Showing total 21,482 results

1. Correction factors for large-scale greenhouse gas assessment from pulp and paper mill sludge landfill sites.

Author

Ribeiro Paula R, Cusson M, Bertrand N, Bouchard S, Chantigny MH, Lemieux J, Marouani E, Villeneuve C, and Faubert P

Subjects

Sewage, Canada, Waste Disposal Facilities, Carbon Dioxide, Greenhouse Gases

Abstract

Assessments of greenhouse gas (GHG) emissions in managed areas are facing various challenges. A non-flow-through, non-steady-state (NFT-NSS) chamber coupled to a frame permanently inserted into the landfilled substrates is a standard method for quantifying GHG emissions in managed areas, such as pulp and paper mill sludge (PPMS) landfill sites. Frequent measurements are needed to minimize uncertainties on GHG emission factors at the landfill site scale. However, maintaining a frame inserted into the substrates for a long time period is often impossible due to landfilling management operations. Therefore, GHG measurements using NFT-NSS chambers placed directly on substrates' surface could be an interesting option. Our objectives were to determine the relationships between CO 2 , CH 4 , and N 2 O fluxes measured with (F + ) and without (F-) a frame inserted in the substrates' surface and to develop correction factors for fluxes measured without a frame. Measurements were made at different PPMS landfill sites in the province of Québec, Canada. Stronger GHG flux relationships were observed at the provincial (across sites) than the specific site scale: the variance in GHG fluxes from F- chambers explained up to 80 % of variance in fluxes from F + chambers. The measured CO 2 , CH 4 , and N 2 O fluxes in F- chambers were on average 53, 78, and 63 % lower, respectively, than those estimated by the models at provincial scale. The correction factors developed with this approach could greatly extend the number of sites where in situ GHG measurements can be done and would help refining GHG inventories at the provincial and national levels., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

2. Country-specific net-zero strategies of the pulp and paper industry.

Author

Dai M, Sun M, Chen B, Shi L, Jin M, Man Y, Liang Z, de Almeida CMVB, Li J, Zhang P, Chiu ASF, Xu M, Yu H, Meng J, and Wang Y

Subjects

Greenhouse Effect, Industry, Recycling, Methane analysis, Greenhouse Gases

Abstract

The pulp and paper industry is an important contributor to global greenhouse gas emissions 1,2 . Country-specific strategies are essential for the industry to achieve net-zero emissions by 2050, given its vast heterogeneities across countries 3,4 . Here we develop a comprehensive bottom-up assessment of net greenhouse gas emissions of the domestic paper-related sectors for 30 major countries from 1961 to 2019-about 3.2% of global anthropogenic greenhouse gas emissions from the same period 5 -and explore mitigation strategies through 2,160 scenarios covering key factors. Our results show substantial differences across countries in terms of historical emissions evolution trends and structure. All countries can achieve net-zero emissions for their pulp and paper industry by 2050, with a single measure for most developed countries and several measures for most developing countries. Except for energy-efficiency improvement and energy-system decarbonization, tropical developing countries with abundant forest resources should give priority to sustainable forest management, whereas other developing countries should pay more attention to enhancing methane capture rate and reducing recycling. These insights are crucial for developing net-zero strategies tailored to each country and achieving net-zero emissions by 2050 for the pulp and paper industry., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

3. Integrated enzyme hydrolysis assisted cellulose nanofibril (CNF) fabrication: A sustainable approach to paper mill sludge (PMS) management.

Author

Li J, Alamdari NE, Aksoy B, Parit M, and Jiang Z

Subjects

Cellulose chemistry, Sewage, Hydrolysis, Nanofibers chemistry, Greenhouse Gases

Abstract

The landfilling of paper mill sludge (PMS) has been restricted or even banned in many countries due to the raised concern about greenhouse gas (GHG) emissions and contamination of the soil and water, calling for a sustainable PMS management approach. The potential valorization of PMS to nanomaterials combined with traditional biorefinery was examined in this work. Three types of PMS-derived cellulose nanofibrils (CNFs) were prepared and evaluated: enzymatically assisted CNF (AU: with in-house produced enzyme and CT: with commercial enzyme), mechanically pretreated CNF (BT), and chemically pretreated CNF by TEMPO oxidation (TEMPO). It was found that enzyme-assisted mechanical fibrillation-derived CNFs had a comparable average diameter (27.9 nm for AU and 22.7 nm for CT) with that produced from mechanical pretreatment (26.5 nm for BT) and TEMPO oxidation pretreatment (20.0 nm for TEMPO), and they showed the best drainage properties among the three types of CNF. The CNFs resulting from enzymatic pretreatment reduced 15% of energy consumption compared to the mechanical method and had better thermostability than TEMPO oxidation method. In addition, the on-site produced enzyme showed similar performance to the commercial enzymes towards the CNF properties. These findings provide new insights into a promising integrated strategy in engineering CNF from PMS with on-site enzyme production as a novel and sustainable approach for PMS management and valorization., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

4. Exploring greenhouse gas emissions pathways and stakeholder perspectives: In search of circular economy policy innovation for waste paper management and carbon neutrality in Hong Kong.

Author

Chen P, Sauerwein M, and Steuer B

Subjects

Hong Kong, Carbon Dioxide analysis, Greenhouse Effect, Waste Products, Greenhouse Gases, Refuse Disposal, Waste Management

Abstract

Waste paper disposed in landfills notably contributes to greenhouse gas (GHG) emissions and impedes more sustainable, circular alternatives, such as recycling. In Hong Kong, this unsustainable approach is currently dominant as 68% of waste paper products are treated in landfills in 2020. To contextualize the impact of local waste paper management and explore mitigation potentials of circular alternatives, this paper develops a quantitative assessment framework around GHG emissions development trajectories. Combining guidelines of the Intergovernmental Panel on Climate Change (IPCC), national GHG inventories, and local parameters from life cycle analysis, five GHG emissions projections were simulated along the Shared Socioeconomic Pathways (SSPs) until 2060. Most recent baselines indicate that Hong Kong's current waste paper treatment generated 638,360 tons CO 2 -eq in 2020, comprising 1,821,040 tons CO 2 -eq from landfill and 671,320 tons CO 2 -eq from recycling, and -1,854,000 tons CO 2 -eq from primary material replacement. Proceeding along a Business-as-Usual scenario under SSP5, GHG emissions will dramatically increase to a net 1,072,270 tons CO 2 -eq by 2060, whereas a recycling-intensive scenario will lead to a net saving of -4,323,190 tons CO 2 -eq. To complement the quantitative evidence on the benefits of waste paper recycling, field research was conducted to explore the feasibility of circular policy innovation from the perspective of recycling stakeholders. These empirical qualitative and quantitative findings from stakeholders' business routines and material transactions provide crucial indications for policy and institutional innovation: Essentially, for Hong Kong to improve waste paper recycling capacities and facilitate a circular economy (CE), local stakeholders require support via fiscal policy measures (financial subsidies or tax reductions) and infrastructure improvements (delivery access and material storage). In sum, this study employs a novel analytical framework combining original qualitative and quantitative evidence to provide policy innovation towards circular, GHG emission-saving waste paper management., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

5. Utility of wood ash, paper sludge and biochar for the mitigation of greenhouse gases emissions from acid boreal soils.

Author

Medaiyese AO, Wu J, and Unc A

Subjects

Sewage, Carbon Dioxide analysis, Agriculture, Charcoal, Nitrous Oxide analysis, Soil, Greenhouse Gases analysis

Abstract

Land-use change in the boreal forest region leads to agriculture to be carried out on acid, shallow and low fertility soils. To correct soil fertility and promote crop productivity, manure and inorganic fertilizers are added, increasing the risk for greenhouse gas emissions (GHGE). To reduce the reliance on synthetic soil amendments while taking advantage of locally relevant industrial by-products, wood ash (WA) and paper sludge (SL) have been proposed as soil amendments for a range of soil types. We posited that amending soils with WA, SL and biochar will improve soil health parameters and fertility of boreal soils. Microbial activity resulting to nitrogen losses and availability were assessed. WA had a stronger ameliorative effect on acid boreal soils compared to SL. Both WA and SL increased soil microbial biomass and basal respiration resulting in higher net mineralization and thus significant increases in CO 2 emissions. Co-application of urea with WA or SL further increased net mineralization compared to when used independently. Conversely, the biochar's effect was short-lived and not significant. Nevertheless, addition of biochar was shown to reduce CO 2 emissions in all cases except in WA amended soils. No significant differences were observed in CH 4 emissions across all treatments. WA and SL may improve soil fertility and quality but could also contribute significantly to GHG emissions in acid boreal soils. Further research is recommended to assess the mitigating effect of various biochar feedstocks on GHG emissions when co-applied with WA and SL., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

6. Physicians' responsibility toward environmental degradation and climate change: A position paper of the European Federation of Internal Medicine.

Author

Campos L, Barreto JV, Bassetti S, Bivol M, Burbridge A, Castellino P, Correia JA, Durusu-Tanriöver M, Fierbinteanu-Braticevici C, Hanslik T, Heleniak Z, Hojs R, Lazebnic L, Mylona M, Raspe M, Melo JQE, Pietrantonio F, Gans R, Pálsson R, Montano N, Gómez-Huelgas R, and Dicker D

Subjects

Climate Change, Hospitals, Humans, Internal Medicine, Greenhouse Gases, Physicians

Abstract

The current data on climate change and environmental degradation are dramatic. The consequences of these changes are already having a significant impact on people's health. Physicians - as advocates of the patients, but also as citizens - have an ethical obligation to be involved in efforts to stop these changes. The European Federation of Internal Medicine (EFIM) strongly encourages the Internal Medicine societies and internists across Europe to play an active role in matters related to climate change and environmental degradation. At a national level, this includes advocating the adoption of measures that reduce greenhouse gas (GHG) emissions and environmental degradation and contributing to policy decisions related to these issues. At a hospital level and in clinical practice, supporting actions by the health sector to reduce its ecological footprint is vital. At the level of EFIM and its associated internal societies, promoting educational activities and developing a toolkit to prepare internists to better care for citizens who suffer from the consequences of climate change. In addition to advocating and implementing effective actions to reduce the ecological footprint of the health industry, recommending the introduction of these themes in scientific programs of Internal Medicine meetings and congresses and the pre- and postgraduate medical training. At a personal level, internists must be active agents in advocating sustainable practices for the environment, increasing the awareness of the community about the health risks of climate change and environmental degradation, and being role models in the adoption of environmentally friendly behaviour., Competing Interests: Declaration of Competing Interest The authors declare they have no conflicts of interest., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

7. Impact and legacy of the highly cited paper by Blaxter and Clapperton (1965) 'Prediction of the amount of methane produced by ruminants [ Br J Nutr 19, 511-522]'.

Author

Wallace RJ

Subjects

Cattle, Sheep, Animals, Ruminants, Diet veterinary, Energy Intake, Rumen chemistry, Animal Feed analysis, Methane analysis, Greenhouse Gases analysis

Abstract

The paper by K. L. Blaxter and J. L. Clapperton (1965) 'Prediction of the amount of methane produced by ruminants. Br J Nutr 19, 511-522' has been cited 656 times according to Web of Science and continues to be cited with increasing frequency to the present day. The analysis described in the paper, or meta-analysis as it would be known now, is of methane production from cattle and sheep based on forty-eight trials using closed-circuit respiration chambers, all carried out at the Hannah Research Institute, Ayr, UK, between 1955 and 1965. Methane emissions per unit of diet fed were shown to vary depending on diet, level of feeding and individual animal. As such, previous notions that methane emissions were essentially proportional to energy intake were set aside. The main reasons for the paper's continuing citation are the set of equations that can be used to predict methane emissions from ruminants when the technically demanding respiration chambers are unavailable, and that it was the first definitive study to describe the complexities of methane emissions with respect to animals and diets. The paper thus provided abundant insights of the relations between ruminant methane emissions and nutritional biology, and rumen microbiology, in particular, that have informed countless research projects in the intervening half-century. Given the importance of methane as a greenhouse gas in the climate change scenario, these insights are at least as relevant today as they were in 1965.

Published

2022

8. The Impact of Waste Paper Recycling on the Carbon Emissions from China's Paper Industry.

Author

Shang D, Diao G, Liu C, and Yu L

Subjects

Carbon Dioxide analysis, China, Industry, Carbon analysis, Greenhouse Gases

Abstract

As China's demand for paper products increases, China's paper industry faces enormous pressure to reduce greenhouse gas emissions. By using material flow analysis in combination with input-output analysis, this study measured the waste paper recovery rate in a more accurate method and analyzed the impact of waste paper recycling on the carbon emissions from China's paper industry. China's waste paper recovery rate estimated in this study was close to 70% in 2017, much higher than that of 48% obtained with the traditional method. The regression results displayed a negative relationship between waste paper recovery rate and CO 2 emissions per unit of paper consumption during 2000-2017 in China. The rolling regression results further indicated that the impact of waste paper recycling was becoming stronger on reducing CO 2 emissions per unit of paper consumption in China. Since an inverted "U" shape relationship exists between waste paper recovery rate and its reduction effect on carbon emissions from the paper industry, the regression results suggested that China's waste paper recovery rate has not reached the optimal level with regard to carbon emissions from China's paper industry. Thus, although China's waste paper recovery rate has reached a relatively high level, currently waste paper recycling is still an effective method to reduce carbon emissions from China's paper industry.

Published

2021

9. Opportunities and challenges to improve carbon and greenhouse gas budgets of the forest industry through better management of pulp and paper by-products

Author

Sharlène Laberge, Blandine Courcot, Andréanne Lagarde, Simon Lebel Desrosiers, Karima Lafore, Evelyne Thiffault, Nelson Thiffault, and Nicolas Bélanger

Subjects

biosolids, greenhouse gases, landfilling, methane, nature-based climate solutions, pulp and paper industry, Environmental sciences, GE1-350

Abstract

Developing land use strategies to optimize carbon sinks and improve carbon footprints involves proposing efficient nature-based solutions that industries and businesses can implement while considering financial and legislative constraints. The pulp and paper industry is associated with significant greenhouse gas (GHG) emissions, primarily due to the substantial carbon dioxide (CO2) footprint of its mills. Also, some forestry operations contribute to the release of carbon to the atmosphere in the form of CO2 and methane (CH4). Conversely, this industry could potentially be a significant ally in the fight against climate change by favoring forestry practices that reduce carbon emissions and increase its sequestration, namely, by adding value to industrial by-products (e.g., biosolids) instead of treating them as wastes and landfilling them. Notably, the pulp and paper industry has been seeking alternative uses of its by-products, such as fertilizers to maximize tree growth. In this paper, we identify opportunities and challenges that exist for the pulp and paper industry in regard to recycling industrial by-products to: 1) lower GHG emissions directly at the mill and 2) improve its GHG budget by increasing carbon sequestration in forests and plantations. We illustrate our analyses by describing a case study of a pulp and paper mill in southern Quebec, Canada, that uses its biosolids and other by-products as fertilizers. This case study highlights that this strategy could not only contribute to the reduction of GHGs but could also create added value and improve economic returns of forest operations.

Published

2024

10. Can alkaline residuals from the pulp and paper industry neutralize acidity in forest soils without increasing greenhouse gas emissions?

Author

Royer-Tardif S, Whalen J, and Rivest D

Subjects

Acer growth & development, Hydrogen-Ion Concentration, Industry, Paper, Quebec, Air Pollution prevention & control, Fertilizers analysis, Forestry methods, Forests, Greenhouse Gases analysis, Industrial Waste analysis, Soil chemistry

Abstract

Alkaline residuals, such as wood ash and lime mud generated from pulp and paper mills, could be recycled as liming agents in sugar maple (Acer saccharum Marsh.) forests affected by soil acidification. The objectives of this study were (1) to evaluate soil chemistry, in particular soil acidity, after the application of three alkaline residuals from the pulp and paper industry, and (2) to determine if these alkaline residuals altered soil greenhouse gas (GHG) emissions as a result of the change in soil pH or due to their chemical composition. Soil properties and GHG fluxes were monitored for two years after alkaline residuals were applied to six forest sites dominated by sugar maple in southeastern Quebec, Canada. Each site received six treatments: wood ash applied at 5, 10 and 20 t ha -1 , lime mud (7.5 t ha -1 ), a mixture of slaker grits and green liquor sludge (7 t ha -1 ) and an unamended control. These treatments had acid-neutralizing power from 0 to 9 t ha -1 . All alkaline residuals buffered soil acidity as a function of their neutralizing power, and more neutralization occurred in the forest floor layer than in the underlying mineral soil. In the forest floor, the alkaline residual treatments significantly increased pH by more than one unit, nearly doubled the base saturation, and reduced exchangeable acidity, Al and Fe concentrations compared to control plots. The CO 2 and N 2 O fluxes were lower after application of alkaline residuals, and this was related to the soil pH increase and the type of alkaline residual applied. Lime mud was more effective at reducing GHG fluxes than other alkaline residuals. We conclude that these alkaline residuals can effectively counteract soil acidity in sugar maple forests without increasing soil GHG emissions, at least in the short term., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

11. The Warming Papers : The Scientific Foundation for the Climate Change Forecast

Author

David Archer, Raymond Pierrehumbert, David Archer, and Raymond Pierrehumbert

Subjects

Greenhouse gases, Greenhouse effect, Atmospheric, Global temperature changes

Abstract

Chosen for the 2011 ASLI Choice - Honorable Mention (History Category) for a compendium of the key scientific papers that undergird the global warming forecast. Global warming is arguably the defining scientific issue of modern times, but it is not widely appreciated that the foundations of our understanding were laid almost two centuries ago with the postulation of a greenhouse effect by Fourier in 1827. The sensitivity of climate to changes in atmospheric CO2 was first estimated about one century ago, and the rise in atmospheric CO2 concentration was discovered half a century ago. The fundamentals of the science underlying the forecast for human-induced climate change were being published and debated long before the issue rose to public prominence in the last few decades. The Warming Papers is a compendium of the classic scientific papers that constitute the foundation of the global warming forecast. The paper trail ranges from Fourier and Arrhenius in the 19th Century to Manabe and Hansen in modern times. Archer and Pierrehumbert provide introductions and commentary which places the papers in their context and provide students with tools to develop and extend their understanding of the subject. The book captures the excitement and the uncertainty that always exist at the cutting edge of research, and is invaluable reading for students of climate science, scientists, historians of science, and others interested in climate change.

Published

2011

12. Waste paper recycling decision system based on material flow analysis and life cycle assessment: A case study of waste paper recycling from China.

Author

Liu M, Tan S, Zhang M, He G, Chen Z, Fu Z, and Luan C

Subjects

China, Greenhouse Effect, Industry, Greenhouse Gases, Recycling

Abstract

China's paper industry development is rapid, but the recycling rate of China's waste paper has been low all the time. Meanwhile, material flow analysis can help determine the flow of waste paper, and life cycle assessment (LCA) is the methodological framework for quantifying greenhouse gas emissions. Therefore, present study integrates these two methods into the model construction of China's waste paper recycling decision system. Present study constructs a benchmark model of China's waste paper recycling decision system in 2017, focusing on the impact of nonstandard waste paper recycling on the economic and environmental benefits of China's domestic waste paper recycling system. This model construction is followed by sensitivity analysis of the relevant parameters affecting the efficiency of the waste paper recycling system. Finally, present study forecasts the system's economic benefits and greenhouse gas (GHG) emissions in the context of integrating and regulating nonstandard recycling vendors. The results show that the economic benefit of China's waste paper recycling in 2017 is approximately 458.3 yuan/t and that the GHG emissions are 901.1 kgCO 2 eq. The standard recovery rate and nonstandard recovery acceptance rate will both have a significant impact on the system's economic benefits and improve the GHG emissions structure. In the context of integrating nonstandard recycling enterprises and individual recycling vendors, the economic benefits will rise to 3312.5 yuan/t in 2030, while GHG emissions will rise to 942.9 kgCO 2 eq. Present study can play a certain guiding role for policy makers in formulating waste paper recycling industry specifications and formulating relevant policies., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

13. Some Aspects of Heat Accumulators Application in Thermal Power Engineering

Author

Umerenkov, Evgeny, Umerenkova, Elina, Savelyeva, Ekaterina, Markov, Rostislav, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Vatin, Nikolai, editor, Pakhomova, Ekaterina Gennadyevna, editor, and Kukaras, Danijel, editor

Published

2024

14. An experimental study on utilization of paper pulp and crushed marble dust in M35 grade concrete.

Author

Sargunan, K. and Suvarna, M.

Subjects

PAPER pulp, INCINERATION, WASTE paper, INDUSTRIAL wastes, CRUSHED stone, GREENHOUSE gases, AIR pollution, INDUSTRIAL pollution

Abstract

The demand for cement has grown due to the rapid growth of the building sector. Cement manufacture, on the other hand, produces more greenhouse gases and carbon dioxide. As a result, different construction materials must be sought. Paper pulp is made from waste from the paper industry. Every year, the paper industry consumed a significant amount of land in the surrounding area. Some wastes are thrown on land as a disposal method, while some businesses burn their industrial waste in incinerators, causing serious air pollution issues. The impact of employing paper pulp and crushed stone dust as partial replacements in concrete is discussed in this study. The advantages of using paper pulp with crushed stone are explored in this study. Furthermore, this research presents the findings of an experimental inquiry for M35 grade concrete employing wastepaper as an extra ingredient in concrete mixes for housing projects. [ABSTRACT FROM AUTHOR]

Published

2023

15. Sustainable Operations in Paper and Pulp Industry: Analysis of Challenges.

Author

Mishra, Biswaksen and Singh, Rajesh Kumar

Subjects

PAPERMAKING, PAPER industry, GREENHOUSE gases, GLOBAL warming, NATURAL resources

Abstract

A paper making process adopts primarily a generic flow of steps across industries. This industry is one of the largest in the world and is touted to be growing further with incremental demand for paper and its affiliated products for its eco-friendliness. However, paper and pulp industry is a heavily resource dependent industry be it forest resource, water resource, energy or chemicals. In fact, it is said to be one of the top five leading consumers of energy. Given such, this industry is a major contributor to depleting natural resources and increasing greenhouse gas emission, adding intensively to the global warming. Against such a backdrop, it offers relevant cause to study the scholarly discussion and debate on sustainable issues in paper and pulp industry playing around the academic universe and also to poke into and discuss some of the issues of sustainability in the industry emerging out of the articles. Accordingly, through this article, the present state of affairs in the academic fraternity on the above topic has been laid out through a bibliometric analysis, while some of the common challenges of environmental sustainability associated with the paper making process have been identified from the literature and discussed thereof. [ABSTRACT FROM AUTHOR]

Published

2023

16. Greenhouse Gas Emissions after Application of Landfilled Paper Mill Sludge for Land Reclamation of a Nonacidic Mine Tailings Site.

Author

Faubert P, Durocher S, Bertrand N, Ouimet R, Rochette P, Tremblay P, Boucher JF, and Villeneuve C

Subjects

Carbon Dioxide, Greenhouse Effect, Industrial Waste, Paper, Soil, Greenhouse Gases, Mining, Waste Disposal Facilities

Abstract

Large areas of mine tailings are reclaimed by applying organic amendments such as paper mill sludge (PMS). Although mining industries can use PMS freshly generated by paper mills, operational constraints on paper industries make temporary landfilling of this material an unavoidable alternative for the paper industries, creating the most prominent PMS source for mining industries. This study aimed to quantify soil greenhouse gas (GHG) emissions (NO, CO, and CH) after application of landfilled PMS (LPMS; i.e., excavated from a landfill site at a paper mill) and LPMS combined with a seeding treatment of white clover ( L.) on nonacidic mine tailings site prior to reforestation. Soil NO, CO, and CH fluxes were measured after applications of 50 and 100 Mg dry LPMS ha during two consecutive snow-free seasons on two adjacent sites; LPMS was applied once in the first season. The LPMS application increased NO emissions (7.6 to 34.7 kg NO-N ha, comprising 1.04 to 2.43% of applied N) compared with the unamended control during the first season; these emissions were negligible during the second season. The LPMS application increased CO emissions (∼5800 to 11,400 kg CO-C ha, comprising 7 to 27% of applied C) compared with the unamended control on both sites and in both seasons. Fluxes of CH were negligible. White clover combined with LPMS treatments did not affect soil GHG emissions. These new GHG emission factors should be integrated into life-cycle analyses to evaluate the C footprint of potential symbioses between the mining and paper industries. Future research should focus on the effect of PMS applications on soil GHG emissions from a variety of mine tailings under various management practices and climatic conditions to plan responsible and sustainable land reclamation., (Copyright © by the American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Inc.)

Published

2017

17. Eliminating the routine use of examination table paper in outpatient oncology clinics.

Author

Mariano, Caroline, Wells, Hannah, Brown, Maura, Clement, Krista, Wooffindin, Rae, Hare, Kevin, Lefresne, Shilo, Kaur, Jagbir, Darud, Michael, Chui, Vincent, and Jane Sun

Subjects

CARBON dioxide mitigation, GREENHOUSE gases, CARBON emissions, MICROBIAL contamination, INFECTION control

Abstract

Background: Health care systems contribute significantly to greenhouse gas emissions. One source of these emissions is single-use products. Examination table paper does not confer protection against microbial contamination and thus can be omitted while following infection control standards. The objective is to eliminate the routine use of examination table paper in outpatient oncology clinics at BC Cancer. Methods: A quality improvement approach was used. Examination tables continued to be disinfected using wipes between patients, but table paper was not used. Plan-do-studyact cycles were performed at four regional cancer centres. Results: Pre-intervention, the cancer centres used 19 to 69 rolls of paper monthly. Postintervention, usage declined to 0 to 2 rolls monthly. This was associated with annual cost savings of $3974 and a reduction of 32 501 kg of carbon dioxide emissions. Conclusions: The use of examination table paper can be eliminated in outpatient clinics, resulting in both cost savings and a reduction in carbon dioxide emissions. [ABSTRACT FROM AUTHOR]

Published

2024

18. Application of Cellulose and Paper-Based Products in Building Acoustics.

Author

KLIMEK, Aleksandra, ŁĄTKA, Jerzy F., NIERADKA, Paweł, and DOBRUCKI, Andrzej

Subjects

*PHYSICAL laws, *CONSTRUCTION materials, *ARCHITECTURAL acoustics, *GREENHOUSE gases, *POROUS materials, *SOUNDPROOFING, *THERMAL insulation

Abstract

This article explores the use of cellulose and paper-based products in building acoustics. It examines various materials such as cellulose wool, paperboard, corrugated cardboard, and honeycomb panels, and evaluates their acoustic absorption and insulation properties. The results indicate that these paper-based products can be effective alternatives to traditional materials in terms of both absorption and insulation performance. The article emphasizes the potential of paper-based materials in reducing the environmental impact of the building industry. The text also discusses the resonance frequencies and properties of Helmholtz resonators and double walls with the insertion of Helmholtz resonators, providing equations and formulas to calculate their resonance frequencies and transmission loss. It describes the measurement methods used to assess the sound absorption and sound reduction properties of various materials, including cellulose and paper-based products, and presents the results obtained from these measurements. The document also discusses the dynamic properties of paperboard and the testing methods used to measure these properties, as well as the results of tests conducted on cellulose wool. It highlights the environmental benefits of using recycled materials like cellulose wool. The text provides data and analysis on the acoustic properties of various cellulose and paper-based materials used in building construction, including cellulose wool, paperboard, corrugated cardboard, and honeycomb panels. The measurements include parameters such as sound reduction index, sound absorption coefficient, and dynamic Young's modulus. The results demonstrate that these materials have different acoustic characteristics and can be utilized for sound insulation and absorption in [Extracted from the article]

Published

2024

19. Manufacturing and Characterization of Polypropylene-Paper Composites for Automotive Applications.

Author

Grubb, Cecile A., Kardos, Marton, Webb, Christopher D., Mainka, Hendrik, Keffer, David J., and Harper, David P.

Subjects

GREENHOUSE gases, FIBROUS composites, POLYPROPYLENE fibers, FLEXURAL strength, IMPACT strength, NATURAL fibers

Abstract

The automotive industry is under significant pressure to curb greenhouse gas emissions from their products as the negative impacts on the environment are increasingly apparent. As such, there is significant interest within the industry to develop low-carbon footprint materials. Natural fiber composites are therefore appealing due to both their decreased carbon footprint, as well as their relatively low cost, low density, and beneficial acoustic properties. This research specifically focuses on the use of paper fibers as composite reinforcements. Paper offers additional benefits over other natural fiber types in that it is globally available, does not compete with food resources, and has well-established quality control techniques. The goal of this work was to study the manufacturing of polypropylene (PP)-paper fiber composites using a hybrid wet-lay/compression molding processing. The processing parameters studied included molding temperature, molding duration, and molding pressure. Paper composites were characterized for properties including flexural strength, impact strength, and water uptake rate. An optimal set of processing parameters was identified in which cycle time and energy inputs (e.g. temperature and pressure) were minimized while retaining desired material properties. [ABSTRACT FROM AUTHOR]

Published

2024

20. Exploring the Addition of Herbal Residues on Fermentation Quality, Bacterial Communities, and Ruminal Greenhouse Gas Emissions of Paper Mulberry Silage

Author

Xiaomei Li, Fei Chen, Jingjing Xu, Linna Guo, Yi Xiong, Yanli Lin, Kuikui Ni, and Fuyu Yang

Subjects

herbal residues, bacterial community, fermentation quality, greenhouse gases, paper mulberry, PacBio SMRT, Microbiology, QR1-502

Abstract

This study aimed to investigate the influence of herbal residues on the fermentation quality and ruminal fermentation of paper mulberry silage. Clove, mint, and purple perilla residues were used as additives. Silage treatments were designed as control (no additives), 5% of clove, 5% of mint, and 5% of purple perilla. After 21 and 75 days of fermentation, the fermentation characteristics, bacterial communities, and ruminal greenhouse gas emissions in vitro incubation of paper mulberry were analyzed. The results showed that the used herbal residues could reduce the protein losses in paper mulberry silage based on the lower contents of ammoniacal nitrogen and nonprotein nitrogen. Compared with control, higher lactic acid and propionic acid contents were observed in the silages treated with mint and purple perilla but with a higher acetic acid content in clove treatment. Real-time sequencing technology (single-molecule real-time) revealed that Lactobacillus was the dominant bacteria in all silages at the genus level, whereas the bacterial abundance in the treated silages differed greatly from control at the species level. Lactobacillus hammesii abundance was the highest in control, whereas Lactobacillus acetotolerans was the first predominant in the treated silages. All the additives enhanced the digestibility of in vitro dry matter significantly. However, purple perilla decreased the production of total gas, methane, and carbon dioxide. The findings discussed earlier suggested that herbal residues have potential effects in improving fermentation quality, reducing protein loss, and modulating greenhouse gas emissions in the rumen of paper mulberry silage by shifting bacterial community composition.

Published

2022

21. 制浆造纸行业温室气体排放核算 标准与方法浅析.

Author

宋佳翼, 程正柏, 刘利琴, 曹海兵, 张小红, 刘一山, 刘洪斌, and 安兴业

Subjects

PAPER industry, CARBON emissions, ACCOUNTING methods, PAPER pulp, GREENHOUSE gases, ACCOUNTING standards

Abstract

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

Published

2023

22. Turn up the heat: Advances in large heat pump technology have the potential to drastically cut emissions from the drying process in the pulp and paper sector.

Author

Norman, Helen

Subjects

*HEAT pumps, *GREENHOUSE gas mitigation, *PAPER pulp, *GREENHOUSE gases

Published

2023

23. Air Pollution By Fuel and Energy Complex and Prospects for Wind Power Production Development in Belarus

Author

Kurachkina, Alexandra and Sayigh, Ali, Series Editor

Published

2022

24. Paper tiger or useful governance tool? Understanding long-term climate strategies as a climate governance instrument.

Author

Buylova, Alexandra, Nasiritousi, Naghmeh, Duit, Andreas, Reischl, Gunilla, and Lejon, Pelle

Subjects

PARIS Agreement (2016), ANTICIPATORY governance, POLITICAL science, GREENHOUSE gases, PUBLIC officers, CLIMATE change

Abstract

While climate change is often understood as a collective action and a market problem, we look at it as a problem of planning and coordination. Long-term planning is necessary to promote structural change, which will be required to keep the Paris Agreement's temperature goals. By encouraging states to develop a long-term climate strategy, the Paris Agreement invites countries to turn anticipatory governance into an international governance instrument. In this paper we explore how these strategies describe countries' climate plans and what the perceptions of government officials are about the potential for realization of these strategies. Using mixed methods, we explore both 1) planning dimensions (actions, actors and policies described in the strategies) by applying a topic modeling analysis to 50 documents; and 2) perceptions of the content and challenges to their realization among domestic policy professionals of four major emitters. Our results show that the strategies lack a detailed discussion on how decarbonization pathways could be materialized and who has the responsibility for implementation of long-term targets. Moreover, rather than being a steering instrument, the strategies are dominated by scenario planning and there is also a lack of attention to political issues. Taken together, we contend that strategies are limited in the way they present the future possibilities of low emissions development. To make them more effective in steering long-term decarbonization, greater attention needs to be placed on potential conflicts, barriers and stumbling blocks that may arise along the way. • Long-term climate planning has potential to shift the way we address climate change. • The language used in the strategies are dominated by technical terms and GHG emissions scenarios. • The strategies tend to reduce the political and social complexities of climate change. • As governance instruments, the strategies lack capacity to guide implementation and guidance on how to solve goal conflicts. • The strategies' main value is to provide a platform for alternative discussions. [ABSTRACT FROM AUTHOR]

Published

2024

25. ARTIFICIAL PAPER FROM PUTTARAKSA (CANNA INDICA LINN) AND PLUBPLUENG (CRINUM ASIATICUM).

Author

Rudisirisak, Kanokwan and Ngowattana, Nittaya

Subjects

CANNACEAE, GREENHOUSE gases, PAPER industry

Abstract

Puttaraksa (Canna indica) and Plubplueng (Crinum asiaticum) are plants used for decorative landscaping. Their branches and leaves are cut and discarded to enhance the beauty and attractiveness of the flowers. The discarded parts of the plant are burned, which releases greenhouse gases to the atmosphere. Therefore, this research focused on developing a method for producing paper from the leaves of Puttaraksa and Plubplueng. Pulp was produced from these leaves by using three bases; NaOH, KOH and ash solution in a concentration range of 1-5 % (w/v). The pulp was then boiled in a range of 5-25 minutes. The optimal conditions to produce Puttaraksa paper were 15 minutes boiling time in 4% (w/v) KOH. The chemical components of this paper were 93.74 % holocellulose, 1.55% lignin, and 3.66 % extractives. The physical properties of this paper were 66.43 % brightness, 400 mN tearing resistance, and 1.0 kg/cm² bursting strength. The optimal conditions to produce Plubplueng paper were 15 minutes boiling time in 4% (w/v) ash solution. The chemical components of this paper were 93.25% holocellulose, 5.41% lignin, and 4.24% extractives. The physical properties of this paper were 68.08% brightness, 340 mN tearing resistance, and 0.5 kg/cm² bursting strength. The chemical and physical properties of paper produced from Puttaraksa were similar to paper from mulberry. However, physical properties of Puttaraksa paper were better than those of Plubplueng paper, which make Puttaraksa the better alternative for paper production. [ABSTRACT FROM AUTHOR]

Published

2019

26. PepsiCo introduces paper outer bags for Snack A Jacks multipacks

Subjects

PepsiCo Inc., Greenhouse gases, Soft drink industry, Beverages, Snack foods, Packaging, Construction and materials industries

Abstract

Food and beverage company PepsiCo has launched new paper outer bags for all Snack A Jacks multipacks. The new outer paper bag is claimed to be widely recyclable in home [...]

Published

2024

27. Structuring an influential model for Indonesian pulp and paper circular supply chain practices.

Author

Wu, Kuo-Jui, Theja, Harvin, Vincent, Ignatius, Poerwanto, Cheryl, Rosario, Earvin, Ferreira, Roberto Daniel, and Tatiyathavornkul, Supitchar

Subjects

PAPER pulp, GREENHOUSE gases, SUPPLY chains, WASTE paper, FACTOR analysis

Abstract

Less than 65% of wastepaper can be recycled, and the remaining wastepaper may end up polluting groundwater and generating greenhouse gas emissions if disposed improperly by using traditional approaches. The concept of circular supply chain practices, which integrates circular thinking into supply chain practices that aim to reach zero waste by exploring novel business models and supply chain functions, has been proposed to address this issue. However, previous studies implementing this concept lacked appropriate methods for structuring an influential model to guide resource allocation, which caused difficulty in developing circular supply chain practices. Thus, a hybrid method is proposed to integrate factor analysis with fuzzy synthetic and decision-making and trial evaluation laboratory methods to enable visual analysis and boost understanding. The results reveal that awareness and engagement are the most influential factors in attempts to achieve zero waste, rather than the recycling, reuse and reduction practices emphasised by previous studies. [ABSTRACT FROM AUTHOR]

Published

2024

28. Circular food system approaches can support current European protein intake levels while reducing land use and greenhouse gas emissions.

Author

Simon WJ, Hijbeek R, Frehner A, Cardinaals R, Talsma EF, and van Zanten HHE

Subjects

Humans, Europe, Dietary Proteins analysis, Agriculture methods, Animals, Food Supply, Diet, Greenhouse Effect prevention & control, Greenhouse Gases analysis

Abstract

Protein transition and circular food system transition are two proposed strategies for supporting food system sustainability. Here we model animal-sourced protein to plant-sourced protein ratios within a European circular food system, finding that maintaining the current animal-plant protein share while redesigning the system with circular principles resulted in the largest relative reduction of 44% in land use and 70% in greenhouse gas (GHG) emissions compared with the current food system. Shifting from a 60:40 to a 40:60 ratio of animal-sourced proteins to plant-sourced proteins yielded a 60% reduction in land use and an 81% GHG emission reduction, while supporting nutritionally adequate diets. Differences between current and recommended total protein intake did not substantially impact minimal land use and GHG emissions. Micronutrient inadequacies occurred with less than 18 g animal protein per capita per day. Redesigning the food system varied depending on whether land use or GHG emissions were reduced-highlighting the need for a food system approach when designing policies to enhance human and planetary health., (© 2024. The Author(s).)

Published

2024

29. A review on the evaluation models and impact factors of greenhouse gas emissions from municipal solid waste management processes.

Author

Yang G, Liu M, Gao Y, Han S, Meng F, Ju T, and Jiang J

Subjects

Waste Management methods, Models, Theoretical, Air Pollutants analysis, Environmental Monitoring methods, Greenhouse Gases analysis, Solid Waste, Refuse Disposal methods

Abstract

The total amount of global municipal solid waste (MSW) will reach 3.5 billion tons by 2050, thereby bringing tremendous environmental pressure, especially global warming. Large amounts of greenhouse gases (GHGs) have been released during MSW management (MSWM). Accounting for GHG emissions is a prerequisite for providing recommendations on appropriate treatment options to mitigate emissions from MSWM systems. There are many methods involved in estimating emissions. This paper summarizes the computing models commonly used in each process of the integrated MSWM system and emphasizes the influence of parameters and other factors. Compared with other disposal methods, landfilling has the highest emissions, commonly estimated using first-order decay (FOD) methods. Emission reduction can be realized through waste to energy (WtE) and resource recovery measures. IPCC is commonly used for calculating direct emissions, while LCA-based models can calculate emissions including upstream and downstream processes, whose results depend on assumptions and system boundaries. The estimation results of models vary greatly and are difficult to compare with each other. Besides, large gaps exist between the default emission factors (EFs) provided by models and those F measured in specific facilities. These findings provide a systematic view for a bettering understanding of MSW emissions as well as the estimating methods and also reveal the key points that need be developed in the future., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

30. Review of Haptic and Computerized (Simulation) Games on Climate Change

Author

Gerber, Andreas, Ulrich, Markus, Wäger, Patrick, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Wardaszko, Marcin, editor, Meijer, Sebastiaan, editor, Lukosch, Heide, editor, Kanegae, Hidehiko, editor, Kriz, Willy Christian, editor, and Grzybowska-Brzezińska, Mariola, editor

Published

2021

31. Decomposition of high concentration benzene (produced in paper and painting industries) and its byproducts, methane and carbon dioxide, using plate gliding arc

Author

Rad, Rezvan Hosseini, Khani, Mohammad Reza, Mehdikia, Hamed, Shafiei, Mojtaba, and Shokri, Babak

Published

2019

32. Physicians’ responsibility toward environmental degradation and climate change: A position paper of the European Federation of Internal Medicine

Author

Luís Campos, J. Vasco Barreto, Stefano Bassetti, Monica Bivol, Amie Burbridge, Pietro Castellino, João Araújo Correia, Mine Durusu-Tanriöver, Carmen Fierbinteanu-Braticevici, Thomas Hanslik, Zbigniew Heleniak, Radovan Hojs, Leonid Lazebnic, Maria Mylona, Matthias Raspe, João Queirós e Melo, Filomena Pietrantonio, Reinold Gans, Runólfur Pálsson, Nicola Montano, Ricardo Gómez-Huelgas, Dror Dicker, Lifelong Learning, Education & Assessment Research Network (LEARN), and Groningen Kidney Center (GKC)

Subjects

Greenhouse Gases, Climate Change, Physicians, Ecological health footprint, Internal Medicine, Humans, Environment, EFIM position paper, Hospitals

Abstract

The current data on climate change and environmental degradation are dramatic. The consequences of these changes are already having a significant impact on people's health. Physicians - as advocates of the patients, but also as citizens - have an ethical obligation to be involved in efforts to stop these changes. The European Federation of Internal Medicine (EFIM) strongly encourages the Internal Medicine societies and internists across Europe to play an active role in matters related to climate change and environmental degradation. At a national level, this includes advocating the adoption of measures that reduce greenhouse gas (GHG) emissions and environmental degradation and contributing to policy decisions related to these issues. At a hospital level and in clinical practice, supporting actions by the health sector to reduce its ecological footprint is vital. At the level of EFIM and its associated internal societies, promoting educational activities and developing a toolkit to prepare internists to better care for citizens who suffer from the consequences of climate change. In addition to advocating and implementing effective actions to reduce the ecological footprint of the health industry, recommending the introduction of these themes in scientific programs of Internal Medicine meetings and congresses and the pre- and postgraduate medical training. At a personal level, internists must be active agents in advocating sustainable practices for the environment, increasing the awareness of the community about the health risks of climate change and environmental degradation, and being role models in the adoption of environmentally friendly behaviour.

Published

2022

33. Selected paper from 6th International Conference on Renewable Energy Sources (ICoRES 2019)

Author

Jewiarz, Marcin and Jewiarz, Marcin

Subjects

Research & information: general, Biochemical Methane Potential Correction Coefficient, Borehole Heat Exchanger (BHE), CFD, Chinese cabbage, Cup plant, FEFLOW, Giant miscanthus, Miscanthus, Scots pine, Virginia mallow, agriculture, algae, anti-gravity, artificial neural network, biogas, biomass, biomass conversion, briquettes production, bubble pump, calorific value, carbon dioxide, combustion, combustion simulation, compaction, corn, cylindrical LED light coat, decision support system, density, design, die, disc-mill, drying, durability, efficiency, exploitation of energy sources, finite element modeling, greenhouse gases, grinding, ground source heat pump, heating and ventilation systems, industrial-scale efficiency, laboratory-scale efficiency, loss prevention, management, mechanical durability, moisture content, multilayer perceptron, passive heat transport, pellets, perennial biomass, photobioreactor, photosynthetic microorganisms, pollutant emissions, poultry slaughterhouse waste, pressure compaction, reduction of pollutant emissions, refuse-derived fuel, refuse-derived fuel (RDF), renewable energy, rice, sawdust, single-family houses, slow release fertilizers, small-scale thermal energy storage, solar collector, solid density, specific density, spent coffee grounds, stove, thermal imbalance of the ground source, thermal measurements, thermosiphon, tracking lighting, willow

Abstract

Summary: Thank you for reaching for this book. It is a summary of the research presented at the 6th International Conference on Renewable Energy Sources (ICORES19), which took place in Krynica, Poland, in June 2019. This event is the most recognizable scientific meeting connected to RES in Poland. From the very beginning, this conference has been a unique occasion for gathering Polish and international researchers' perspectives on renewable energy sources and balancing them against governmental policy considerations. Accordingly, the conference has also offered panels to discuss best practices and solutions with local entrepreneurs and federal government bodies. The meeting attracts not only scientists but also industry representatives, as well as local and federal government personnel. We are open to new and fresh ideas concerning renewable energy, which is why so many scientists from Central and Eastern Europe visit Krynica to discuss the "Green Future" of this region. In 2019, the conference was organized by the University of Agriculture in Krakow, in cooperation with the AGH University of Science and Technology (Krakow), the State Agrarian and Engineering University in Podilya, the University of Žilina, the International Commission of Agricultural and Biosystems Engineering (CIGR) and the Polish Society of Agricultural Engineering. Honorary auspices were made by the Ministry of Science and Higher Education of the Republic of Poland, the rector of the University of Agriculture in Krakow, the rector of the AGH University of Science and Technology and the rector of the State Agrarian and Engineering University in Podilya.

34. Effect of biodegradable plastics on greenhouse gas emission and paddy rice growth under flooding conditions.

Author

Inubushi, Kazuyuki, Sahara, Iori, Kato, Taku, and Oshima, Hiroyuki

Subjects

GREENHOUSE gases, POLYBUTYLENE terephthalate, POLYLACTIC acid, RICE, FILTER paper, BIODEGRADABLE plastics

Abstract

Biodegradable plastics applied to soil stimulate the production of greenhouse gases and inhibit plant growth under aerobic conditions. This study aimed to examine the effects of biodegradable plastics on paddy rice growth and greenhouse gas emission under flooding conditions in pot experiments and also on greenhouse gas production under flooding conditions in an incubation experiment. Two series of pot experiments were conducted with rice (Oryza sativa). First series as immediate flooded and 2nd series as 2 weeks nonflooding before flooded, and both kept flooded until harvest. The following four kinds of materials were added to the sandy paddy soil, (1) nonwoven fabric sheets made of polylactic acid and polybutylene-succinate, (2) laminate sheets made of polybutylene adipate terephthalate and pulp, (3) cellulose filter paper, and (4) rice straw. Only soil was used as control. Methane (CH4) emission, measured by chamber method followed by gas chromatography, was significantly larger only in the cellulose treatment than the laminate treatment in the immediate flooded series, indicating that biodegradable plastics had no significant impact on CH4 emission from paddy rice soil. Rice growth and yield did not show significant difference among treatments in both series. Incubation experiment showed the largest CH4 production in cellulose-amended soil, followed by straw-amended and laminate amended soils, and least in fabric-amended soil, while CO2 did not show significant differences among treatments. We need further examination with different biodegradable plastics for a longer period that test used in this study. [ABSTRACT FROM AUTHOR]

Published

2024

35. A Cost-Benefit Assessment of Gasification-Based Biorefining in the Kraft Pulp and Paper Industry

Author

Frederick, W

Published

2007

36. Implications of the implementation of decisions 2/CMP. 7 to 4/CMP. 7 and 1/CMP. 8 on the previous decisions on methodological issues related to the Kyoto Protocol, including those relating to Articles 5, 7 and 8 of the Kyoto Protocol : technical paper

Author

United Nations Framework Convention On Climate Change (Organization), University Library, University of Illinois Urbana Champaign, and United Nations Framework Convention On Climate Change (Organization)

Subjects

climate change, Climatic changes, Environmental impact analysis, Environmental impact statements, Forests and forestry, Global warming, Greenhouse gas mitigation, Greenhouse gases, Statistics

Published

2014

37. Opportunities to improve energy efficiency and reduce greenhouse gas emissions in the U.S. pulp and paper industry

Author

Price, L

Published

2000

38. Life cycle assessment of plastic and paper-based ultra high frequency RFID tags.

Author

Aliakbarian, Bahar, Ghirlandi, Stefano, Rizzi, Antonio, Stefanini, Roberta, and Vignali, Giuseppe

Subjects

GREENHOUSE gases, SCIENTIFIC literature, PRODUCT life cycle assessment, MANUFACTURING processes, RAW materials

Abstract

The aim of the work is to assess the environmental impacts of Ultra High Frequency RFID tags. Through a Life Cycle Assessment approach, two case studies have been investigated, namely a standard plastic and a paper-based tags. Primary data on tags' components, manufacturing and transportation were collected, while secondary data for the raw materials processing and tags' end of life were retrieved. The Recipe Midpoint method was used to evaluate the impacts. Results show that, for both tags, the greatest contributions to global warming, terrestrial acidification, mineral and fossil resource scarcity are due to raw material extraction (more than 50%) and manufacturing phase (30–50%), which resulted impactful also on the ionizing radiation (70%). Interestingly, the paper tag allows to save up to 23% of the greenhouse gas emissions and decreases the impact on the above-mentioned categories, resulting the eco-friendly option. The conclusion of the work contributes to update the scientific literature, still poor in RFID environmental evaluations, and are useful for researchers interested in comparing the traditional handling systems' impacts to the RFID scenario. Furthermore, the outcomes will be used as input for subsequent research, aimed at developing a tool to measure the return on the environment of RFID deployments. [ABSTRACT FROM AUTHOR]

Published

2024

39. Greenhouse gas emissions of school lunches provided for children attending school nurseries: A cross-sectional study.

Author

Wall CJ and Pearce J

Subjects

Humans, Cross-Sectional Studies, England, Child, Preschool, Male, Female, Nutritive Value, Schools, Schools, Nursery, Portion Size, Meals, Lunch, Greenhouse Gases analysis, Food Services standards, Food Services statistics & numerical data

Abstract

Background: Schools and early years settings provide an opportunity to promote healthy and sustainable food, but standards and guidance in England focus predominantly on nutritional quality. The present study estimated greenhouse gas emissions (GHGE) of school lunches provided for children attending school nurseries, including comparison between meal options., Methods: Menus, recipes and portion weights for lunches provided for 3-4-year-old children attending nine school nurseries were collected daily for one week. GHGE for each food and recipe were calculated using Foodprint functionality of Nutritics software. GHGE were calculated for each menu option (main, vegetarian, jacket potato and sandwich) provided in each school, and for meals with and without meat/fish., Results: In total, 161 lunches including 273 foods were analysed. Median GHGE across all meals was 0.53 kgCO 2 e (i.e. kilograms of carbon dioxide equivalent) per portion, with significantly higher GHGE associated with main meals (0.71 kgCO 2 e per portion) compared to all other meal types (0.43-0.50 kgCO 2 e per portion; p < 0.001) which remained after adjustment for meal size and energy density. Red meat-based meals were highest in GHGE (median 0.98 kgCO 2 e per portion and 0.34 kgCO 2 e per 100 g) and meals containing any meat/fish were significantly higher in GHGE (median 0.58 kgCO 2 e per portion) than vegetarian meals (median 0.49 kgCO 2 e per portion) (p = 0.014). Meals with higher adherence to the nutrient framework underpinning the early years guidelines had significantly higher GHGE than meals with lower adherence (p < 0.001)., Conclusions: The results were comparable to previous estimates of school lunch GHGE and highlight variation by meal option. Consideration of GHGE alongside the nutritional quality of lunches by caterers could support provision of healthy and sustainable lunches., (© 2024 The Author(s). Journal of Human Nutrition and Dietetics published by John Wiley & Sons Ltd on behalf of British Dietetic Association.)

Published

2024

40. Assessing the carbon footprint of soybean transportation in Brazil: a network equilibrium model approach.

Author

da Rocha FV and Branco JEH

Subjects

Brazil, Air Pollution statistics & numerical data, Models, Theoretical, Carbon Dioxide analysis, Glycine max, Carbon Footprint, Transportation, Greenhouse Gases analysis, Environmental Monitoring methods, Air Pollutants analysis

Abstract

Brazil has historically invested few resources in its transport infrastructure, leaving gaps and reducing its efficiency. The country presents a high dependence on road transport, which results in increased operational costs and higher greenhouse gas (GHG) emissions. Consequently, the performance of cargo transportation in Brazil has been deteriorating, accompanied by a rise in the consumption of fossil fuels and noteworthy levels of GHG emissions. This article assesses the carbon intensity of soybean transport operations within Brazil. Utilizing a network equilibrium model, this study estimated the soybean transportation flows that minimize the total cost of transporting this product across the origins and destinations within the grain handling system. The modeling also calculated the GHG emissions in transportation. The results show that the transportation of soybeans produced 2.74 million tonnes of CO2 equivalent annually, with road transport accounting for 81.7% of these emissions. The state of Mato Grosso, responsible for 44.08 kg CO2 equivalent per tonne of soybeans transported, contributed almost 49% of the total emissions due to the extensive distances involved. In contrast, states like Paraná and Rio Grande do Sul, located closer to southern ports, exhibited the lowest emissions, with rates of 11.55 kg CO2 eq/t and 12.52 kg CO2 eq/t, respectively. The analysis highlights the significant potential for reducing GHG emissions by increasing the use of rail and barge transport, particularly in high-emission regions such as Mato Grosso., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

41. Cost of Carbon in the Total Cost of Healthcare Procedures: A Methodological Challenge.

Author

Pugliesi PS, Marrauld L, and Lejeune C

Subjects

Humans, Health Care Costs statistics & numerical data, Cost-Benefit Analysis, Greenhouse Gases

Abstract

Economic evaluations aim to compare the costs and the results of health strategies to guide the public decision-making process. Cost estimation is, thus, a cornerstone of this approach. At present, few national evaluation agencies recommend incorporating the cost of greenhouse gas (GHG) emissions from healthcare actions into the calculation of healthcare costs. Our main goal is to describe and discuss the methodology for integrating the cost of GHG emissions into the field of applied economic evaluations. To estimate this cost, three steps are required: (1) identifying and quantifying the physical flows linked to the production and management of the outputs of healthcare interventions, (2) estimating the quantity of GHG that can be attributed to each physical flow, and (3) valuing these GHG emissions in monetary terms. Integrating the cost of GHG emissions into the calculation of the costs of healthcare interventions is both useful and relevant from a perspective of collective intergenerational well-being. This approach has been made possible thanks to the existence of accounting and monetary valuation methods for emissions. Agencies specialized in health economic evaluations could take up this issue to resolve ongoing questions, thus providing researchers with a methodological framework and public decision-makers with some key insights., (© 2024. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2024

42. Global Life Cycle Paper Flows, Recycling Metrics, and Material Efficiency.

Author

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

Subjects

PRODUCT life cycle, WASTE recycling, PAPER, GREENHOUSE gases, EMISSIONS (Air pollution)

Abstract

Summary: Despite major improvements in recycling over the last decades, the pulp and paper sector is a significant contributor to global greenhouse gas emissions and other environmental pressures. Further reduction of virgin material requirements and environmental impacts requires a detailed understanding of the global material flows in paper production and consumption. This study constructs a Sankey diagram of global material flows in the paper life cycle, from primary inputs to end‐of‐life waste treatment, based on a review of publicly available data. It then analyzes potential improvements in material flows and discusses recycling and material efficiency metrics. The article argues that the use of the collection rate as a recycling metric does not directly stimulate avoidance of virgin inputs and associated impacts. An alternative metric compares paper for recycling (recovered paper) with total fibrous inputs and indicates that the current rate is at just over half of the technical potential. Material efficiency metrics are found to be more useful if they relate to the reuse potential of wastes. The material balance developed in this research provides a solid basis for further study of global sustainable production and consumption of paper. The conclusions on recycling and efficiency should be considered for improving environmental assessment and stimulating a shift toward resource efficiency and the circular economy. [ABSTRACT FROM AUTHOR]

Published

2018

43. Policies, projections, and the social cost of carbon: Results from the DICE-2023 model.

Author

Barrage, Lint and Nordhaus, William

Subjects

*EXTERNALITIES, *CARBON paper, *CARBON, *DISCOUNT prices, *GREENHOUSE gases, *ATMOSPHERIC models

Abstract

The present study examines the assumptions, modeling structure, and results of DICE-2023, the revised Dynamic Integrated Model of Climate and the Economy (DICE), updated to 2023. The revision contains major changes in the treatment of risk, the carbon and climate modules, the treatment of nonindustrial greenhouse gases, discount rates, as well as updates on all the major components. Noteworthy changes are a significant reduction in the target for the optimal (cost-beneficial) temperature path, a lower cost of reaching the 2 °C target, an analysis of the impact of the Paris Accord, and a major increase in the estimated social cost of carbon. [ABSTRACT FROM AUTHOR]

Published

2024

44. Nippon Paper and Mitsui Chemicals partner to develop biocomposite

Subjects

Nippon Paper Industries Company Ltd. -- Planning, Cellulose, Pesticides industry -- Planning, Greenhouse gases, Herbicides -- Planning, Product development, Pulp industry -- Planning, Chemical industry -- Planning, Company business planning, Time to market, Business, Chemicals, plastics and rubber industries

Abstract

Nippon Paper Industries Co Ltd and Mitsui Chemicals Inc are set to partner in the development of a new biocomposite with a high content of cellulose powder, a woody biomass material. The two companies intend to develop products and bring them to market at the earliest possible opportunity, with plans to expand into a wide range of fields - including daily necessities, containers, building materials, household appliances and auto parts. Aimed at bringing to market a new biocomposite that offers a high level of industrial stability in terms of both quality and supply, the tie-up will see the partners tap into their stable materials supply chains and leverage the advanced materials manufacturing and development technologies they have cultivated over many years. With cellulose powder - a woody biomass material - as its principal ingredient, this new composite will have the same mouldability as plastic. Further, the composite's use of woody biomass as its main constituent will help to cut greenhouse gas emissions by minimizing the use of fossil-fuel-derived virgin material when compared to ordinary petrochemical resins. This will in turn assist in achieving a zero-carbon society. Nippon Paper has cultivated cellulose powder manufacturing technology and used it to develop a biocomposite with outstanding mouldability. Nippon Paper now intends to provide Mitsui Chemicals with a stable supply of high-quality cellulose powder by taking advantage of its powder manufacturing technology, which is in turn underpinned by a diverse array of pulp manufacturing technologies. Under the slogan 'Shaping the future with trees,' Nippon Paper aims to continue contributing to better living and cultural progress. Mitsui Chemicals aims to combine cellulose powder from Nippon Paper with the compounding technologies cultivated by the Mitsui Chemicals Group to develop a new strong, readily workable biocomposite with a high cellulose powder content. Plans are to tap into the existing sales network for Mitsui Chemicals' own compound resins and use this to offer samples to customers. Mitsui Chemicals will seek to provide solutions to various social challenges generated by accelerating environmental changes, and aims through this to meet its target of achieving carbon neutrality by 2050. Original source: Mitsui Chemicals, website: http://www.mitsuichem.com/, Copyright Mitsui Chemicals Inc 2022., joint venture; research and development; waste emissions and pollution; biopolymers; carbon dioxide; cellulose; greenhouse gases; Mitsui Chemicals; Nippon Paper [...]

Published

2022

45. Water and climate change impacts and adaptation strategies : technical paper

Author

United Nations Framework Convention On Climate Change (Organization), University Library, University of Illinois Urbana Champaign, and United Nations Framework Convention On Climate Change (Organization)

Subjects

Aquatic ecology, Climatic changes, Fresh Water, Global warming, Greenhouse gases

Published

2011

46. Ending extreme poverty has a negligible impact on global greenhouse gas emissions.

Author

Wollburg P, Hallegatte S, and Mahler DG

Subjects

Income, Carbon Dioxide analysis, Economic Development statistics & numerical data, Economic Development trends, Global Warming prevention & control, Global Warming statistics & numerical data, Greenhouse Gases analysis, Poverty prevention & control, Poverty statistics & numerical data, Environmental Policy legislation & jurisprudence, Environmental Policy trends

Abstract

Growing consumption is both necessary to end extreme poverty 1 and one of the main drivers of greenhouse gas emissions 2 , creating a potential tension between alleviating poverty and limiting global warming. Most poverty reduction has historically occurred because of economic growth 3-6 , which means that reducing poverty entails increasing not only the consumption of people living in poverty but also the consumption of people with a higher income. Here we estimate the emissions associated with the economic growth needed to alleviate extreme poverty using the international poverty line of US $2.15 per day (ref.  7 ). Even with historical energy- and carbon-intensity patterns, the global emissions increase associated with alleviating extreme poverty is modest, at 2.37 gigatonnes of carbon dioxide equivalent per year or 4.9% of 2019 global emissions. Lower inequality, higher energy efficiency and decarbonization of energy can ease this tension further: assuming the best historical performance, the emissions for poverty alleviation in 2050 will be reduced by 90%. More ambitious poverty lines require more economic growth in more countries, which leads to notably higher emissions. The challenge to align the development and climate objectives of the world is not in reconciling extreme poverty alleviation with climate objectives but in providing sustainable middle-income standards of living., (© 2023. The World Bank.)

Published

2023

47. Examining the impact of environmental technologies, environmental taxes, energy consumption, and natural resources on GHG emissions in G-7 economies.

Author

Manjang M, Hao X, and Husnain MA

Subjects

Cross-Sectional Studies, Carbon Dioxide analysis, Economic Development, Renewable Energy, Taxes, Fossil Fuels, Natural Resources, Carbon analysis, Greenhouse Gases

Abstract

The focus areas for COP-27 include fast-tracking our worldwide evolution to decarbonization in the energy industry and clean energy as the stockholder's effort to restrict global warming to 1.5 °C (2.7 °F) above the levels of pre-industrial. After this COP-27 summit, most of the developing countries will provoke challenges in accomplishing their targets of a carbon neutrality and sustainable economy with the minimum possible greenhouse gas (GHG) emissions. In this regard, the G-7 countries, despite prosperous cautiously, have not prospered in certifying ecological welfare in tandem. Nevertheless, these economies cannot endure their green growth attainments without instantaneously safeguarding their ecological features. To do this, green technologies and environmental taxes are vital apparatuses that can assist in accomplishing carbon neutrality objectives. Consequently, the current study investigates the influence of green technologies, environmental taxes, natural resources, renewable, and fossil fuel energy on GHG emissions in G-7 nations from 1994 to 2020. After confirming the cross-sectional dependency issue, this study uses a battery of second-generation panel methods to estimate the empirical findings. The estimated evidences discovered that green technologies, environmental taxes, and renewable protect environmental quality in the long run. However, natural resources and fossil fuel energy increase the GHG emissions levels. Furthermore, this study suggests that G-7 economies should be more focus on green technologies, imposing environmental taxes eco-innovation related developments, and promote renewable energy projects through the sustainable alteration of their consumption and production processes., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

48. The impact of China's emission trading scheme policy on enterprise green technological innovation quality: evidence from eight high-carbon emission industries.

Author

Qin W and Xie Y

Subjects

Inventions, Industry, China, Carbon analysis, Greenhouse Gases

Abstract

Emission trading scheme (ETS) is one of the most important ways to mitigate carbon emissions. As the largest carbon emitter in the world, China implemented ETS policy in 2013. Whether ETS policy can boost enterprise green technological innovation (GTI) quality in China remains to be discussed after reviewing the previous studies. All 318 A-share listed enterprises of China's eight high-carbon emission industries from 2008 to 2021 are chosen to investigate the influence of the ETS policy on enterprise GTI quality by the difference-in-difference (DID) method. Furthermore, heterogeneous effects of ETS policy on the quality of enterprise GTI are analyzed from three aspects: enterprise life cycle, corporate environmental management, and industry classification. The findings indicate that China's ETS policy has a positive influence on the quality of GTI in eight high-carbon emission industries. Further heterogeneity analysis demonstrates (1) China's ETS policy has varying effects on the eight high-carbon emission industries; (2) China's ETS policy can improve GTI quality of enterprises in the maturity stage of their life cycle, but not for those in their growth stage. (3) Comparing the effect of China's ETS policy, GTI quality of enterprises with higher environmental management score is stimulated, while GTI quality of those with lower score is not., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

49. Life cycle assessment of greenhouse gas emission from the dairy production system - review.

Author

Singaravadivelan A, Sachin PB, Harikumar S, Vijayakumar P, Vindhya MV, Farhana FMB, Rameesa KK, and Mathew J

Subjects

Animals, Humans, Agriculture, Farms, Livestock, Life Cycle Stages, Carbon Dioxide, Greenhouse Gases

Abstract

Climate change is altering ecological systems and poses a serious threat to human life. Climate change also seriously influences on livestock production by interfering with growth, reproduction, and production. Livestock, on the other hand, is blamed for being a significant contributor to climate change, emitting 8.1 gigatonnes of CO2-eq per year and accounting for two-thirds of global ammonia emissions. Methane (CH4), nitrous oxide (N2O), and carbon dioxide (CO2) are three major greenhouse gases (GHG) that are primarily produced by enteric fermentation, feed production, diet management, and total product output. Ruminants account for three-quarters of total CO2-equivalent (CO2-eq) emissions from the livestock sector. The global dairy sector alone emits 4.0% of global anthropogenic GHG emissions. Hence, dairy farming needs to engage in environmental impact assessment. Public concern for a sustainable and environmentally friendly farming system is growing, resulting in the significant importance of food-based life cycle assessment (LCA). Over the last decade, LCA has been used in agriculture to assess total GHG emissions associated with products such as milk and manure. It includes the production of farm inputs, farm emissions, milk processing, transportation, consumer use, and waste. LCA studies on milk production would assist us in identifying the specific production processes/areas that contribute to excessive greenhouse gas emissions when producing milk and recommending appropriate mitigation strategies to be implemented for a clean, green, and resilient environment., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

50. Green investment, institutional quality, and environmental performance: evidence from G-7 countries using panel NARDL approach.

Author

Zhao J, Rahman SU, Afshan S, Ali MSE, Ashfaq H, and Idrees S

Subjects

Carbon Dioxide analysis, Investments, Economic Development, Internationality, Greenhouse Gases

Abstract

The foremost purpose of the study is to establish a point that an economy of G-7 countries has an abundance of resources to tackle the environmental changes that occur in the world, but these countries are still behind the line because in this modern era, environmental performance changes their shape, dimension, and nature very frequently and create a huge impact on globalization of world economy. To fill this gap, we use green investment, institutional quality, and economic growth on environmental performance for this, we use four proxies for green investment and three proxies for greenhouse gas, and we also use six proxies of institutional quality to do this using period of 1997 to 2021. Moreover, we have used the panel nonlinear autoregressive distributed lag method to evaluate the long-run and short-run asymmetric effects of green investment, institutional quality, and economic growth on greenhouse gas emissions. The findings of the study affirm that the positive change of green investment has a positive and significant relationship with environmental performance, while the negative change of green investment has a significant and positive influence with environmental performance in the long run. Furthermore, the outcomes demonstrate that the positive shock of institutional quality has a positive and significant relationship with environmental performance, while the negative shock of intuitional quality has a significant and positive association with environmental performance in the long run, whereas positive change in economic growth has a positive and significant with the environmental performance, while the negative change of economic growth has a positive effect with environmental performance in the long run. This study finds future precautions that institutional quality has to perform exceptionally and shows results very rapidly, while green investment with economic growth has also made a deadly combination to control greenhouse gas emission, so the role of G-7 countries is pretty clear and straight. Furthermore, it is suggested that governments and policymakers take a proactive stance to promote resource acquisition and investment across all industries. To reduce gas emissions, public interest might also be complementary to private ones. So, economic policymakers, specifically in G-7 countries, should consider strategies that support sustainable economic growth., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023