behaviour (e.g. civil engagement) shows promising results, with the added benefit that supporting local and national policies may eventually lead to the removal of social and physical barriers that prevent wider behavioural changes. Providing a range of actionable information will reduce disengagement due to feelings of powerlessness. Targeted localized information will appear more immediate and engaging, and positive framing will prevent cognitive dissonance whereby people rationalize their behaviour to avoid living with feelings of unease. Communicating the co-benefits of action may persuade individuals with different drivers but as an effective solution, it remains to be explored. Generally, finding ways to connect with people’s emotions, including activating social norms and identities and creating a sense of collective responsibility, provide promising yet under-explored directions. Smartphones provide unique opportunities that enable flexible and targeted engagement, but care must be taken to avoid transferring responsibility for action from national and local authorities onto individuals. Multidisciplinary teams involving artists, members of the public, community and pressure groups, policy makers, researchers, and businesses, are needed to co-create the stories and tools that can lead to effective action to tackle air pollution through behavioural solutions.

Published

2021

40. Alternative futures for global biological invasions

Author

Helen E. Roy, Franz Essl, Lucas Rutting, Jonathan M. Jeschke, Ingolf Kühn, Reuben P. Keller, Guillaume Latombe, Bernd Lenzner, Núria Roura-Pascual, Marten Winter, Mark A. Burgman, Garry D. Peterson, Piero Genovesi, Stefan Dullinger, Andrew M. Liebhold, Hanno Seebens, Riccardo Scalera, Aníbal Pauchard, Betsy Von Holle, Melodie A. McGeoch, Sven Bacher, Joost Vervoort, Gregory M. Ruiz, Michael R. Springborn, Stelios Katsanevakis, Karl-Heinz Erb, Wolfgang Rabitsch, Philip E. Hulme, Michael Obersteiner, Brian Leung, Environmental Governance, and Commonwealth of Australia

Subjects

0106 biological sciences, Health (social science), 010504 meteorology & atmospheric sciences, Sociology and Political Science, Biosecurity, Geography, Planning and Development, Future narratives, Environmental scenarios, 01 natural sciences, Land use, land-use change and forestry, Global environmental change, Green & Sustainable Science & Technology, Uncategorized, Global and Planetary Change, Geography, Policy and Law, Ecology, Introduced organisms, Biodiversity, SCENARIOS, Management, Impacts, Science & Technology - Other Topics, Biodiversity models, Life Sciences & Biomedicine, Espècies introduïdes, Monitoring, Process (engineering), Alien species, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, 010603 evolutionary biology, Ecology and Environment, Health(social science), Scenario analysis, Biological invasions, Invasions biològiques, Environmental planning, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Planning and Development, Sustainable development, Science & Technology, Citizen journalism, 500 Naturwissenschaften und Mathematik::570 Biowissenschaften, Biologie::570 Biowissenschaften, Biologie, FRAMEWORK, Biodiversitat, Canvi mediambiental global, Landscape ecology, PLANT INVASIONS, Futures contract, Environmental Sciences

Abstract

Scenario analysis has emerged as a key tool to analyze complex and uncertain future socio-ecological developments. However, currently existing global scenarios (narratives of how the world may develop) have neglected biological invasions, a major threat to biodiversity and the economy. Here, we use a novel participatory process to develop a diverse set of global biological invasion scenarios spanning a wide range of plausible global futures through to 2050. We adapted the widely used “two axes” scenario analysis approach to develop four families of four scenarios each, resulting in 16 scenarios that were later clustered into four contrasting sets of futures. Our analysis highlights that socioeconomic developments and technological innovation have the potential to shape biological invasions, in addition to well-known drivers, such as climate and human land use change and global trade. Our scenarios partially align with the shared socioeconomic pathways created by the climate change research community. Several factors that drive differences in biological invasions were underrepresented in the shared socioeconomic pathways; in particular, the implementation of biosecurity policies. We argue that including factors related to public environmental awareness and technological and trade development in global scenarios and models is essential to adequately consider biological invasions in global environmental assessments and thereby obtain a more integrative picture of future social–ecological developments This research was funded through the COST Action “Alien Challenge” [Grant number TD1209]; the 2017–2018 Belmont Forum and BiodivERsA joint call for research proposals, under the BiodivScen ERA-Net COFUND programme, and with the funding organisations AEI, FWF and BMBF [grant numbers AEI PCI2018-092966 (NRP)/FWF project 4011-B32 (FE, SD, GL, BeL)/BMBF projects 01LC1807A (HS) and 01LC1807B (JMJ)]; Deutsche Forschungsgemeinschaft [grant numbers InDyNet, JE 288/8-1; JE 288/9-1, 9-2 (JMJ)/via iDiv FZT 118, 202548816 (MW)]; OP RDE grant EVA4.0 [grant number CZ.02.1.01/0.0/0.0/16_019/0000803] (AML); CONICYT [grant number AFB170008] (AP); UK-SCAPE programme, Natural Environment Research Council [grant number NE/R016429/1] (HER)

Published

2021

41. German Marathon Runners' Opinions on and Willingness to Pay for Environmental Sustainability

Author

Ewa Malchrowicz-Mośko, Ine Hugaerts, Thomas Könecke, Fabio Wagner, Holger Schunk, and Tabea Schappel

Subjects

Geography, Planning and Development, Environmental Studies, TJ807-830, Environmental Sciences & Ecology, Computer-assisted web interviewing, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, German, Willingness to pay, Political science, Germany, running, GE1-350, European commission, Green & Sustainable Science & Technology, Frankfurt Marathon, MAJOR SPORTING EVENT, Science & Technology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, pro-ecological attitudes, WORLD CUP, Citizen journalism, Public relations, language.human_language, Environmental sciences, Europe, Sustainability, language, Science & Technology - Other Topics, ecology, business, marathon, Life Sciences & Biomedicine, environment, willingness to pay, Environmental Sciences

Abstract

Research on sustainability and/in sport and, specifically, on the ecological aspects of participatory sporting events is still very scarce despite the recognition these topics have received by actors like, for instance, the European Commission and the United Nations. Against this backdrop, this paper sheds light on a field that is virtually uncharted in academic research, which is the environmental attitudes and willingness to pay for environmental sustainability of participants in participatory sporting events in Europe. In collaboration with the organizer of the Frankfurt Marathon, a study was conducted with a specific focus on German (speaking) marathon runners. In total 1764 data sets were collected with a German (1455 respondents) and an English (309 respondents) online questionnaire. Very insightful descriptive analyses showed that the awareness for the issue of sustainability and sport is still low and that ecological initiatives only have a medium influence on the evaluation of a marathon event. Nevertheless, particularly the German-speaking respondents indicated a high willingness to pay for environmental sustainability in general and for specific measures that can enhance the environmental friendliness of a marathon event, in particular. As will be discussed in the paper, these insights have important managerial implications and are a valuable basis for further research in this evolving field.

Published

2021

42. The Direct Reduction of Iron Ore with Hydrogen

Author

Huili Zhang, Jiapei Nie, Shuo Li, Jan Baeyens, Yimin Deng, and Raf Dewil

Subjects

Materials science, Yield (engineering), Hydrogen, Geography, Planning and Development, Environmental Studies, solar energy, chemistry.chemical_element, TJ807-830, iron ore, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, engineering.material, TD194-195, Renewable energy sources, ENERGY, fluidized bed, Operating temperature, direct reduction, DESIGN, FLUIDIZATION, GE1-350, Fluidization, FINES, Green & Sustainable Science & Technology, KINETICS, POWDER, Pressure drop, Science & Technology, Environmental effects of industries and plants, STEELMAKING, Renewable Energy, Sustainability and the Environment, business.industry, Fossil fuel, Metallurgy, Environmental sciences, Iron ore, chemistry, MAGNETITE CONCENTRATE PARTICLES, Fluidized bed, GAS, hydrogen, engineering, Science & Technology - Other Topics, business, Life Sciences & Biomedicine, Environmental Sciences, BEHAVIOR

Abstract

The steel industry represents about 7% of the world’s anthropogenic CO2 emissions due to the high use of fossil fuels. The CO2-lean direct reduction of iron ore with hydrogen is considered to offer a high potential to reduce CO2 emissions, and this direct reduction of Fe2O3 powder is investigated in this research. The H2 reduction reaction kinetics and fluidization characteristics of fine and cohesive Fe2O3 particles were examined in a vibrated fluidized bed reactor. A smooth bubbling fluidization was achieved. An increase in external force due to vibration slightly increased the pressure drop. The minimum fluidization velocity was nearly independent of the operating temperature. The yield of the direct H2-driven reduction was examined and found to exceed 90%, with a maximum of 98% under the vibration of ~47 Hz with an amplitude of 0.6 mm, and operating temperatures close to 500 °C. Towards the future of direct steel ore reduction, cheap and “green” hydrogen sources need to be developed. H2 can be formed through various techniques with the catalytic decomposition of NH3 (and CH4), methanol and ethanol offering an important potential towards production cost, yield and environmental CO2 emission reductions.

Published

2021

43. Synthesis, Characterization, and Synergistic Effects of Modified Biochar in Combination with α-Fe2O3 NPs on Biogas Production from Red Algae Pterocladia capillacea

Author

Antonio M. Pantaleo, Mohamed A. Hassaan, Mohamed A. El-Nemr, Safaa Ragab, Marwa R. Elkatory, and Ahmed El Nemr

Subjects

Thermogravimetric analysis, Pterocladia capillacea, Geography, Planning and Development, Environmental Studies, Biomass, α-Fe2O3 NPs, TJ807-830, Environmental Sciences & Ecology, HYDROGEN-SULFIDE, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, chemistry.chemical_compound, REMOVAL, Biogas, alpha-Fe2O3 NPs, ANAEROBIC-DIGESTION, Biochar, FOOD WASTE, NANOPARTICLES, biogas, biochar, GE1-350, ACTIVATED CARBON, REACTOR, Fourier transform infrared spectroscopy, Green & Sustainable Science & Technology, modified sawdust, SLUDGE, Science & Technology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Chemistry, Environmental sciences, Ammonium hydroxide, ZERO-VALENT IRON, sawdust, HEMATITE, Yield (chemistry), visual_art, visual_art.visual_art_medium, Science & Technology - Other Topics, Sawdust, Life Sciences & Biomedicine, 12 Built Environment and Design, Nuclear chemistry

Abstract

This study is the first work that evaluated the effectiveness of unmodified (SD) and modified biochar with ammonium hydroxide (SD-NH2) derived from sawdust waste biomass as an additive for biogas production from red algae Pterocladia capillacea either individually or in combination with hematite α-Fe2O3 NPs. Brunauer, Emmett, and Teller, Fourier transform infrared, thermal gravimetric analysis, X-ray diffraction, transmission electron microscopy, Raman, and a particle size analyzer were used to characterize the generated biochars and the synthesized α-Fe2O3. Fourier transform infrared (FTIR) measurements confirmed the formation of amino groups on the modified biochar surface. The kinetic research demonstrated that both the modified Gompertz and logistic function models fit the experimental data satisfactorily except for 150 SD-NH2 alone or in combination with α-Fe2O3 at a concentration of 10 mg/L. The data suggested that adding unmodified biochar at doses of 50 and 100 mg significantly increased biogas yield compared to untreated algae. The maximum biogas generation (219 mL/g VS) was obtained when 100 mg of unmodified biochar was mixed with 10 mg of α-Fe2O3 in the inoculum.

Published

2021

44. Life cycle environmental impacts of compressed biogas production through anaerobic digestion of manure and municipal organic waste

Author

Maarten Messagie, Anne Van Den Oever, Giuseppe Cardellini, Bert F. Sels, Electromobility research centre, Faculty of Engineering, and Electrical Engineering and Power Electronics

Subjects

Technology, Strategy and Management, Digestate, Environmental Sciences & Ecology, Life Cycle Assessment, ECOINVENT DATABASE, Industrial and Manufacturing Engineering, ALLOCATION, Renewable energy directive, ENERGY, Life cycle assessment, SUSTAINABILITY, Engineering, Biogas, Anaerobic digestion, SLURRY, Green & Sustainable Science & Technology, Life-cycle assessment, CROPS, EMISSIONS, General Environmental Science, Science & Technology, Waste management, Renewable Energy, Sustainability and the Environment, LCA, Engineering, Environmental, Municipal organic waste, Building and Construction, Biodegradable waste, PERFORMANCE, Manure, Biofuel, Greenhouse gas, CO-PRODUCT, Environmental science, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences

Abstract

Compressed biogas (CBG) has proven to reduce greenhouse gas (GHG) emissions compared to fossil diesel, but due to diverging methodologies, results of different studies lie far apart. The usage of the co-produced digestate can lead to high acidification and eutrophication impacts, but this aspect is often not considered, neither is the way different substitution methods for the digestate affect the results. In this work we address these issues performing a Life Cycle Assessment (LCA) of CBG production through anaerobic digestion of animal manure and municipal organic waste (MOW). GHG savings of 93%–131% compared to the fossil diesel benchmark in the Renewable Energy Directive were found, thus complying with the 60% reduction target. The ammonia emissions during the digestate application make acidification and terrestrial eutrophication the main environmental burdens of CBG from MOW, leading to a 142% and a 715% increase for acidification and terrestrial eutrophication respectively, compared to fossil diesel. When CBG is produced from manure and the avoidance of manure storage emission is considered, a 257% and a 700% lower acidification and terrestrial eutrophication impact was found. Our results suggest that better manure-storage techniques are required and that field emissions due to digestate application, which is sensitive to pH and nitrogen content, should be reduced. It was further demonstrated that including the digestate fertilizing emissions in the system boundaries of the LCA of CBG production and substitution of both mineral fertilizer production and usage have a great impact on the outcome, but also introduce uncertainty of the results. The outcome of this work was used to suggest recommendations on the methodology for future LCA studies on CBG production and EU biofuel regulations.

Published

2021

45. Building Cohesive Teams—The Role of Leaders’ Bottom-Line Mentality and Behavior

Author

Mayowa T. Babalola, Hein Wendt, Katrin Riisla, and Martin Euwema

Subjects

IMPACT, media_common.quotation_subject, SOCIAL-RESPONSIBILITY, Geography, Planning and Development, Environmental Studies, TJ807-830, 050109 social psychology, Environmental Sciences & Ecology, DIRECTIVE LEADERSHIP, Management, Monitoring, Policy and Law, Affect (psychology), TD194-195, Renewable energy sources, Interpersonal relationship, EMPOWERING LEADERSHIP, Group cohesiveness, 0502 economics and business, Team leader, 0501 psychology and cognitive sciences, GE1-350, Green & Sustainable Science & Technology, directive leadership, media_common, Teamwork, Science & Technology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, 05 social sciences, leader bottom-line mentality, Public relations, PERFORMANCE, Directive, GOAL, ANTECEDENTS, participative leadership, MODEL, Environmental sciences, Improved performance, team cohesiveness, AGREEMENT, Science & Technology - Other Topics, Psychology, business, Life Sciences & Biomedicine, 050203 business & management, Environmental Sciences, Team management

Abstract

Team cohesiveness plays a crucial role in effective teamwork, innovation, and improved performance, and as such, its development among team members is an essential part of team management. However, it may be disregarded by leaders with a high bottom-line mentality (BLM, a single-minded focus on the bottom line at the expense of other values or priorities). These leaders may show little interest in other priorities, such as ethical, social, or environmental considerations, and may be tempted to push their followers to go above and beyond what is expected, even if it means bending the rules, cutting corners, or engaging in other ethically problematic behaviors. We argue that although a team leader’s BLM may motivate followers to come together around the pursuit of a common goal, it may come at the expense of nurturing healthy interpersonal relationships, trust, and other important social resources within the team. Specifically, we argue that the way leaders with a high BLM approach their goals may affect team cohesiveness, and that it is particularly negative for female leaders. Using a large multi-national study, we found that this happens through increased directive and lowered participative leader behaviors.

Published

2021

46. Benefit of woodland and other natural environments for adolescents' cognition and mental health

Author

Chen Shen, Mikaël J. A. Maes, Elizabeth R. Booth, Ben Milligan, Kate E. Jones, Monica Pirani, and Mireille B. Toledano

Subjects

medicine.medical_specialty, IMPACT, GREEN SPACE, Geography, Planning and Development, Environmental Studies, Environmental Sciences & Ecology, CHILDREN, Woodland, Management, Monitoring, Policy and Law, Urban planning, Epidemiology, Cognitive development, medicine, BLUE SPACES, Green & Sustainable Science & Technology, Nature and Landscape Conservation, Global and Planetary Change, Science & Technology, Ecology, Renewable Energy, Sustainability and the Environment, LONDON, Confounding, Cognition, AIR-POLLUTION, Mental health, Urban Studies, RESIDENTIAL EXPOSURE, Cohort, Science & Technology - Other Topics, Psychology, Life Sciences & Biomedicine, Environmental Sciences, Food Science, Demography

Abstract

Epidemiological studies have established positive associations of urban nature with cognitive development and mental health. However, why specifically these health benefits are received remains unclear, especially in adolescents. We used longitudinal data in a cohort of 3,568 adolescents aged 9 to 15 years at 31 schools across London, UK, to examine the associations between natural-environment types and adolescents’ cognitive development, mental health and overall well-being. We characterized natural-environment types in three tiers, where natural space was distinguished into green and blue space, and green space was further distinguished into woodland and grassland. We showed that, after adjusting for other confounding variables, higher daily exposure to woodland, but not grassland, was associated with higher scores for cognitive development and a lower risk of emotional and behavioural problems for adolescents. A similar but smaller effect was seen for green space, but not blue space, with higher scores for cognitive development. Our results suggest that urban planning decisions to optimize ecosystem benefits linked to cognitive development and mental health should carefully consider the type of natural environment included. A longitudinal cohort study shows a positive effect of exposure to woodland in urban areas on cognitive development and emotional and behavioural well-being in children, but no effect of blue space or grassland.

Published

2021

47. Public Administration and Governance for the SDGs: Navigating between Change and Stability

Author

Louis Meuleman

Subjects

media_common.quotation_subject, Environmental Studies, metagovernance, Geography, Planning and Development, mindsets, TJ807-830, Environmental Sciences & Ecology, Mindset, public management, Management, Monitoring, Policy and Law, Public administration, TD194-195, public governance, Renewable energy sources, Politics, Political science, 050602 political science & public administration, Quality (business), GE1-350, Green & Sustainable Science & Technology, SDGs, reform, media_common, Sustainable development, Science & Technology, sustainable development, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, pandemic, silos, Corporate governance, 05 social sciences, Public sector, 050301 education, public administration, mission-oriented, innovation, 0506 political science, Environmental sciences, governance, Science & Technology - Other Topics, business, Life Sciences & Biomedicine, 0503 education, Nexus (standard), Administration (government), Environmental Sciences

Abstract

This article highlights four key reform challenges regarding the quality of public administration and governance (PAG), aimed at increasing ‘SDG-readiness’ at all levels of administration, in a nexus characterized by complexity, volatility, pluriformity and uncertainty. Based on others’ research into how EU Member States institutionalize the implementation of the SDGs, a critical review of SDG-governance approaches, as well as a review paper on the management of the SDGs, it is concluded that that four priority areas could guide research and policy development to accelerate implementation of the 2030 Agenda. Firstly, to recognize that creating an effective public administration and governance is an important strategic policy area. Secondly, to begin with mission-oriented public administration and governance reform for SDG implementation, replacing the efficiency-driven public sector reform of the past decades. Thirdly, to apply culturally sensitive metagovernance to design, define and manage trade-offs and achieving synergies between SDGs and their targets. Fourthly, to start concerted efforts to improve policy coherence with a mindset beyond political, institutional, and mental ‘silos’.

Published

2021

48. Investors’ Aspirations toward Social Impact: A Portfolio-Based Analysis

Author

Leonardo Boni, Laura Toschi, Riccardo Fini, Boni L., Toschi L., and Fini R.

Subjects

INTERPLAY, VENTURE CAPITALISTS, INVESTMENT, Financial economics, Geography, Planning and Development, Environmental Studies, FIRMS, TJ807-830, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, SUSTAINABILITY, SCOPE, aspirations, 0502 economics and business, Social inequality, GE1-350, Green & Sustainable Science & Technology, Social progress, impact investing, 050208 finance, Science & Technology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, RESPONSIBILITY, 05 social sciences, alignment, Blended value, Investment (macroeconomics), ENTREPRENEURSHIP, Environmental sciences, Aspiration, Investment decisions, blended value, Impact investing, HYBRID ORGANIZATIONS, Corporate social responsibility, Portfolio, Science & Technology - Other Topics, Business, DIVERSIFICATION, Life Sciences & Biomedicine, 050203 business & management, 12 Built Environment and Design

Abstract

In the last ten years, we have witnessed a proliferation of investors claiming blended value strategies, i.e., pursuing both economic and social returns in their investments. Aside from this rush for self-selecting in a blended value finance context, we still do not know to what extent the investors’ claims actually reflect investment decisions. Evidence suggests that, in some cases, such investors tend to maximize the social performance over the financial performance, in some others, the effect is reverted, but literature currently lacks studies aligning the analysis of the investment decisions with the investment portfolios. Yet, it is still unclear whether blended value investment decisions are enacted as a result of investors’ deliberate strategies and what influences this relationship. In this paper we tackle this issue, analyzing the extent to which investors’ finance firms pursuing goals aligned with their strategic aspirations. Specifically, adopting a Fractional Logistic Regression model, we test the effect of investors’ aspirations toward social impact on the extent to which their investees (i.e., the portfolio of firms in which they invest) pursue social returns. Results suggest the existence of a positive and significant investor–portfolio alignment effect (i.e., the higher the investors’ aspirations toward social impact, the higher the number of investees with higher social aspirations). Yet, this effect is influenced by contingencies at both investor and portfolio levels. Investors with strong aspirations toward social impact that: (i) invest in countries with high levels of social inequality, and (ii) are located in countries that support social progress and maximize, in their portfolios, the presence of businesses pursuing social impact. We discuss implications for future researchers, policymakers and practitioners.

Published

2021

49. Techno-economic assessment of calcium sulfoaluminate clinker production using elemental sulfur as raw material

Author

Roneta Chaliulina, Ammar Elhoweris, Jonathan Mwanda, Yousef Alhorr, Jose-Luis Galvez-Martos, and Amer Hakki

Subjects

Techno-economic assessment, Technology, 020209 energy, Strategy and Management, Cement, Environmental Sciences & Ecology, 02 engineering and technology, engineering.material, Raw material, Combustion, Clinker (cement), FUEL, Industrial and Manufacturing Engineering, law.invention, Engineering, law, 0202 electrical engineering, electronic engineering, information engineering, Clinker, Green & Sustainable Science & Technology, Avoidance cost, Life-cycle assessment, EMISSIONS, 0505 law, General Environmental Science, Science & Technology, Waste management, Renewable Energy, Sustainability and the Environment, STEEL, 05 social sciences, Engineering, Environmental, Carbon footprint, Portland cement, Bauxite, Greenhouse gas, 050501 criminology, engineering, Calcium sulfoaluminate, Environmental science, Science & Technology - Other Topics, Life Sciences & Biomedicine, Environmental Sciences

Abstract

The foreseen decarbonisation of the cement industry by 2050 will require a combination of different measures in the current manufacturing practices such as the improvement of the energy efficiency, the use of alternative fuels, the reduction of the clinker to cement ratio, and the integration of carbon capture, especially beyond the year 2030. The production of alternative binders, for the substitution of the current product families of cement, is under investigation due to its significant potential in emissions reduction, although robust and agreed life cycle assessment methodologies are still claimed by the industry in this field. Calcium sulfoaluminate (CSA) cements appear as a promising alternative to Portland cements due to the significant reduction of the direct emissions of carbon dioxide caused by the lower need of limestone and fuel. However, they require sulfate and higher inputs of aluminium oxide, sourced from bauxite. This study focuses on the techno-economic performance, in the geographical scope of Qatar, of a novel CSA production method consisting of the combustion of sulfur to supply SO3/SO2 to the clinkering reaction. This new approach is proven to reduce the associated greenhouse gases emissions of Portland cement clinker production, while, in general, CSA clinker production costs are higher than those for Portland cement clinker. Nevertheless, CSA has a competitive CO2 avoidance cost, provided that the economics of raw materials supply, such as bauxite, favours its production; an aspect that is further emphasised in a prospective analysis towards more restrictive climate policies.

Published

2021

50. Evaluating the Effect of Framing Energy Consumption in Terms of Losses versus Gains on Air-Conditioner Use: A Field Experiment in a Student Dormitory in Japan

Author

Shimpei Iwasaki, Samuel Franssens, Florian Lange, Siegfried Dewitte, Department of Environmental Science, Fukuoka Women’s University, Rennes School of Business, and Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven)

Subjects

Energy (esotericism), message framing, Geography, Planning and Development, Environmental Studies, TJ807-830, 050109 social psychology, Environmental Sciences & Ecology, Management, Monitoring, Policy and Law, TD194-195, energy use, Renewable energy sources, loss aversion, Japan, Loss aversion, Framing (construction), 0502 economics and business, 0501 psychology and cognitive sciences, GE1-350, Green & Sustainable Science & Technology, Science & Technology, FEEDBACK, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, pro-environmental behavior, 05 social sciences, Frame (networking), APPEALS, Energy consumption, Environmental economics, Energy conservation, Environmental sciences, Intervention (law), Incentive, [SHS.ENVIR]Humanities and Social Sciences/Environmental studies, dormitories, Science & Technology - Other Topics, 050211 marketing, Business, Life Sciences & Biomedicine, Environmental Sciences

Abstract

International audience; Promoting energy conservation in university dormitories is challenging because student residents are typically charged a flat utility fee. One possibility to curb excessive energy use in the absence of monetary incentives is to highlight the environmental consequences of energy use. However, it is still largely unknown how these consequences should be communicated to effectively change people’s behavior. In the present study, we analyzed the effect of framing the environmental consequences of energy use in terms of losses versus gains on the air-conditioner use of student residents of a Japanese university dormitory. A total of 330 students were provided with stickers to attach to the air-conditioner remote control in their dormitory room during the winter term. The stickers conveyed that increasing the temperature will hurt the environment (loss frame), that reducing the temperature will protect the environment (gain frame), or that changing the temperature will affect the environment (neutral frame). Day-to-day variations in objective air-conditioner use data were analyzed as a function of experimental condition to examine the effect of message framing. The change in air-conditioner use from pre-intervention to intervention period did not differ between experimental groups and neither did the change from pre-intervention period to a period after the intervention.

Published

2021