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11,258 results

2. Paper: part and parcel of the agriculture industry.

Author

du Toit, Magda

Subjects
AGRICULTURAL industries, PAPER industry, BLUEBERRIES, FORESTS & forestry, WASTE paper, CLIMATE change mitigation, CITRUS, ARABLE land
Abstract

The article focuses on the importance of sustainable packaging choices in today's consumer-driven market, particularly emphasizing the shift away from plastic towards alternatives like paper. Topics include the increasing demand for paper packaging post-COVID-19, the characteristics and types of paper used in different applications, and the essential role of both virgin and recycled paper in maintaining a sustainable paper cycle.

Published
2024

3. Climate change mitigation from increased paper recycling in Sweden: conserving forests or utilizing substitution?

Author

Maximilian Schulte, Ragnar Jonsson, Torun Hammar, Jeannette Eggers, Johan Stendahl, and Per-Anders Hansson

Subjects
climate change mitigation, paper recycling, forest carbon, substitution effect, bioeconomy, Sweden, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999
Abstract

Climate change mitigation by increased paper recycling can alleviate the two-sided pressure on the Swedish forest sector: supplying growing demands for wood-based products and increasing the forest carbon sink. This study assesses two scenarios for making use of a reduced demand for primary pulp resulting from an increased paper recycling rate in Sweden, from the present 72% to 78%. A Conservation scenario uses the saved primary pulp to reduce pulplog harvests so as to increase the forest carbon sink concomitant with constant overall wood product supply. In contrast, a Substitution scenario uses the saved primary pulp to produce man-made cellulosic fibers (MMCF) from dissolving pulp replacing cotton fiber, implying increased overall wood product supply. Our results suggest that utilizing efficiency gains in paper recycling to reduce pulplog harvests is better from a climate change mitigation perspective than producing additional MMCF to substitute cotton fiber. This conclusion holds even when assuming the use of by-products from dissolving pulp making and an indirect increase in MMCF availability. Hence, unless joint improvements across the value chain materialize, the best climate change mitigation option from increased paper recycling in Sweden would seemingly be to reduce fellings rather than producing additional MMCF.

Published
2024
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5. Paper & Biorefinery Konferenz 2024: Papierindustrie: Verantwortlichkeit – Erneuerbarkeit – Bereit für die Zukunft!

Author

Sabine, Heinemann

Subjects
CARBON dioxide mitigation, CLIMATE change mitigation, TECHNOLOGICAL innovations, ENVIRONMENTAL protection, PAPER industry, CELLULOSE fibers
Abstract

Copyright of Wochenblatt für Papierfabrikation is the property of dfv Mediengruppe and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024

7. ELEMENTAL AND THERMOGRAVIMETRIC APPROACH TO ANALYZING THE ENERGY GENERATION POTENTIAL OF RECYCLED PLASTICPAPER COMPOSITES.

Author

Ejilah, I. R., Gaji, M. M., and Mohammed, I. Y.

Subjects
WASTE minimization, POTENTIAL energy, CLIMATE change mitigation, WASTE paper, PLASTIC scrap
Abstract

Samples of plastic and paper waste were collected and subjected to various procedures including drying, manual sorting, pulverization, and homogenization. The elemental analysis of the samples was conducted following the ASTM D3176-15 standard, revealing that the plastic-paper composite samples had lower carbon and hydrogen content compared to the PL100 plastic benchmark. While thermogravimetric tests were performed on the samples in a thermal analyzer according to the ASTM procedure. Interestingly, the composite samples showed a higher presence of elemental oxygen, except for the sample with 25%wt. of paper. Moreover, sulfur content increased in composite samples with 25% wt., 50% wt., and 75% wt. of paper, while the sample with 100% wt. of paper exhibited a decrease in sulfur content. Combustibility was assessed based on the peak temperature at the maximum weight loss rate, indicating that samples PL100, PL50+PA50, and PL75+PA25 displayed higher combustibility compared to samples PL25+PA95 and PA100. Hence, these samples could be recommended for use as refuse-derived fuel due to their potential for energy recovery. The impact of waste-to-fuel research will be felt in waste reduction (SDG 7), clean energy (SDG 12), climate action (SDG 13), and ecosystem protection (SDG 15). [ABSTRACT FROM AUTHOR]

Published
2023
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8. Increasing Paper and Cardboard Recycling: Impacts on the Forest Sector and Carbon Emissions.

Author

Lorang, Etienne, Lobianco, Antonello, and Delacote, Philippe

Subjects
RECYCLED paper, CARBON emissions, CLIMATE change mitigation, WOOD products, CIRCULAR economy, PAPER recycling, WASTE recycling
Abstract

Recycling is emerging as both a viable alternative to extraction in many industries and a cornerstone of the circular economy. In this paper, we assess the role of paper and cardboard recycling on the forest sector, from both an economic and carbon perspective. For this purpose, we add the recycling industry to an existing forest-sector model in an attempt to capture its effects on other wood products and the overall forest resource. As the forest sector has an important potential for climate change mitigation, this model allows us to assess the effects of increased paper and cardboard recycling on the availability of the natural resource and the carbon balance of the forest sector. We show that these results are strongly linked to the hypotheses of substitutability and/or complementarity of recycled pulp and virgin pulpwood. Although we find increased emissions at the pulp sector level, the effects on emissions in other wood products are small. When pulp products are considered substitutes, we find the impact on total net sequestration to be positive. In the case where pulp products are considered complements, we find the impact on total net sequestration to be negative. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Pulp and paper industry in energy transition: Towards energy-efficient and low carbon operation in Finland and Sweden

Author

Satu Lipiäinen, Ekaterina Sermyagina, Esa Vakkilainen, and Katja Kuparinen

Subjects
Environmental Engineering, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Fossil fuel, 02 engineering and technology, Energy security, Energy consumption, 010501 environmental sciences, Energy transition, Pulp and paper industry, 7. Clean energy, 01 natural sciences, Industrial and Manufacturing Engineering, Renewable energy, Climate change mitigation, 13. Climate action, Biofuel, 8. Economic growth, 0202 electrical engineering, electronic engineering, information engineering, Environmental Chemistry, Environmental science, business, 0105 earth and related environmental sciences, Efficient energy use
Abstract

Mitigation of global warming, energy security and industrial competitiveness urge the energy-intensive pulp and paper industry (PPI) to transform energy use practices. This study investigates how the PPI has responded to the need for the energy transition in the 2000s. Finland and Sweden as forerunners of energy-efficient operation and decarbonization of the PPI are used as target countries. Understanding of changes in energy consumption is complemented using decomposition analysis (Logarithmic Mean Divisia Index Method) and the energy efficiency index approach. Analysis of companies’ investments in energy technologies is used for explaining changes in energy production. Evidence of significant development towards the more sustainable operation of the PPI was found. Energy consumption per produced unit has decreased, i.e., energy efficiency has improved. Fossil fuels have been partially replaced with bio-based alternatives. Thus, the CO2 intensity has decreased substantially. The generation of renewable electricity has increased in both countries. Examples of Finland and Sweden indicate that the PPI has great potential to contribute to CO2 emission reduction worldwide in the future as energy efficiency can be further improved, and the share of fossil fuels can be decreased increasing the use of biofuels and self-generated green electricity at least in kraft pulp mills.

Published
2022

10. Assessment of CO2 emission of soils with different textures after deinking-paper sludge application.

Author

Abida, Khouloud, Boudabbous, Khaoula, Marouani, Emna, and Benzina, Naima Kolsi

Subjects
*SOIL texture, *CLAY soils, *SOIL amendments, *CLIMATE change mitigation, *SANDY soils
Abstract

Deinking paper sludge (DPS) soil amendments have potential as a climate change mitigation strategy. Understanding how DPS application affects carbon mineralization in different soil textures is crucial but has not been well investigated. We performed a 120 days incubation experiment to evaluate the effect of soil texture and DPS amount on CO2 emissions. Three different textures were tested: silty clay, sandy-silt and sandy with three DPS doses: 0, 30 and 60 t.ha-1. Results showed that DPS mineralization without soil seemed very rapid with a high mineralized carbon amount (more than 2.500 gC.kg-1DPS), but did not reach the stable phase. For amended soils, soil texture effects are marked at the end of incubation. The cumulative carbon mineralization depended significantly on soil texture and DPS doses with a significant interaction. Among all soils with different dose application, the highest cumulative carbon mineralization was revealed for silty-clay soil by applying 30 t.ha-1 as well as 60 t.ha-1 of DPS. However, the lowest values occurred for sandy soil. Only this latter achieved the stabilization phase after 120 days and therefore stopped CO2 emission. The highest potential mineralization rate (C0) was achieved for silty-clay soil by applying the two DPS doses. The mineralization rate (C0*k) was two times higher for this soil than the sandy soil. The kinetic deviation of carbon mineralization applying the highest DPS doses (60 t.ha-1) is similar for the four studied soils because of C-decomposition blockage. These findings highlight the necessity to consider the combined effects of the DPS amount and soil texture for assessing C release in DPS-amended soils. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Growing a circular economy with fungal biotechnology: a white paper

Author

Meyer, Vera, Basenko, Evelina Y, Benz, J Philipp, Braus, Gerhard H, Caddick, Mark X, Csukai, Michael, de Vries, Ronald P, Endy, Drew, Frisvad, Jens C, Gunde-Cimerman, Nina, Haarmann, Thomas, Hadar, Yitzhak, Hansen, Kim, Johnson, Robert I, Keller, Nancy P, Kraševec, Nada, Mortensen, Uffe H, Perez, Rolando, Ram, Arthur F J, Record, Eric, Ross, Phil, Shapaval, Volha, Steiniger, Charlotte, van den Brink, Hans, van Munster, Jolanda, Yarden, Oded, Wösten, Han A B, Sub Molecular Plant Physiology, Sub Molecular Microbiology, Molecular Microbiology, Molecular Plant Physiology, Department of Molecular Microbiology and Biotechnology, Leiden University, Institute of Biology Leiden, Georg-August-University [Göttingen], School of Biological Sciences, University of Liverpool, Science Faculty, Mohamed V University in Rabat, Chercheur indépendant, Technical University of Denmark [Lyngby] (DTU), Centre of Excellence for Integrated Approaches in Chemistry and Biology of Proteins, University of Virginia [Charlottesville], Centre of Molecular Immunology, Antibody engineering Department, Leiden University, Unité de microbiologie et technologie céréalières, Institut National de la Recherche Agronomique (INRA), Norwegian University of Life Sciences (NMBU), Department of Plant Pathology and Microbiology, The Hebrew University of Jerusalem (HUJ), Utrecht University [Utrecht], Sub Molecular Plant Physiology, Sub Molecular Microbiology, Molecular Microbiology, Molecular Plant Physiology, Westerdijk Fungal Biodiversity Institute - Fungal Physiology, and Westerdijk Fungal Biodiversity Institute

Subjects
0106 biological sciences, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, lcsh:Biotechnology, [SDV]Life Sciences [q-bio], Population, Automotive industry, Review, 01 natural sciences, Applied Microbiology and Biotechnology, 12. Responsible consumption, 03 medical and health sciences, White paper, lcsh:TP248.13-248.65, 010608 biotechnology, 11. Sustainability, SDG 13 - Climate Action, education, Molecular Biology, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 2. Zero hunger, Sustainable development, 0303 health sciences, education.field_of_study, business.industry, Circular economy, SDG 8 - Decent Work and Economic Growth, Cell Biology, [SDE.ES]Environmental Sciences/Environmental and Society, Biotechnology, Climate change mitigation, 13. Climate action, Greenhouse gas, Sustainability, Business, SDG 12 - Responsible Consumption and Production
Abstract

Fungi have the ability to transform organic materials into a rich and diverse set of useful products and provide distinct opportunities for tackling the urgent challenges before all humans. Fungal biotechnology can advance the transition from our petroleum-based economy into a bio-based circular economy and has the ability to sustainably produce resilient sources of food, feed, chemicals, fuels, textiles, and materials for construction, automotive and transportation industries, for furniture and beyond. Fungal biotechnology offers solutions for securing, stabilizing and enhancing the food supply for a growing human population, while simultaneously lowering greenhouse gas emissions. Fungal biotechnology has, thus, the potential to make a significant contribution to climate change mitigation and meeting the United Nation’s sustainable development goals through the rational improvement of new and established fungal cell factories. The White Paper presented here is the result of the 2nd Think Tank meeting held by the EUROFUNG consortium in Berlin in October 2019. This paper highlights discussions on current opportunities and research challenges in fungal biotechnology and aims to inform scientists, educators, the general public, industrial stakeholders and policymakers about the current fungal biotech revolution.

Published
2020

13. Effect of biomass-based carbon capture on the sustainability and economics of pulp and paper production in the Nordic mills

Author

Timo Laukkanen, Satu Lipiäinen, Esa Kari Vakkilainen, Katja Kuparinen, LUT University, Energy efficiency and systems, Department of Mechanical Engineering, Aalto-yliopisto, and Aalto University

Subjects
Economics and Econometrics, Climate change mitigation, Geography, Planning and Development, Emission trade, Negative CO emissions, Management, Monitoring, Policy and Law, Bioenergy with carbon capture and storage BECCS, Pulp mill
Abstract

Funding Information: Open Access funding provided by LUT University (previously Lappeenranta University of Technology (LUT)). The authors gratefully acknowledge the funding from the Academy of Finland for the project “Role of forest industry transformation in energy efficiency improvement and reducing CO emissions” Grant number 315019. 2 Publisher Copyright: © 2021, The Author(s). Bioenergy with carbon capture and storage (BECCS) is one of the key negative emission technologies (NETs). Large-scale implementation of BECCS has been criticized of the associated increase in land use. The existing large Nordic pulp and paper production units enable BECCS deployment without additional land use, as they currently release large amounts of bio-based carbon dioxide (CO2). The application of BECCS in pulp mills has been found technically feasible in earlier studies. This study explores key factors that affect the propensity to invest in BECCS in different types of existing European pulp and paper mills. The results give fresh understanding on the effects of BECCS on the market price of pulp and paper products and the required level of incentives. Based on statistical data, the marginal carbon dioxide credit (€ per ton CO2) to make BECCS profitable was derived. The results show that the required level of credit greatly depends on the mill type and details and that the feasibility of BECCS does notclearly correlate with the economic performance or the measured efficiency of the mill. The most promising mill type, a market kraft pulp mill, would find BECCS profitable with a credit in the range of 62–70 €/tCO2 and a credit of 80 €/tCO2 would decrease pulp production costs by 15 €/tproduct on average if 50% of CO2 emissions was captured. The EU Emission Trading System (ETS) is the main policy instrument to achieve the climate targets related to fossil energy use, but does not yet contemplate bio-based emissions.

Published
2023

14. Reducing climate change gas emissions by cutting out stages in the life cycle of office paper

Author

Counsell, Thomas A.M. and Allwood, Julian M.

Subjects
PAPER industry, CLIMATE change, EMISSIONS (Air pollution), PAPER recycling, PAPER & the environment, INCINERATION, PRINTING, PULPING
Abstract

The paper industry''s climate change gas emissions are growing. This article considers how to reduce emissions from cut-size office paper by bypassing stages in its life cycle. The options considered are: incineration, which cuts out landfill; localisation, which cuts out transport; annual fibre, which cuts out forestry and reduces pulping; fibre recycling, which cuts out landfill, forestry and pulping; un-printing, which cuts out all stages except printing; electronic-paper, which cuts out all stages. Un-printing may offer the greatest climate change emission reduction. There are uncertainties in this result, particularly in estimating the proportion of waste office paper would be suitable for un-printing. [Copyright &y& Elsevier]

Published
2007
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15. Energy security in a net zero emissions future for Switzerland: Expert Group 'Security of Supply' – White Paper

Author

Hug, Gabriela, Demiray, Turhan, Filippini, Massimo, Guidati, Gianfranco, Oswald, Kirsten, Patt, Anthony, Sansavini, Giovanni, Schaffner, Christian, Schwarz, Marius, Steffen, Bjarne, Đukan, Mak, Gjorgiev, Blazhe, Marcucci, Adriana, Savelsberg, Jonas, Schmidt, Tobias, and Oswald, Kirsten

Subjects
Renewable energy, Climate change mitigation, Energy security, Energy system models, ddc:333.7, Energy transition, Natural resources, energy and environment
Published
2023
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16. CO2 emission and oil use reduction through black liquor gasification and energy efficiency in pulp and paper industry

Author

Joelsson, J.M. and Gustavsson, L.

Subjects
PETROLEUM industry, MASS (Physics), PAPER industry, MILLS & mill-work, WOOD pulp industry, GAS industry
Abstract

Abstract: We examine consequences of new energy technologies in the pulp and paper industry with respect to net CO2 emissions and oil use. The entire production chain from the extraction of primary resources is included in the analysis. Stand-alone production of electricity and transportation fuel from biomass is included to balance the systems compared, so that they produce the same CO2 emission and oil use reductions. The technologies considered are black liquor gasification (BLG) with electricity and motor fuels production in chemical pulp mills and increased energy efficiency in thermomechanical pulp mills. The technologies are evaluated with respect to net CO2 emission, oil use, primary energy use, biomass use and monetary cost. We find that BLG in chemical pulp mills is favourable compared to stand-alone production of fuels and electricity from biomass. It is more efficient to implement BLG with motor fuels production and stand-alone electricity production from biomass, than to implement BLG with electricity production and stand-alone production of motor fuels. Increased energy efficiency in refining of thermomechanical pulp gives CO2 savings more efficiently than stand-alone production of electricity from biomass. Sensitivity analysis indicates that our conclusions are robust with respect to energy and biomass prices and the choice of coal or natural gas for marginal electricity. Newsprint from thermomechanical pulp would require slightly less biomass and have lower costs than paper from chemical pulp, per metric ton (t) product, when the systems are also required to render the same oil use and CO2 emission reductions. Substituting mineral fillers for 25% of the chemical pulp changes the balance in favour of the chemical pulp paper. At an oil price of 40 US$/barrel, all studied pulp and paper mill technology improvements give unchanged or reduced monetary costs also when oil use and CO2 emissions are not balanced with stand-alone bioenergy plants. [Copyright &y& Elsevier]

Published
2008
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20. Limited climate benefits of global recycling of pulp and paper

Author

Paul Ekins, Stijn van Ewijk, and Julia A. Stegemann

Subjects
Global and Planetary Change, Ecology, Renewable Energy, Sustainability and the Environment, Natural resource economics, business.industry, Circular economy, Geography, Planning and Development, Global warming, Management, Monitoring, Policy and Law, Urban Studies, Climate change mitigation, Greenhouse gas, Heat generation, Sustainability, Environmental science, Environmental impact assessment, Electricity, business, Nature and Landscape Conservation, Food Science
Abstract

A circular economy is expected to achieve sustainability goals through efficient and circular use of materials. Waste recycling is an important part of a circular economy. However, for some materials, the potential environmental benefits of recycling are unclear or contested. Here, we focus on the global paper life cycle, which generates 1.3% of global greenhouse gas emissions, and estimate the climate change mitigation potential of circularity. We model material use, energy use and emissions up to 2050 for various levels of waste recycling and recovery. We show that emission pathways consistent with a 2 °C global warming target require strong reductions in the carbon intensity of electricity and heat generation. We also show that additional recycling yields small or negative climate change mitigation benefits when it requires high-carbon grid electricity and displaces virgin pulping that is powered by low-carbon pulping by-products. The results indicate that circular economy efforts should carefully consider the energy implications of recycling. Waste recycling is part of a circular economy, but for some materials its environmental benefits are unclear. Looking at the circularity of the global paper life cycle, under various levels of waste recycling, this study shows that any climate benefits hinge on reducing the carbon intensity of the energy used.

Published
2020

21. Assessment of emerging energy-efficiency technologies for the pulp and paper industry: a technical review

Author

Lynn Price, Ali Hasanbeigi, and Lingbo Kong

Subjects
Paperboard, Engineering, Renewable Energy, Sustainability and the Environment, business.industry, Emerging technologies, 020209 energy, Strategy and Management, 02 engineering and technology, Energy consumption, 010501 environmental sciences, Pulp and paper industry, 01 natural sciences, Commercialization, Industrial and Manufacturing Engineering, Climate change mitigation, Environmental Science(all), Software deployment, visual_art, 0202 electrical engineering, electronic engineering, information engineering, visual_art.visual_art_medium, business, 0105 earth and related environmental sciences, General Environmental Science, Efficient energy use
Abstract

The pulp and paper industry accounts for approximately 5% of total industrial energy consumption and contributes 2% of direct carbon dioxide (CO2) emissions from industries. World paper and paperboard demand and production are increasing significantly, leading to an increase in this sector's energy use and CO2 emissions. Although current studies identify a wide range of energy-efficiency technologies that have already been commercialized for the pulp and paper industry, information is limited or scattered regarding new energy-efficiency technologies that are not yet fully commercialized. Development of emerging or advanced energy-efficiency technologies and their deployment in the market will be crucial for this industry's mid- and long-term energy saving and climate change mitigation strategies. This paper compiles available information on energy savings, environmental and other benefits, costs, and commercialization status for 25 emerging technologies to reduce the energy use and CO2 emissions. The purpose is to provide a well-structured comprehensive review on these emerging energy-efficiency technologies for engineers, researchers, investors, policy makers, pulp and/or paper companies, and other interested parties.

Published
2016

23. The biorefinery transition in the European pulp and paper industry – A three-phase Delphi study including a SWOT-AHP analysis

Author

Magdalena Brunnhofer, Natasha Gabriella, Tobias Stern, Josef-Peter Schöggl, and Alfred Posch

Subjects
Economics and Econometrics, Sociology and Political Science, Circular economy, 0211 other engineering and technologies, Delphi method, Analytic hierarchy process, 021107 urban & regional planning, Forestry, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, Business model, Pulp and paper industry, Biorefinery, 01 natural sciences, Climate change mitigation, Profitability index, Business, SWOT analysis, 0105 earth and related environmental sciences
Abstract

Because it is a mature industry, the European pulp and paper industry (PPI) possesses strengths due to its infrastructure, technological know-how, and the availability of biomass. However, the declining trend in the wood-based products sales, coupled with an increasing amount of global attention focused on a bio-based and circular economy, sends a clear signal to the industry, indicating that it needs to transform its business model to increase its profitability while contributing to climate change mitigation. Integrating the biorefinery concept as a value creation business model seems to be the pathway that will reach these objectives. This study was carried out to empirically assess and prioritize factors that affect the diffusion and implementation of the biorefinery concept in the European PPI. For this purpose, a three-phase Delphi study, including a SWOT-Analytic Hierarchy Process (AHP), was conducted. During the course of this study, the opinions of experts from industry and academia were gathered using both qualitative and quantitative methods. The findings reveal that the political dimension has a significant influence on the ability of individuals to tackle the economic barriers while reinforcing the environmental and social benefits in the macro-environment. At the industry level, the availability of biomass appears to be a strength of the PPI, while the knowledge gap regarding technology and the market represents a crucial barrier for the biorefinery development. The human resources issue is indicated as an important premise behind the identified barriers on a strategic level. Finally, five potential strategies for the biorefinery development in the PPI were derived by logically combining the results of the SWOT-AHP decision-making.

Published
2020

24. Winners of the 2018 Graedel Prizes: The Journal of Industrial Ecology best paper prizes.

Author

Kennedy, Christopher and Lifset, Reid

Subjects
INDUSTRIAL ecology, PRIZES (Contests & competitions), ELECTRONIC publications, CLIMATE change mitigation, GOVERNMENT purchasing
Abstract

In 2013, the Graedel Prizes were established to honor Professor Thomas Graedel, now emeritus at Yale University, after an outstanding career as researcher and pioneer in the field of industrial ecology (IE). Photo credit: P. Chatzimpiros gl GLO:FL1/01apr20:jiec12944-fig-0002.jpg PHOTO (COLOR): David Font Vivanco, lead author of the paper awarded the 2018 Graedel Prize for best paper by a junior author. [Extracted from the article]

Published
2020
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26. Nature-Based Solutions for Improving Resilience in the Caribbean : 360° Resilience Background Paper

Author

Valero, Sara, Miranda, Juan Jose, and Murisic, Maja

Subjects
CLIMATE CHANGE IMPACT, CLIMATE CHANGE MITIGATION, COASTAL ECOSYSTEM, SUSTAINABLE DEVELOPMENT, BIODIVERSITY, NATURAL RESOURCE MANAGEMENT, COASTAL RESILIENCE, NATURAL DISASTER, NATURE-BASED SOLUTION, GREEN RECOVERY
Abstract

Sustainable management of environment and natural resources is essential for the long-term and sustainable growth of key economic sectors, such as fisheries, forestry or tourism, across the Caribbean. In addition to being important generators of GDP and beneficial to the human well-being overall, natural resources also provide a range of ecosystem services that play a critical role in the Caribbean countries’ efforts to reduce disaster risks and adapt to mounting climate change risks. The region is facing a number of challenges in this area, including the climate change impacts, limited access to financing, and narrow fiscal space, among others. Such challenges are being exacerbated by the unprecedented health, economic and social impacts of COVID-19 pandemic. However, with great challenges come great opportunities, including to grow and shift the development pathway into a green recovery, based on the richness of the natural resources and biodiversity that this region possesses.

Published
2021

29. Award-winning paper in 2022.

Subjects
SUSTAINABLE engineering, PERIODICAL awards, CLIMATE change mitigation
Abstract

The article announces that a paper published in the journal Engineering Sustainability has won the Richard Trevithick Prize in 2022. The paper examines social value activities in the built environment, focusing on placemaking in the Midlands, UK. It discusses how various agents, including design and planning professionals, contribute to social value and align with the UN Sustainable Development Goals. The paper presents a case study of social value in practice and highlights the potential for future methodologies to improve social outcomes. [Extracted from the article]

Published
2024
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30. Time-series analysis of the contributors and drivers of Zhejiang's carbon emissions and intensity since China's accession to the WTO.

Author

Li, Yingzhu, Lin, Yingchao, and Su, Bin

Subjects
CARBON emissions, CLIMATE change mitigation, TIME series analysis, CARBON paper, CLIMATE change denial
Abstract

Carbon abatement efforts in China are penetrating to sub-national level. Zhejiang province, as the 4th wealthy region in China and important player in global market (e.g., textiles, cloth, petroleum, and chemical products), lacks in-depth study of its climate change mitigation efforts, especially after China's accession to the WTO in 2001. This paper analyzed carbon emissions and intensity in Zhejiang province using most comprehensive and time-series dataset available to date since 2002. Its carbon emissions were growing at a declining speed, and carbon intensity was almost halved. The leading emitters largely agglomerate around Hangzhou Bay, close to Zhoushan Port and Shanghai Port. The growth in absolute emissions primarily arose from higher investment (323.1 Mt) and exports (280.6 Mt), while the slower growth was mainly due to efficiency improvements (− 245.7 Mt) stemming from energy and carbon abatement policies and inflows of emission-intensive products from the rest of China. Similarly, declined carbon intensity was mainly attributed to efficiency improvement. Major contributors were sector S13-Non-metallic minerals, S12-Chemicals, S26-Transport, storage and post, S07-Textiles, and S10-Paper. Economic restructuring played different roles on emissions and intensity during various development stages. Policy implications of the findings are discussed for future developments. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Nachhaltige Transformation.

Author

Kerstin, Graf

Subjects
CLIMATE change mitigation, PAPER products industry, CIRCULAR economy, PAPER industry, SUSTAINABLE development, BIOECONOMICS
Abstract

Copyright of Wochenblatt für Papierfabrikation is the property of dfv Mediengruppe and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024

34. US climate policy yields water quality cobenefits in the Mississippi Basin and Gulf of Mexico.

Author

Zuidema, Shan, Jing Liu, Chepeliev, Maksym G., Johnson, David R., Baldos, Uris Lantz C., Frolking, Steve, Kucharik, Christopher J., Wollheim, Wilfred M., and Hertel, Thomas W.

Subjects
WATER quality, GREENHOUSE gas mitigation, GOVERNMENT policy on climate change, CARBON paper, NITROGEN fertilizers, CLIMATE change mitigation, CROP yields
Abstract

We utilize a coupled economy–agroecology–hydrology modeling framework to capture the cascading impacts of climate change mitigation policy on agriculture and the resulting water quality cobenefits. We analyze a policy that assigns a range of United States government’s social cost of carbon estimates ($51, $76, and $152/ton of CO2-equivalents) to fossil fuel–based CO2 emissions. This policy raises energy costs and, importantly for agriculture, boosts the price of nitrogen fertilizer production. At the highest carbon price, US carbon emissions are reduced by about 50%, and nitrogen fertilizer prices rise by about 90%, leading to an approximate 15% reduction in fertilizer applications for corn production across the Mississippi River Basin. Corn and soybean production declines by about 7%, increasing crop prices by 6%, while nitrate leaching declines by about 10%. Simulated nitrate export to the Gulf of Mexico decreases by 8%, ultimately shrinking the average midsummer area of the Gulf of Mexico hypoxic area by 3% and hypoxic volume by 4%. We also consider the additional benefits of restored wetlands to mitigate nitrogen loading to reduce hypoxia in the Gulf of Mexico and find a targeted wetland restoration scenario approximately doubles the effect of a low to moderate social cost of carbon. Wetland restoration alone exhibited spillover effects that increased nitrate leaching in other parts of the basin which were mitigated with the inclusion of the carbon policy. We conclude that a national climate policy aimed at reducing greenhouse gas emissions in the United States would have important water quality cobenefits. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Impacts of market-based climate change policies on the US pulp and paper industry

Author

Matthias Ruth, Brynhildur Davidsdottir, and Skip Laitner

Subjects
Paperboard, Market based, business.industry, Natural resource economics, Fossil fuel, Climate change, Low-carbon economy, Management, Monitoring, Policy and Law, Pulp and paper industry, General Energy, Climate change mitigation, Investment incentives, visual_art, Greenhouse gas, visual_art.visual_art_medium, Economics, business
Abstract

Much of the policy debates on climate issues have centered on the optimal level and timing of policy interventions that cost-effectively reduce greenhouse gas emissions. We briefly review the range of policy issues in our paper and assess the impact that climate-change policies may have on energy use and carbon emissions in the US pulp and paper industry. We then present results from time series-based analyses of changes in technologies and fuel mix, and compare the results with engineering-based technology analyses of US pulp and paper production (for a copy of the model and software send e-mail to mruth@bu.edu.). Projections, based on information for eight paper and paperboard categories, are presented for the years 1995–2020. The findings indicate that, under a wide range of specifications and policy assumptions, carbon emissions from fossil fuel use per ton of product are likely to decline. When combined with investment incentives, an additional cost-effective reduction in carbon emissions per ton of product will be realized. However, expected increases in output from the industry are likely to be higher than the reductions in energy and carbon intensities. The policy implications of these findings are discussed.

Published
2000

38. Pulp and paper mill sludge management practices: What are the challenges to assess the impacts on greenhouse gas emissions?

Author

Claude Villeneuve, Simon Barnabé, Patrick Faubert, Sylvie Bouchard, and Richard Côté

Subjects
Economics and Econometrics, Waste management, business.industry, 020209 energy, 02 engineering and technology, Biodegradable waste, Climate change mitigation, Land reclamation, Biofuel, Agriculture, Greenhouse gas, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Environmental impact assessment, business, Waste Management and Disposal, Life-cycle assessment
Abstract

Pulp and paper mill sludge (PPMS) is an organic residual generated from the wastewater treatments. PPMS management involves economic, environmental and social costs that will likely increase in the future as landfilling tends to be reduced or banned in certain jurisdictions. The reduction or the banning of landfilling may be considered as a climate change mitigation measure since organic waste disposal is normally associated with greenhouse gas (GHG) emissions. This critical review aims to (1) describe the variety of the current and emerging PPMS management practices that are alternatives to landfilling and (2) underline the crucial need for GHG emission assessments. The management practices of the three main PPMS types (primary, secondary and de-inking) comprised in this review are land application (agriculture, silviculture, land reclamation and composting), energy recovery (combustion, anaerobic digestion, pyrolysis, bioethanol, hydrogen production and direct liquefaction) and integration in materials (biocomposite, cement, asphalt and adsorbent–absorbent). Future research should focus to increase the comprehension of known GHG determinants from the PPMS management practices and reveal unknown factors. Life cycle analyses, based on direct GHG emission measurements, are needed to determine GHG emissions from current and emerging practices and plan a responsible future reduction or banning of landfilling. Such analyses will contribute to assist decision makers in implementing the best PPMS management practices with the least impact on climate change.

Published
2016

39. 'What the hell is this?': Inside the Coalition's climate division: EXCLUSIVE: As the Coalition fractures over climate action, Anthony Albanese tells The Saturday Paper he believes it is the No. 1 issue for many voters.

Author

Barlow, Karen

Subjects
CLIMATE change mitigation, COALITIONS, VOTERS, VOTING
Abstract

This article explores the division within the Coalition party in Australia regarding climate action. Prime Minister Anthony Albanese argues that climate change is a top concern for many voters and accuses the Coalition of neglecting those who prioritize climate action. Opposition Leader Peter Dutton initially claimed that Australia's goals under the Paris Agreement were unachievable, but later clarified his stance. The article also discusses the Coalition's commitment to the Paris Agreement and the ongoing debate over a new climate target. It highlights the confusion and concern surrounding the government's new climate policy, with some unnamed Liberals expressing support while others question its effectiveness and suggest misreporting. The article acknowledges the challenges faced by both major political parties in addressing climate change and the potential impact on electoral outcomes. Climate scientists and advocacy groups stress the importance of honoring commitments and intensifying efforts to reduce emissions. The article concludes by presenting different perspectives on the potential consequences of the policy for the Coalition government and the necessity of a credible approach to tackle climate change. [Extracted from the article]

Published
2024

40. Practice papers The climate crisis and regeneration.

Author

Maliphant, Andrew

Subjects
CLIMATE change mitigation, URBAN climatology, CRISES, CLIMATE change
Abstract

This introductory view of the relationships and issues that connect contemporary urban regeneration with the climate crisis and its consequences represents a work in progress. While noting many close connections between regeneration and climate action, the paper suggests that full understanding of the connections and their further development requires much more work in clarifying the detail around climate change challenges. These challenges come at every level of society from individual people to international governments, and good practice is emerging. As well as mitigation and adaptation -- the two key actions in response to climate change -- there is need for clear communication, both to educate us all about these actions and to support campaigning to encourage other groups and agencies to do so as well. The burning question overall is what will good and effective regeneration look like under these changing conditions? There is a need to review and potentially replace past solutions with approaches that meet the needs of the present without compromising the ability of future generations to meet their own needs, so that we can become more fit for the 22nd century. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Biomass-based carbon capture and utilization in kraft pulp mills.

Author

Kuparinen, Katja, Vakkilainen, Esa, and Tynjälä, Tero

Subjects
SULFATE pulping process, PULP mills, SOFTWOOD, PAPER industry, CORPORATE image, CARBON sequestration, PAPER mills
Abstract

Corporate image, European Emission Trading System and Environmental Regulations, encourage pulp industry to reduce carbon dioxide (CO2) emissions. Kraft pulp mills produce CO2 mainly in combustion processes. The largest sources are the recovery boiler, the biomass boiler, and the lime kiln. Due to utilizing mostly biomass-based fuels, the CO2 is largely biogenic. Capture and storage of CO2 (CCS) could offer pulp and paper industry the possibility to act as site for negative CO2 emissions. In addition, captured biogenic CO2 can be used as a raw material for bioproducts. Possibilities for CO2 utilization include tall oil manufacturing, lignin extraction, and production of precipitated calcium carbonate (PCC), depending on local conditions and mill-specific details. In this study, total biomass-based CO2 capture and storage potential (BECCS) and potential to implement capture and utilization of biomass-based CO2 (BECCU) in kraft pulp mills were estimated by analyzing the impacts of the processes on the operation of two modern reference mills, a Nordic softwood kraft pulp mill with integrated paper production and a Southern eucalyptus kraft pulp mill. CO2 capture is energy-intensive, and thus the effects on the energy balances of the mills were estimated. When papermaking is integrated in the mill operations, energy adequacy can be a limiting factor for carbon capture implementation. Global carbon capture potential was estimated based on pulp production data. Kraft pulp mills have notable CO2 capture potential, while the on-site utilization potential using currently available technologies is lower. The future of these processes depends on technology development, desire to reuse CO2, and prospective changes in legislation. [ABSTRACT FROM AUTHOR]

Published
2019
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44. Call for Special Issue Papers: Student Research in Sustainability and Climate Change: Deadline for manuscript submissions: November 1, 2022.

Author

Venkatesan, Madhavi

Subjects
RESEARCH papers (Students), CLIMATE change, ACQUISITION of manuscripts, CLIMATE research, SUSTAINABILITY, CLIMATE change mitigation, SUSTAINABLE development reporting
Abstract

I Sustainability and Climate Change i is a peer-reviewed publication dedicated to furthering the paradigm of sustainability, sustainable development, and climate change. B I Sustainability and Climate Change i b is opening a Call for Papers for a special focus issue on Student Research. [Extracted from the article]

Published
2022
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45. Coal seam gas and associated water: A review paper

Author

Sara Hamawand, Ihsan Hamawand, and Talal Yusaf

Subjects
Engineering, Climate change mitigation, Coalbed methane, Renewable Energy, Sustainability and the Environment, business.industry, Natural gas, Natural resource economics, Energy resources, Coal mining, Production (economics), Climate change, Coal, business
Abstract

Coalbed methane (CBM) or coal seam gas (CSG) as it is known in Australia is becoming an increasingly important source of energy around the world. Many countries such as United States, Canada, Australia and China are investing in the CSG industry. A rise in the cost of conventional natural gas and many other energy resources, along with a decline in these conventional resources and issues such as climate change have encouraged a global interest in alternative sources of energy like CSG. The estimated quantity of CSG worldwide is around 1.4×1014 m3, it is clear that coal seam gas is a significant source of energy. The first section of this paper will discuss the production size of CSG worldwide and the future of the industry. The usage of the coal bed seam for the sequestration of CO2 is also an added benefit. The reduction of CO2 released to the environment may help in the future mitigation of global warming. In addition, the re-injecting of the co-produced CO2 enhances the commercial recovery and production of CSG wells. In the second section, the impact of the CSG industry's by-products on the environment, the freshwater ecosystem and human health are analysed. The second section includes issues associated with the large volume of co-produced water with undesirable composition in the CSG industry. The management of this enormous amount of water requires cost effective technologies and methods. Many methods for dealing with water problems are discussed and analysed in this paper.

Published
2013

49. REVIEW PAPER ON HORIZONTAL SUBSURFACE FLOW CONSTRUCTED WETLANDS: POTENTIAL FOR THEIR USE IN CLIMATE CHANGE MITIGATION AND TREATMENT OF WASTEWATER.

Author

ENGIDA, T., WU, J. M., XU, D., and WU, Z. B.

Subjects
WASTEWATER treatment, ADVECTION, SEWAGE purification, CLIMATE change mitigation, CONSTRUCTED wetlands, CARBON sequestration
Abstract

The combination of rapid urbanization and industrialization expansion increased waste volumes. Most of the wastewaters generated from either domestic or industrial sources are still discharged without adequate treatment processes, and impact on the environment and public health. The objective of this paper was to provide a comprehensive literature review on the application of horizontal subsurface flow constructed wetlands in treating a variety of wastewaters, discussing its feasibility in pollutant removal efficiency and additional benefit in climate change mitigation through carbon sequestration. The following results were obtained: 98%, 96%, 85%, 90%, 92%, 88% for BOD5, COD, TSS, TN, NH4 -N, PO43- respectively in Kenya; 98.46% and 98.55% for COD and BOD5 in Indonesia; and ranges from 94-99.9%, 91.7-97.9% and 99.99% for BOD5, COD and TFC respectively in Costa Rica. Whereas in Ethiopia, the HSSFCW achieved the following abatement efficiencies: COD ranges from 58 to 80%, BOD ranges from 66 to 77%, TKN ranges from 46-61%, sulfates ranges from 53 to 82%, and NH4 - N range from 64 to 82.5% for tannery wastewater treatment. For domestic wastewater treatment; 99.3%, 89%, 855, 84.05%, 77.3%, 99% and 94.5% were achieved for BOD5, COD, TSS, TN, PO4³-, TP, Sulfate, and TFC, respectively. In addition to improving water quality, CWs have a CSP. For example, CWs showed CO2 equivalent of 4119.54 g C/m²/yr CSP (carbon sequestration potential) which is 15118.7118 g CO2. The methane equivalent to this amount of carbon sequestration is 604.748472 g/m²/yr. Generally, research results indicated that constructed wetlands are efficient wastewater treatment techniques and should be encouraged for wastewater management as a strategy to reduce wastewater pollution. However, constructed wetland performance efficiency sustainability is affected by the operational conditions of HSSFCW including plant species, media/substrate types, water depth, hydraulic loading, and hydraulic retention time and feeding mode. [ABSTRACT FROM AUTHOR]

Published
2020
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50. Scratches on the wall: racial capitalism, climate finance and Pacific Islands.

Author

Anantharajah, Kirsty

Subjects
CLIMATE change mitigation
Abstract

Critique surrounding climate finance is mounting against a backdrop of an escalating ecological crisis manifesting unequally across the globe. This paper uses learnings from racial capitalism to unpack the modalities of climate finance, using the Pacific region as an illustrative case. It argues that racial capitalism is enacted through modalities of climate finance, in part, by the erection of walls. One type of wall enacted by climate finance is epistemic: its definitions place it as the inherent object of Northern interventions. Moreover, financial walls are maintained through debt in climate finance, creating borders of deprivation through ongoing practices of indebting already burdened regions. The paper also highlights the way borders can manifest through regulation, in particular, through climate funds delineating arduous benchmarks of already burdened states. These walls contribute to the racialized process of creating 'sacrifice zones': places that have borne the cost of benefits accrued elsewhere, left without in a state of depletion. The paper explores the material futures that are being enacted by these modalities of climate finance through the case of climate migration. Yet these dystopian futures must not be taken for granted, rather, the walls which separate climate affected communities from hopeful futures must be dismantled. [ABSTRACT FROM AUTHOR]

Published
2024
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