Showing total 13,751 results

1. Analysis on influencing factors of carbon emissions from China’s pulp and paper industry and carbon peaking prediction

Author

Wang, Hongping

Published

2023

2. 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

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

Author

Shang, Di, Diao, Gang, Liu, Chang, and Yu, Lucun

Subjects

PAPER recycling, CARBON emissions, WASTE recycling, PAPER industry, WASTE paper

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 CO2 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 CO2 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. [ABSTRACT FROM AUTHOR]

Published

2021

4. CO 2 Emissions Accounting and Carbon Peak Prediction of China's Papermaking Industry.

Author

Yang, Jiameng, Hua, Yuchen, Ye, Jiarong, Xu, Shiying, and Liu, Zhiyong

Subjects

PAPERMAKING, CARBON emissions, PAPER industry, WASTE paper, WASTE recycling, PRODUCT life cycle, CARBON offsetting

Abstract

China has been the world's largest producer and consumer of paper products. In the context of the "carbon peaking and carbon neutrality goals", China's papermaking industry which is traditionally a high energy-consuming and high-emissions industry, desperately needs a nationally appropriate low-carbon development path. From the consumption-side perspective, this paper calculates the CO2 emissions of China's papermaking industry from 2000 to 2019 by using carbon emission nuclear algorithm, grain-straw ratio, first-order attenuation method, and STIRFDT decomposition model, etc., to further explore the core stages and basic patterns affecting the industry's carbon peaking. The results show that the total CO2 emissions of China's papermaking industry showed an upward trend from 2000–2013, stable from 2013–2017, and a steady but slight decline from 2017–2019. Meanwhile, the total CO2 emissions of the full life cycle of paper products in China have decreased to a certain extent in the raw material acquisition, pulp, and paper making and shipping stages, with only the waste paper disposal stage showing a particular upward trend. We find that from 2000 to 2019, China's CO2 emissions in the pulping and papermaking stage of paper products accounted for 68% of the total emissions in the whole life cycle, of which 59% was caused by coal consumption. Moreover, the scenario prediction shows that improving the energy structure and increasing the waste paper recovery rate can reduce the CO2 emissions of the industry, and it is more significant when both work. Based on this and the four core stages of CO2 emissions of the papermaking industry we proposed ways to promote CO2 emissions peaking of China's paper products. [ABSTRACT FROM AUTHOR]

Published

2022

5. “双碳”目标下，我国造纸工业减碳 路径探究.

Author

刘春红, 贾学桦, 肖小健, and 程言君

Subjects

SUSTAINABLE development, CARBON paper, CARBON emissions, CARBON offsetting, RAW materials, ROAD maintenance, PAPER industry

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

6. 从生态环境角度浅析造纸行业高质量 发展方向——以广西为例.

Author

曹欣, 潘正现, 黄显南, 黄舒城, 潘俐如, 魏艳红, 李阳, and 何雅孜

Subjects

WATER security, CARBON emissions, PAPER industry, GREEN business, ENERGY consumption

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

7. 基于投入产出法的中国造纸工业 碳排放核算.

Author

杨本晓, 姜 涛, and 刘夏青

Subjects

CARBON emissions, INPUT-output analysis, PAPER products, ANIMAL culture, PAPER industry, MANUFACTURING industries, CARBON taxes

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

8. Using Pulp and Paper Waste to Scrub Carbon from Emissions.

Subjects

*WASTE paper, *PAPER pulp, *CARBON emissions, *CARBON sequestration, *LIGHT sources, *CARBON nanofibers

Abstract

The text provides a summary of various articles related to air quality, climate change, and environmental initiatives. It mentions a report from the World Meteorological Organization (WMO) highlighting record-breaking climate change indicators in 2023, the use of pulp and paper waste to reduce carbon emissions, the development of national indoor quality standards for public buildings, the establishment of a hydrogen hub in the Pilbara region of Australia, and the U.S. Environmental Protection Agency's new tailpipe rules to reduce pollution from cars and light trucks. These articles offer insights into the current state of the environment and efforts to address climate change. [Extracted from the article]

Published

2024

9. 典型林浆纸一体化企业“零碳”工厂 创建路径研究.

Author

侯雅楠, 张亮, 贾学桦, 柴晨星, and 江澜

Subjects

CARBON emissions, PAPER industry, ENERGY consumption, CARBON paper, CARBON, FACTORIES

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

10. 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

11. Energy Optimization in a Paper Mill Enabled by a Three-Site Energy Cooperation.

Author

Hedlund, Alexander, Björkqvist, Olof, Nilsson, Anders, and Engstrand, Per

Subjects

*PAPER mills, *CARBON emissions, *COMBUSTION products, *WOOD combustion, *ELECTRIC power consumption, *INCINERATION, *ENERGY consumption, *BOILERS

Abstract

Although there are opportunities to reduce electrical energy demand in unit processes of mechanical pulp-based paper and paperboard production, this may not be financially beneficial. This is generally because energy optimization opportunities connected to reduced refiner electricity demand in mechanical pulping systems also results in less steam available for the drying of the paper. As modern high consistency refiner systems produce approximately one ton of steam for each MWh of electricity when producing one ton of pulp, a reduction in electric energy demand leads to increased fuel demand in steam boilers to compensate for the steam shortage. In this study, we investigated what the financial and environmental situation would look like if we were to expand the system border from a paper mill to a larger system consisting of a mechanical pulp-based paper or paperboard mill, a district heating system with an incineration boiler and a chemical pulp mill. Mechanical pulp production has a wood to product yield of >90%, a high electric energy demand to separate woodchips to pulp and is a net producer of heat and steam while chemical pulp-based production has a wood to product yield of 50%, a low electric energy demand and is a net heat and electricity producer due to the combustion of dissolved wood polymers. The aim of this research is to create useful and robust models of how to use excess heat from certain industry sites to cover the steam shortage in other industry sites by means of utilizing and optimizing the district heating systems connecting these sites. For this purpose, we used a simulation tool which dynamically allows us to evaluate different scenarios. Our results shows that there is great potential to reduce both carbon dioxide emissions and production costs for industry sites and society by means of these tools. [ABSTRACT FROM AUTHOR]

Published

2022

12. Reducing ophthalmic surgical waste through electronic instructions for use: a multisociety position paper.

Author

Schehlein, Emily M., Hovanesian, John, Shukla, Aakriti Garg, Rostov, Audrey Talley, Findl, Oliver, and Chang, David F.

Subjects

*ELECTRONIC waste, *SURGICAL equipment, *TWO-dimensional bar codes, *INTRAOCULAR lenses, *CARBON emissions

Abstract

Every ophthalmic surgical supply, including intraocular lenses (IOLs), IOL cartridges, and ophthalmic viscosurgical device syringes, is packaged with instructions for use (IFU). These pamphlets are printed in multiple languages and, in the case of an IOL, significantly increase the size and weight of the packaging. To eliminate this significant and unnecessary source of waste, we recommend that manufacturers move to Quick Response codes that link to online electronic IFU (e-IFU) as a sensible alternative. In addition to reducing carbon emissions and manufacturing costs, e-IFU can be updated more easily and accessed by surgeons in the clinic, where IOL models and powers are selected. Varying and inconsistent IFU requirements between different countries are a barrier to wider adoption of e-IFU by the ophthalmic surgical industry. Regulatory agencies in every country should allow and encourage e-IFU. This position paper has been endorsed by the 3 major societies that sponsor EyeSustain, a consortium of global societies dedicated to advancing sustainability in ophthalmology. [ABSTRACT FROM AUTHOR]

Published

2024

13. High thermal conductivity insulating AlN/poly(m-phenylenedicarbonyl-m-phenylenediamine) paper realized by enhanced compatibility: a selection of appropriate coupling agent.

Author

Yang, Rui, Ruan, Hao-ou, Fan, Si-di, Sun, Kai-xuan, Wang, Sheng-hui, Yu, Xiang, and Lü, Fang-cheng

Subjects

SILANE, THERMAL conductivity, SILANE coupling agents, ALUMINUM nitride, INSULATING materials, CARBON emissions

Abstract

Encouraged by the goal of achieving net-zero carbon emission by 2050, the exploration of insulating material becomes one of the core projects to the electrical equipment innovations. The rise of composites enables the insulating material to be endowed with more functions. By this concern, adopting the coupling agents is one of the effective methods to improve the compatibility of composites, which highly strengthens the desired properties. The functional groups of coupling agents, nevertheless, could not always show a positive impact to access enhanced properties. In this work, four types of silane coupling agents including amino-propyl, glycidyletheroxy-propyl (GP), vinyl, and methacryloxy-propyl functional groups are employed to modify the aluminum nitride (AlN) fillers, and the modification effects on the insulating and thermal conductivity of the AlN/poly(m-phenylenedicarbonyl-m-phenylenediamine) (PMIA) composite paper are systematically investigated and compared. The results show that a proper coupling agent is beneficial to the uniform dispersion of the inorganic filler in the organic matrix and highly contributes to their interface quality, where the heat transfer path is established that boosts the heat dissipation. By tailoring the trap depth and density toward deeper and higher, the carrier transport is highly confined which enhances the breakdown strength to a large extent. Therefore, high breakdown strength and thermal conductivity of 182.9 kV mm−1 and 0.302 W (m·K)−1, respectively, are achieved in the GP modified AlN/PMIA paper, which are 16.7% and 167.4% higher than that of pure PMIA paper. [ABSTRACT FROM AUTHOR]

Published

2023

14. Carbon and Economic Analysis on Cogeneration Natural Gas Boiler and Solar Photovoltaic in Pulp and Paper Industry.

Author

Wan Choy Chee, Wai Shin Ho, Hashim, Haslenda, Zubir, Muhammad Afiq, Lek Keng Lim, Ab Muis, Zarina, Keng Yinn Wong, Taib, Mohd Rozainee, and Mustaffa, Azizul Azri

Subjects

NATURAL gas, PAPER industry, CARBON emissions, ELECTRICITY, SOLAR energy

Abstract

The increasing demand for world paper consumption stimulates the growth of paper and pulp industries and lead to high carbon emission. Electricity and thermal energy are critically demanded by the paper and pulp industries. The premises utilizing grid electricity are carbon intensive as the grid energy mainly generates electricity from burning coal. Alternative energy resources that are less carbon-intensive such as natural gas and solar energy, can be used to generate electricity to fulfil the energy demand of the pulp and paper industry and mitigate carbon emissions. This study implemented cogeneration natural gas boilers and solar energy to substitute the dependency on grid electricity from Tenaga National Berhad as they are less carbon intensive than coal fuel. Carbon and economic analysis were conducted on the case studies that replaced grid electricity supply from TNB by implementing cogeneration natural gas boilers and solar energy. The results show that the total savings/kWh of energy produced from cogeneration natural gas boiler range from 0.155 MYR/kWh to 0.164 MYR/kWh. The total savings per kWh of energy produced from solar energy is higher, which was 0.207 MYR/kWh of solar energy produced. Solar has better operation cost savings per unit of electricity generated, but a limited installation area restricts the implementation. In the future, the increasing efficiency of solar technology will make the option viable while achieving more cost savings and carbon emission reduction. [ABSTRACT FROM AUTHOR]

Published

2022

15. Decomposition dynamics of cooking-oil-soaked waste paper in media with low inorganic nitrogen content.

Author

Ciesielczuk, Tomasz and Rosik-Dulewska, Czesława

Subjects

WASTE paper, EDIBLE fats & oils, COMPOSTING, SOLID waste, CARBON emissions, NITROGEN, PIZZA

Abstract

Copyright of Archives of Environmental Protection is the property of Polish Academy of Sciences 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

16. 中国造纸业碳效率时空分布特征及 驱动因素分析.

Author

崔子婵 and 王兰会

Subjects

MARKOV processes, CARBON emissions, GREENHOUSE gas mitigation, PAPER industry, ENVIRONMENTAL regulations, CARBON paper, INDUSTRIAL clusters

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

17. Paper making in a low carbon economy

Author

John G Rogers

Subjects

paper making, energy efficiency, carbon emissions, recycling, biomass use, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830

Abstract

Paper and pulp manufacturing industry produces versatile products from renewable feedstock that are easily recycled. It is the fourth largest industrial sector in terms of energy use. Much of the energy used comes from biomass derived fuels or high efficiency combined heat and power plants so the industry is not considered as carbon intensive. But at production paper making emits five times the CO2/tonne of steel; this is gradually removed from the atmosphere by the growth of replacement trees which can take between 7 and 90 years. This study reviewed existing literature to establish estimates for future energy requirements, and way that these could be met with minimum carbon emissions in a world where there are electricity grids with low carbon intensities, high recycling rates and growing demand for sustainable biomass. It was found that energy consumption could be reduced by 20% using technologies that have been demonstrated at an industrial scale. Most virgin pulp is made using the kraft chemical processing method. It was found that it should be possible to eliminate all fossil fuel use from this process, by combustion of by-product while exporting a small amount of electricity. Recycled paper is becoming the largest source of pulp. In this case the waste streams cannot provide sufficient energy to power the process, but process heat can be produced by burning some of the collected waste paper in steam plants or by using electric heat pumps. The energy needed to produce high quality office paper is nearly twice that required for non-deinked packaging paper. This couples with the lower pulp yields obtained with high quality pulp means that the environmentally preferred option for energy supply to the recycling process is dependent on the grade of pulp being produced.

Published

2018

18. 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

19. Embodied Carbon and Influencing Factors of China's Paper Industry's Export Trade to the United States.

Author

Limin Geng, Wenxing Shen, and Zenan Xu

Subjects

*TECHNOLOGICAL progress, *CARBON nanofibers, *PAPER industry, *CARBON emissions, *CARBON offsetting, *GREENHOUSE gas mitigation, *ENERGY conservation

Abstract

The paper industry is a high-carbon emission and energy-intensive industry. From the perspective of low-carbon trade and carbon neutrality, its energy conservation and emission reduction are worthy of attention. This study used the input-output model to calculate the embodied carbon emissions of China’s paper industry’s export trade to the United States from 2006 to 2020 and used the logarithmic mean division index (LMDI) method to analyze influencing factors of the change of embodied carbon emissions. The study found that the embodied carbon emissions of China’s paper industry’s export trade to the United States generally shows a stable downward trend after reaching the peak with the increase of export trade scale; scale effect is the main factor that causes the embodied carbon emissions, while technological progress, policy support, and environmental regulations are important driving forces to promote carbon emission reduction. The research results of this paper not only can test and guide China’s paper industry trade policies and industrial policies, but they can also provide decision-making reference for China and the United States to promote the carbon emission reduction of the paper industry. [ABSTRACT FROM AUTHOR]

Published

2022

20. "Sustainable" biomass: A paper tiger when it comes to reducing carbon emissions.

Author

Booth, Mary S.

Subjects

*CARBON emissions, *FORESTS & forestry, *FOSSIL fuels, *FUELWOOD, *BIOMASS

Abstract

As the tragedy in Ukraine deepens, it's clear that the world should end its dependency on Russian oil. It will be ironic, however, if nations disentangling themselves from this compromised energy source instead turn to another energy source with destructive impacts: harvesting and burning forest wood for fuel, which increases carbon emissions compared to fossil fuels, and degrades forests. [ABSTRACT FROM AUTHOR]

Published

2022

21. Does Examination Table Paper Use Mitigate the Risk of Disease Transmission in a Family Medicine Clinic?

Author

Chiarlitti, Nathan, Graves, Zachary, Lavoie, Curtis, and Reid, Ryan E. R.

Subjects

*INFECTIOUS disease transmission, *FAMILY medicine, *CARBON emissions, *SURFACE area, *MEDICAL care, *KNEE pain

Abstract

Reducing examination table paper (ETP) use may help curb carbon emissions from health care. Six participants applied Glo Germ (DMA International) to their hands before a common physical examination (abdominal, cardiorespiratory, hip and knee) both with and without ETP. After each exam, UV light was shined on the exam table and photographs were taken. The number of hand touches on ETP-covered areas and uncovered areas were tallied and compared using t tests. Despite covering more surface area, participants touched areas without ETP significantly more than ETP-covered areas (P <.05). Despite its continued use, patients do not have much hand contact with ETP during common clinical examinations. [ABSTRACT FROM AUTHOR]

Published

2024

22. Utilization of paper mill lime mud to partially replace fillers in cementless ultra-high performance concrete (UHPC).

Author

Oinam, Yanchen, Moges, Kebede Alemayehu, Vashistha, Prabhat, and Pyo, Sukhoon

Subjects

*CARBON emissions, *PAPER mills, *FILLER materials, *PRODUCT life cycle assessment, *MUD

Abstract

This study investigates the impact of incorporating lime mud (LM) as a filler material to develop sustainable, cementless ultra-high performance concrete (UHPC) by replacing silica powder (SP) and silica sand (SS) at varying percentages. Flowability analysis reveals that LM, with its distinctive particle size, influences flow characteristics differently at different replacement levels. Compressive strength was improved by 5.4% with 30% SP replacement, showcasing the role of LM in nucleation, as well as its particle size advantage. The heat of hydration analysis indicates that LM likely influences the early curing stages, enhancing reactivity and nucleation. TGA analysis also confirms that LM plays a role in hydration reaction, influencing weight loss and hydration peaks. The mercury intrusion porosimeter results show the impact of LM on pore distribution, with 30% for SP and 50% for SS replacements, favoring denser matrices. Life cycle assessment (LCA) demonstrates reduced CO 2 emissions and favorable environmental performance, highlighting the sustainability potential of LM replacements. Overall, the incorporation of LM in UHPC shows promise in terms of enhancing its mechanical properties and environmental sustainability. [Display omitted] • Lime mud (LM) in UHPC boosts material strength, leading to denser, more effective concrete. • LM enhances hydration, flowability, and refines pore structure. • High LM ratios in UHPC increase sustainability and reduce CO 2 emissions. • LM's use in UHPC significantly advances its mechanical properties and eco-friendliness. [ABSTRACT FROM AUTHOR]

Published

2024

23. Explore the Impact Mechanism of Block Chain Technology on China's Carbon Market.

Author

Dong, Hanghang, Yang, Jun, Li, Xiaoming, and Xu, Lan

Subjects

CARBON offsetting, BLOCKCHAINS, CARBON emissions, CARBON paper, GREENHOUSE gas mitigation

Abstract

China's carbon market is an important way to achieve carbon peak by 2030 and carbon neutrality by 2060. Blockchain technology can solve the problems of low trading efficiency, poor liquidity and regional heterogeneity in China's current carbon market. this paper explores the scenario of applying blockchain technology to China's carbon market. Firstly, this paper considers the allocation of carbon quota in the carbon market based on blockchain technology under policy regulation. The study found that the development of carbon trading pilots was uneven, and some pilot carbon trading volumes were low, presenting a situation of "no market price". Secondly, it describes the enhancement effect of blockchain technology on the carbon market from the perspective of technology and multiple factors. Considering only the technical factors, the enhancement process is an "inverted L" shape, while considering the superposition factors, the enhancement effect is approximately an "S" shape. Finally, based on the social learning model of major technological changes, the paper describes the process of dynamic utilization of blockchain technology by carbon trading enterprises and simulates the evolution law. The government should introduce relevant policies to guide the implementation of blockchain technology in the carbon market to strengthen the vitality of the carbon market and meet the expectation of carbon emission reduction. This paper provides theoretical support for the integration of blockchain technology into China's carbon market. [ABSTRACT FROM AUTHOR]

Published

2024

24. 造纸行业碳排放研究现状及发展 趋势可视化分析.

Author

何旭丹, 李永智, 贾学桦, 张 亮, 王焕松, and 程言君

Subjects

CARBON emissions, CARBON paper, PAPER industry, SUSTAINABLE development, QUANTITATIVE research

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

2022

25. Estimación de la huella de carbono en la industria papelera.

Author

Fernández, Janet Canciano, Reinosa Valladares, Mirtha, and Fernández Martínez, Xiomara

Subjects

LIQUEFIED petroleum gas, PETROLEUM as fuel, GAS as fuel, CARBON emissions, AGRICULTURAL egg production, ECOLOGICAL impact

Abstract

Copyright of Avances is the property of Instituto de Informacion Cientifica y Tecnologica 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

2021

26. Has the development of the digital economy raised or lowered the level of carbon emissions in cities?-Evidence from China.

Author

Mingxuan Liu

Subjects

HIGH technology industries, CARBON emissions, CITIES & towns, ENERGY consumption, ELECTRONIC paper, CARBON nanofibers, ENVIRONMENTAL management, INDUSTRIAL energy consumption

Abstract

This paper studies the impact of digital economy development on carbon emissions, which is a hot topic in the field of environmental economics. This topic is within the scope of the Frontiers in Environmental Science and is particularly in line with the theme of Environmental Economics and Management section in the journal. Firstly, this paper constructs the Digital Economy Development Index and its variable indicators to measure the development of the digital economy. Secondly, this paper uses urban panel data to reveal the impact of digital economy development on carbon emissions, and further adopts IV method to deal with endogeneity issues. Thirdly, this paper performs the heterogeneity analyses depending on the characteristics of the city. The results can provide a basis for formulating differentiated policies. Fourthly, this paper further explores the mechanism by which the digital economy affects carbon peaking. The results show that the digital economy may influence carbon peaking through upgrading of the industrial structure, technical innovation, and energy consumption. [ABSTRACT FROM AUTHOR]

Published

2024

27. Differential Analysis of Carbon Emissions between Growing and Shrinking Cities: A Case of Three Northeastern Provinces in China.

Author

Song, Yuanzhen, Tian, Jian, He, Weijie, Namaiti, Aihemaiti, and Zeng, Jian

Subjects

CARBON emissions, CITIES & towns, CARBON analysis, ECONOMETRIC models, CARBON paper, URBAN decline

Abstract

Carbon emission issues are becoming increasingly severe, and the carbon emissions in shrinking cities, primarily characterized by population loss, are often overlooked and insufficiently studied. This paper focuses on the carbon emissions from county-level administrative units in China's three northeastern provinces from 2001 to 2017. The study scientifically identified shrinking cities and measured the differences in carbon emission characteristics between growing and shrinking cities using the Theil index. Ultimately, the paper constructs a panel spatial econometric model to analyze the factors influencing them and explore their spatial effects. (1) The total carbon emissions in the Three Northeastern Provinces exhibited an inverted U-shaped trend, increasing from 734.21 million tons in 2001 to 1731.73 million tons in 2017, with the Mann–Kendall trend test showing a significant increase; spatially, this manifests as a significant positive spatial autocorrelation. (2) The region has 138 shrinking cities, accounting for over 50%; regarding carbon emission characteristics, the Theil index has consistently remained above 0.18, indicating significant differences between the carbon emissions of growing and shrinking cities. (3) The panel spatial econometric model results show that the influencing factors of carbon emissions in shrinking cities have unique directions, intensities, and spatial effects. In shrinking cities, aside from localized GDP effects and per-capita GDP acting as a suppressant, the population size has a pronounced inhibitory effect on local and surrounding carbon emissions. The analysis reveals significant differences in the carbon emission patterns and mechanisms between growing and shrinking cities; based on these results, the paper proposes differentiated carbon control strategies. [ABSTRACT FROM AUTHOR]

Published

2024

28. Voith, Visy and Appita Hold Joint Energy Summit on Decarbonization in Paper Production.

Subjects

*CARBON emissions, *PAPER industry

Published

2023

29. Analysis of the Measurement of Transportation Carbon Emissions and the Emission Reduction Path in the Yangtze River Economic Belt under the Background of "Dual Carbon" Goals.

Author

Sun, Yanming and Zhang, Guangzhen

Subjects

CARBON emissions, GREENHOUSE gas mitigation, CARBON paper, ENERGY consumption, VALUE (Economics)

Abstract

Carbon emissions from the Yangtze River Economic Belt are an important element of China's carbon emission endeavor, and a study of its emission reduction pathway can provide a reference for the country's overall management of carbon emission reduction. From the perspective of energy consumption, this paper uses the carbon emission factor method to estimate the carbon emissions of the transportation industry in the Yangtze River Economic Belt during 2006–2020, based on the extended STIRPAT model, considering the influence of seven factors, i.e., population size, urbanization rate, GDP per capita, transportation added value, energy structure, energy intensity, and transportation intensity, on carbon emissions. Based on these factors, a scenario analysis, combined with a forecasting model, is used to predict the peak carbon performance of the transportation industry under different development scenarios. The results show that the overall carbon emissions of transportation in the YEB from 2006 to 2020 show a fluctuating upward trend, and the downstream carbon emissions are significantly higher than those in other regions. The main factors influencing carbon emissions from transportation in different upstream, midstream, and downstream regions vary, with both population and economic factors contributing to carbon emissions, while technical factors affect them differently. There are significant differences in the peak carbon performance of transportation under different development scenarios, and the government should take effective measures to work towards achieving the goals of the low-carbon or enhanced low-carbon scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

30. Characterization of carbon dioxide emissions from late stage windrow composting.

Author

Pennell, Travis, Comeau, Louis-Pierre, MacKinley, Kyle, Hann, Sheldon, Heung, Brandon, and Kiely, Bob

Subjects

CARBON emissions, WASTE paper, FACTOR analysis, ORGANIC wastes, SOLID waste

Abstract

As organic waste is converted to usable amendments via composting, there are large CO2 emissions associated with the decomposition of organic matter via microorganisms. While the active composting phase produces the largest emissions over a short duration, compost can often be stored during and after the maturation phase for much longer periods of time, increasing cumulative emissions. As such, the objectives of this study were to examine the spatial and temporal variability associated with in situ emissions sampling while identifying the environmental and chemical controls on emissions in windrow composting facilities during and after the maturation phase. A total of 665 flux measurements were taken from four windrows representing different ages and compositions between June and November 2020. Factorial analysis of covariance (ANOVA) was used to determine the variability between sampling locations, while multiple linear regression was used to identify those parameters which had the most influence on CO2 flux. Emissions showed significant variability over time that were attributed to ambient temperatures. During the summer, each windrow reached peak emissions between 5.0 and 32.3 g CO2 m-2 hr-1. As temperatures cooled, the windrows saw a 62%-86% decline in emissions, generally falling below 2 g CO2 m-2 hr-1. Significant differences occurred between the top-most sampling location and all others on the windrow, emitting between 33%-100% more CO2. The environmental controls of surface temperature, moisture content, and internal temperature showed the highest influence on emissions (R2 = 0.62). Chemical properties including organic nitrogen, carbon, pH, magnesium, and nitrate also showed significant influence (R2 = 0.43). This research has shown that environmental factors including temperature and moisture show the strongest influence over emission rates in mature compost. A significant negative effect of organic nitrogen on CO2 flux was found, indicating that increased presence of organic nitrogen would aid in the retention of carbon after the maturation phase, acting to lower total emissions. [ABSTRACT FROM AUTHOR]

Published

2024

31. Overestimated carbon emission of the pulp and paper industry in China.

Author

Man, Yi, Yan, Yukun, Wang, Xu, Ren, Jingzheng, Xiong, Qingang, and He, Zhenglei

Subjects

*PAPER industry, *CARBON emissions, *GREENHOUSE gases, *PRODUCT life cycle assessment, *ENERGY consumption, *CARBON nanofibers

Abstract

China is the top emitter of greenhouse gases in the world. Pulp and paper industry is one of eight the strictly regulated industries about carbon emission in China. However, estimates of carbon emissions from China's pulp and paper industry have been suffered from remarkable uncertainty. It is summarized that is aroused by the inaccuracy of factors evaluating energy consumption, and the huge gap between the calculation standards for assessing energy consumption in the production process and the actual level recorded in the factories. This paper re-evaluated the carbon emission of China's pulp and paper industry from the perspective of life cycle assessment, and applied more accurate emission factors, taking account of the actual energy consumption of the production process in factories, to estimate the actual carbon emissions in maximum. It is found that the national standards about the energy consumption quota of China's pulp and paper industry is no longer applicable, and the actual energy consumption regulated in the production process is far better than the advanced level given by the national standards. The greenhouse gas emission have been seriously overestimated approximately 12.00%–56.17% by international organizations. • Life Cycle Analysis of the China's pulp and paper Industry is conducted thoroughly. • The pulp flow of China's pulp and paper Industry is analyzed. • Energy regulated in factory is far better than the national standards' required. • Carbon emissions of China's pulp and paper Industry are overestimated. [ABSTRACT FROM AUTHOR]

Published

2023

32. “双碳”目标下工程行业助力制浆造 纸行业绿色建造与可持续发展.

Author

张志, 张恒来, and 章慧群

Subjects

CARBON offsetting, CARBON emissions, WATER reuse, GREENHOUSE gas mitigation, BLEACHING (Chemistry), PAPER industry

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

2022

33. Pulp and Paper Manufacturers are Innovating their Way Out of CO2 Emissions.

Subjects

*PAPER industry, *CARBON emissions, *HEAT pumps, *FOSSIL fuels, *EUTECTICS

Published

2023

34. Decarbonization of a tissue paper plant: Advanced numerical simulations to assess the replacement of fossil fuels with a biomass-derived syngas.

Author

Giuntini, Lorenzo, Lamioni, Rachele, Linari, Luca, Saccomano, Pietro, Mainardi, Davide, Tognotti, Leonardo, and Galletti, Chiara

Subjects

*FOSSIL fuels, *INTEGRATED gasification combined cycle power plants, *SYNTHESIS gas, *OXIDATION of carbon monoxide, *BIOMASS gasification, *CARBON emissions, *PLANT cells & tissues

Abstract

Numerical simulations based on Computational Fluid Dynamic techniques are performed to analyze the possibility of feeding a biomass-derived syngas into the combustion chamber upstream of the hoods for tissue-paper drying, to replace fossil fuels and thus decarbonize the plant. It was observed that, in the context of Favre-Averaged Navier–Stokes equations simulation, syngas requires detailed kinetics and finite-rate approaches, as the fast-chemistry ones, largely employed in the industrial practice for conventional fuels, lead to unreliable results. The actual chamber, originally designed to be fed with liquid petroleum gas, does not operate properly when fueled with syngas, with incomplete oxidation of carbon monoxide. Numerical simulations have proven how very few modifications of the chamber can be devised to permit feeding efficiently the syngas, obtaining low pollutant emissions and meeting the desired requirements in terms of flow and thermal uniformity for the drying process. The solution proposed in the present study, with the effective use of a biomass-derived syngas to feed the drying section of a tissue paper plant, will allow saving approximately 8500 ton/y of CO 2 emissions in comparison with today's fossil fuel carbon footprint. [Display omitted] • Use of syngas from biomass gasification to decarbonize a tissue paper plant. • CFD simulations to comprehend the behavior of chamber and hood fed with bio-syngas. • Need for detailed kinetics to model with CFD the bio-syngas combustion. • Modification of the combustion system needed to limit CO with the bio-syngas. • Reduction of 8500 ton/y of CO 2 emissions in comparison to today's LPG. [ABSTRACT FROM AUTHOR]

Published

2022

35. Paper Review of External Integrated Systems as Photovoltaic Shading Devices.

Author

Corti, Paolo, Bonomo, Pierluigi, and Frontini, Francesco

Subjects

*PHOTOVOLTAIC power systems, *LITERATURE reviews, *CARBON emissions, *SOLAR radiation, *THERMAL comfort

Abstract

The building sector contributes to 40% of the total final energy consumption and 36% of CO2 emissions in Europe, and these are set to increase in the coming years. International directives are pushing towards a decarbonisation roadmap to improve the quality of cities and the health of citizens. Buildings have a potentially central role in terms of energy transition as a means to produce and save energy. Photovoltaic shading devices (PVSDs) protect buildings from direct solar radiation and overheating while producing renewable electricity onsite and increasing the users' thermal comfort. Even though the potential of the PVSD is considerable, the sector is still unexplored, and few studies on the topic are available in the literature. This systematic review aims to present an exhaustive overview of the current literature on state-of-the-art PVSDs by analysing the scientific framework in terms of the status of the research. It presents a performance-based approach focusing on innovative products, PVSD design strategies, and energetic performance in distinct climate conditions and configurations. In particular, 75 articles and about 250 keywords were identified, selected, and analysed. The literature review serves as a basis for further R&D activities led by both the industrial and the academic sectors. [ABSTRACT FROM AUTHOR]

Published

2023

36. Compressive Strength of Geopolymer Mortar Reinforced with Rice Husk Fibers.

Author

Mohammed, Sally Hashim and Fawzi, Nada Mahdi

Subjects

RICE hulls, COMPRESSIVE strength, WASTE paper, MORTAR, CARBON emissions, FLY ash

Abstract

Copyright of Journal of Engineering (17264073) is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) 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

37. Toward a Green Energy System: How Does Carbon Capture,  Utilization,  and Storage Technology Innovation Promote Green Total Factor Productivity?

Author

Dong, Kangyin, Wang, Jianda, Zhao, Congyu, Taghizadeh-Hesary, Farhad, and Phoumin, Han

Subjects

INDUSTRIAL productivity, RENEWABLE energy transition (Government policy), CLEAN energy, ENVIRONMENTAL regulations, CARBON emissions, CARBON paper

Abstract

Using a panel data set from 2007 to 2019, we empirically evaluate the impact of carbon capture, utilization, and storage (CCUS) technology innovation on green total factor productivity (GTFP). The findings show that (1) CCUS technology innovation significantly improves GTFP. (2) CCUS technology innovation significantly contributes to GTFP by promoting industrial structure upgrading and carbon emissions efficiency. (3) Environmental regulation plays a positive moderating role in the nexus between CCUS technology innovation and GTFP. The findings of this paper provide guidance for China to achieve green energy transition and build a green energy system. [ABSTRACT FROM AUTHOR]

Published

2024

38. 中国造纸和纸制品行业碳排放特征 及减排路径分析.

Author

何旭丹, 王焕松, 贾学桦, 党 盼, 张 亮, 付裕武, and 程言君

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

39. Exploring the impact of carbon emission disclosure on firm financial performance: moderating role of firm size

Author

Bedi, Ankita and Singh, Balwinder

Published

2024

40. Carbon management and the global value chain: have carbon emissions been reduced?

Author

Pan, Lipeng, Li, Yongqing, Fu, Xiao, and Lee, Chyi Lin

Subjects

GLOBAL value chains, CARBON emissions, DEVELOPING countries, SOCIAL responsibility of business, MONETARY incentives, CARBON paper

Abstract

Purpose: This paper aims to explore the pathways of carbon transfer in 200 US corporations along with the motivations that drive such transfers. The particular focus is on each firm's embeddedness in the global value chain (GVC) and the influence of environmental law, operational costs and corporate social responsibility (CSR). The insights gleaned bridge a gap in the literature surrounding GVCs and corporate carbon transfer. Design/methodology/approach: The methodology comprised a two-step research approach. First, the authors used a two-sided fixed regression to analyse the relationship between each firm's embeddedness in the GVC and its carbon transfers. The sample consisted of 217 US firms. Next, the authors examined the influence of environmental law, operational costs and CSR on carbon transfers using a quantitative comparison analysis. These results were interpreted through the theoretical frameworks of the GVC and legitimacy theory. Findings: The empirical results indicate positive relationships between carbon transfers and GVC embeddedness in terms of both a firm's position and its degree. From the quantitative comparison, the authors find that the pressure of environmental law and operational costs motivate these transfers through the value chain. Furthermore, CSR does not help to mitigate transfers. Practical implications: The findings offer insights for policymakers, industry and academia to understand that, with globalised production and greater value creation, transferring carbon to different parts of the GVC – largely to developing countries – will only become more common. The underdeveloped nature of environmental technology in these countries means that global emissions will likely rise instead of fall, further exacerbating global warming. Transferring carbon is not conducive to a sustainable global economy. Hence, firms should be closely regulated and given economic incentives to reduce emissions, not simply shunt them off to the developing world. Social implications: Carbon transfer is a major obstacle to effectively reducing carbon emissions. The responsibilities of carbon transfer via GVCs are difficult to define despite firms being a major consideration in such transfers. Understanding how and why corporations engage in carbon transfers can facilitate global cooperation among communities. This knowledge could pave the way to establishing a global carbon transfer monitoring network aimed at preventing corporate carbon transfer and, instead, encouraging emissions reduction. Originality/value: This study extends the literature by investigating carbon transfers and the GVC at the firm level. The authors used two-step research approach including panel data and quantitative comparison analysis to address this important question. The authors are the primary study to explore the motivation and pathways by which firms transfer carbon through the GVC. [ABSTRACT FROM AUTHOR]

Published

2024

41. Klimawandel und psychische Gesundheit. Positionspapier einer Task-Force der DGPPN.

Author

Heinz, Andreas, Meyer-Lindenberg, Andreas, DGPPN-Task-Force „Klima und Psyche", Adli, Mazda, Bornheimer, Barbara, Brandt, Lasse, Hurlemann, René, Karl, Sebastian, Knoblauch, Hans, Marsh, Nina, Nikendei, Christoph, Pistol, Sandy, Riedel-Heller, Steffi, Schomburg, Anna-Karina, Shukla, Kirsten, Weinmann, Stefan, Welzel, Franziska, Gerlinger, Gabriel, Holzhausen, Julie, and John, Katja

Subjects

*GLOBAL warming, *CARBON emissions, *SUSTAINABILITY, *PSYCHIATRY

Abstract

Climate change and the resulting higher frequency of extreme weather events have a direct negative impact on mental health. Natural disasters are particularly associated with an increase in the prevalence of depression, anxiety and posttraumatic stress disorder. Indirect consequences of climate change, such as food shortages, economic crises, violent conflicts and forced migration, additionally represent severe psychological risk and stress factors. Climate anxiety and solastalgia, the distress induced by environmental change, are new psychological syndromes in the face of the existential threat posed by the climate crisis. Accordingly, a sustainable psychiatry must prepare for increasing and changing demands. The principles of psychiatric treatment need to focus more on prevention to reduce the overall burden on the healthcare system. Waste of resources and CO2 emissions in psychiatric treatment processes as well as infrastructure must be perceived and prevented. Psychiatric education, training and continuing education concepts should be expanded to include the topic of climate change in order to comprehensively inform and sensitize professionals, those affected and the public and to encourage climate-friendly and health-promoting behavior. More in-depth research is needed on the impact of climate change on mental health. The DGPPN becomes a sponsor and aims for climate neutrality by 2030 by committing to climate-friendly and energy-saving measures in the area of finance, in relation to the DGPPN congress as well as the DGPPN office. [ABSTRACT FROM AUTHOR]

Published

2023

42. 中国造纸工业碳排放特征与 “双碳”目标路径探究.

Author

程言君, 张 亮, 王焕松, 贾学桦, and 董 妍

Subjects

INDUSTRIAL energy consumption, CARBON offsetting, POWER resources, CARBON emissions, ALTERNATIVE fuels, CARBON paper

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

2022

43. Decarbonizing the pulp and paper industry: A critical and systematic review of sociotechnical developments and policy options.

Author

Furszyfer Del Rio, Dylan D., Sovacool, Benjamin K., Griffiths, Steve, Bazilian, Morgan, Kim, Jinsoo, Foley, Aoife M., and Rooney, David

Subjects

*PAPER industry, *CARBON dioxide mitigation, *CARBON emissions, *PAPER pulp, *PAPER products

Abstract

Paper has shaped society for centuries and is considered one of humanity's most important inventions. However, pulp and paper products can be damaging to social and natural systems along their lifecycle of material extraction, processing, transportation, and waste handling. The pulp and paper industry is among the top five most energy-intensive industries globally and is the fourth largest industrial energy user. This industry accounts for approximately 6% of global industrial energy use and 2% of direct industrial CO 2 emissions. The pulp and paper industry is also the largest user of original or virgin wood, with deleterious impacts on both human health and local flora and fauna, including aquatic ecosystems. This critical and systematic review seeks to identify alternatives for mitigating the climate impacts of pulp and paper processes and products, thus making the pulp and paper industry more environmentally sustainable. This study reviews 466 studies to answer the following questions: what are the main determinants of energy and carbon emissions emerging from the pulp and paper industry? What are the benefits of this industry adopting low-carbon manufacturing processes, and what barriers will need to be tackled to enable such adoption? Using a sociotechnical lens, we answer these questions, identify barriers for the pulp and paper industry's decarbonization, and present promising avenues for future research. •This review identifies carbon-intensive processes in the pulp and paper industry. •Presents decarbonizing practices, potential transformations and innovations. •Presents promising avenues for future research. •No agreed consensus on the most promising technologies to achieve net-zero in the pulp and paper industry. •Pulp and paper products are associated with other sociotechnical systems that create compelling interdependencies among industries. [ABSTRACT FROM AUTHOR]

Published

2022

44. 基于不同蒸煮技术的硫酸盐木浆 制浆过程碳排放研究.

Author

王洋, 贾艳龙, 李博伦, 王梦艳, 刘江, and 尹勇军

Subjects

CARBON emissions, MANUFACTURING processes, WOOD-pulp, ENERGY consumption, ALKALIES, CLEANING, PAPER industry

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

45. The welfare effects of degrowth as a decarbonization strategy

Author

Andrés, Javier, Boscá, José E., Doménech, Rafael, and Ferri, Javier

Published

2024

46. Carbon emissions, female CEOs and earnings management

Author

Houqe, Muhammad Nurul, Opare, Solomon, and Zahir-Ul-Hassan, Muhammad Kaleem

Published

2024

47. Does green investment mitigate environmental degradation in Vietnam: the time-frequency effect of nonrenewable energy investment and globalization?

Author

Thi Xuan, Hoang and Thai Hung, Ngo

Published

2024

48. The Environmental and Economic Impact of Trade between South Korea and the United States.

Author

Tae-Jin Kim and Tromp, Nikolas

Subjects

CARBON emissions, ECONOMIC impact, CARBON analysis, DEVELOPED countries, CARBON paper, LIFE cycle costing

Abstract

This paper analyses carbon emissions and value-added embodied in trade between two large developed countries, South Korea and the United States, during 2000-2014. Using multi-regional input-output (MRIO) tables, our analysis reveals that carbon emissions and value-added embodied in exports grew by 19% and 101% for South Korea but shrank by 43% and 7% for the United States. As a result, South Korea experienced a 40% increase in net carbon exports and 243% increase in net valueadded exports. At the industry level, the primary drivers of changes in carbon exports were electricity and basic materials. The majority of industries in witnessed improvements in carbon intensities suggesting improved environmental efficiency. While both countries achieved a decoupling of carbon emissions from value-added exports, substantial year-to-year and sectoral variations were observed. Finally, structural decomposition analysis indicates that domestic supply-side factors played a role in decreasing emissions whereas foreign demand-side factors contributed to emissions increases. In line with the main findings, various implications for policy and future research are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

49. Energy and carbon coupled water footprint analysis for Kraft wood pulp paper production.

Author

Ma, Xiaotian, Shen, Xiaoxu, Qi, Congcong, Ye, Liping, Yang, Donglu, and Hong, Jinglan

Subjects

*WOOD-pulp, *ECOLOGICAL impact, *PAPER industry, *GLOBAL warming, *EUTROPHICATION

Abstract

Abstract Although paper production demonstrates high energy and water sensitivity in their life cycles, only a few systematic analyses have focused on these issues. Therefore, an energy and carbon coupled water footprint analysis of five types of Kraft wood pulp-based paper (i.e., specialty-, art-, household-, light coated-, and tissue paper) is conducted in this study to help improve the environmental performance of the paper industry. All investigations are conducted with an impact-oriented approach based on ISO standards. Results show that elemental-chlorine-free bleaching is more environmentally friendly than chlorination-alkaline extraction-hypochlorite bleaching, specifically for global warming, aquatic eutrophication, and human health (i.e., carcinogens and non-carcinogens). Gray water footprint along whole life cycles of each product is approximately twice of blue water footprint. Direct processes contribute approximately 50% to water scarcity, while their impact on aquatic eutrophication ranges from 0.002% to 50.72%. For other midpoints, indirect processes dominate the influences. Meanwhile, COD, BOD 5 , CO 2 , TP, Cr (Ⅵ), Ti, Hg, and As are key contributors. Finally, reusing sludge by direct burning in the recovery furnace, reclaiming organic compounds in black liquor before alkali recycling, and integrating black liquor gasification technology are expected to provide substantial environmental benefits. Amelioration of wastewater treatment, optimization of the national energy structure, and improvement of the efficiency of chemicals and freshwater are recommended. Highlights • Energy and carbon coupled water footprint analysis of Kraft pulp paper is applied. • The environmental benefit of black liquor recovery is dominated by reused alkali. • Direct processes contribute a lot to water scarcity and aquatic eutrophication. • COD, BOD, TP, and heavy metals are key substances. • Optimizing waste reuse and availability efficiency of chemicals is recommended. [ABSTRACT FROM AUTHOR]

Published

2018

50. Canada Invests CAD3.6 Million in Filtration Tech for International Paper's Alberta Pulp Mill: The revolutionary technology will help reduce carbon emissions in kraft pulping.

Subjects

*PULP mills, *CARBON emissions, *SULFATE pulping process

Published

2023