Showing total 77,531 results

1. Pulp and paper industry responds to the need for energy transition: Towards green and energy efficient low carbon operation

Author

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

Published

2021

2. Sustainable Paper Production Makes Schoellershammer PM6 Benchmark for Energy Efficiency.

Author

Albrecht, Falk, Keitel, Naomi, Schaefer, Andreas, Schlieckau, Torben, and Schnellinger, Philip

Subjects

*SUSTAINABILITY, *PAPER industry, *ENERGY consumption, *BENCHMARKING (Management), *COMPUTER software

Published

2023

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

Author

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

Subjects

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

Abstract

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

Published

2023

4. A BIBLIOMETRIC ANALYSIS OF DEA CONTRIBUTIONS TO ENERGY EFFICIENCY IN THE PULP AND PAPER INDUSTRY.

Author

Gomes da Rocha, Vítor, Fernandes da Silva Rossato, Fabrícia Gladys, Leite de Moraes, Ariane Elias, and da Silva Miranda, Mara Rúbia

Subjects

ENERGY consumption, BIBLIOMETRICS, PAPER industry, DATA envelopment analysis, ENERGY industries, ENERGY research

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal 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

5. Decarbonization Prospects for the European Pulp and Paper Industry: Different Development Pathways and Needed Actions.

Author

Lipiäinen, Satu, Apajalahti, Eeva-Lotta, and Vakkilainen, Esa

Subjects

*PAPER industry, *CARBON dioxide mitigation, *FUEL switching, *ENERGY consumption, *RENEWABLE energy sources, *RURAL electrification, *INDUSTRIAL energy consumption

Abstract

The pulp and paper industry (PPI) has several opportunities to contribute to meeting prevailing climate targets. It can cut its own CO2 emissions, which currently account for 2% of global industrial fossil CO2 emissions, and it has an opportunity to produce renewable energy, fuels, and materials for other sectors. The purpose of this study is to improve understanding of the decarbonization prospects of the PPI. The study provides insights on the magnitude of needed annual renewal rates for several possible net-zero target years of industrial fossil CO2 emissions in the PPI and discusses decarbonization opportunities, namely, energy and material efficiency improvement, fuel switching, electrification, renewable energy production, carbon capture, and new products. The effects of climate policies on the decarbonization opportunities are critically evaluated to provide an overview of the current and future business environment of the European PPI. The focus is on Europe, but other regions are analyzed briefly to widen the view. The analysis shows that there are no major technical barriers to the fossil-free operation of the PPI, but the sector renovates slowly, and many new opportunities are not implemented on a large scale due to immature technology, poor economic feasibility, or unclear political environment. [ABSTRACT FROM AUTHOR]

Published

2023

6. Enhancing Subsequent Kraft Fiber Dewatering Properties by using Fiber Polyamide-epichlorohydrin (PAE) Treatment to Prepare a Dry Pulp Product.

Author

Korpela, Antti, Tanaka, Atsushi, and Asikainen, Jaakko

Subjects

SULFATE pulping process, CONSUMPTION (Economics), PAPER pulp, ENERGY industries, ENERGY consumption

Abstract

The energy needed for the dewatering and drying of wet paper web represents around half of the energy consumption of papermaking processes. The present work examined whether the dewatering and drying of paper could be enhanced during a previous pulp drying process by pretreating the fibers with polyamide-epichlorohydrin (PAE). According to the hypothesis, the cured PAE restrains swelling and water absorption of water-wetted fibers by forming a fiber-bound, self-crosslinked polymernetwork on the fiber surfaces. The hypothesis was tested by adding PAE to never-dried kraft pulp slurry followed by pulp thickening, drying, and final curing of the PAE-resin. After this, the PAE-treated fibers were dispersed in water, and their water retention values (WRV) and Shopper-Riegler values (°SR) were measured. The PAE pretreatments notably decreased the fibers' WRV and °SR, indicating improved water removal of paper web in the paper machine forming and drying section. Compared to chemical crosslinking pretreatments, which also can be used to decrease fibers WRV and °SR-value, a notable advantage of PAE-pretreatment is milder required curing conditions of the PAE, which makes implementation of the method easier in practice. Due to decreased fiber-to-fiber bonding capability, the PAE-treated specialty fibers could take advantage especially as a bulking aid of paperboard, tissue, and absorbent materials. [ABSTRACT FROM AUTHOR]

Published

2024

7. European Pulp and Paper Industry Market Outlook.

Author

Summanen, Marko

Subjects

*PAPER industry, *BUSINESS forecasting, *SUSTAINABILITY, *CARBON dioxide mitigation, *ENERGY consumption, *RENEWABLE energy sources

Published

2024

8. Redefining Energy Efficiency in Paper Production.

Author

Bilgin, Emre

Subjects

*PAPER industry, *ENERGY consumption, *ECOLOGICAL impact, *PACKAGING paper

Published

2024

9. 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

10. ENERGY EFFICIENCY OPPORTUNITIES IN THE U.S. PULP AND PAPER INDUSTRY

Author

Worrell, Ernst

Published

2009

11. NiFe 2 O 4 Material on Carbon Paper as an Electrocatalyst for Alkaline Water Electrolysis Module.

Author

Wang, Ying-Chyi, Yu, Shuo-En, Su, Yu-Lun, Cheng, I-Chun, Chuang, Yi-Cheng, Chen, Yong-Song, and Chen, Jian-Zhang

Subjects

CARBON-based materials, CARBON paper, WATER electrolysis, ENERGY consumption, ELECTROLYTIC cells, ELECTROCATALYSTS

Abstract

NiFe2O4 material is grown on carbon paper (CP) with the hydrothermal method for use as electrocatalysts in an alkaline electrolyzer. NiFe2O4 material is used as the anode and cathode catalysts (named NiFe(+)/NiFe(−) hereafter). The results are compared with those obtained using CP/NiFe as the anode and CP/Ru as the cathode (named NiFe)(+)/Ru(−) hereafter). During cell operation with NiFe(+)/Ru(−), the current density reaches 500 mA/cm2 at a cell voltage of 1.79 V, with a specific energy consumption of 4.9 kWh/m3 and an energy efficiency of 66.2%. In comparison, for NiFe(+)/NiFe(−), the current density reaches 500 mA/cm2 at a cell voltage of 2.23 V, with a specific energy consumption of 5.7 kWh/m3 and an energy efficiency of 56.6%. The Faradaic efficiency is 96–99%. With the current density fixed at 400 mA/cm2, after performing a test for 150 h, the cell voltage with NiFe(+)/Ru(−) increases by 0.167 V, whereas that with NiFe(+)/NiFe(−) decreases by only 0.010 V. Good, long-term stability is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

12. Possibilities of Reducing the Heat Energy Consumption in a Tissue Paper Machine—Case Study.

Author

Reczulski, Mariusz, Szewczyk, Włodzimierz, and Kuczkowski, Michał

Subjects

*ENERGY consumption, *INTERNET content, *INDUSTRIAL capacity, *MANUFACTURING processes, *MACHINE performance

Abstract

The article presents studies on the impact of the significant process parameters of a paper machine with a Yankee cylinder on its production capacity and heat energy consumption for drying the paper web. Parameters such as machine speed, web moisture content before and after pressing, parameters of steam supplied to the cylinder and parameters of hot air flowing from the nozzles of the hood were analyzed. The study's results were used to optimize production to improve the energy efficiency and performance of the machine. In order to use the possible methods of improving the production capacity and heat energy consumption, the parameters of the production process were measured and the basic indicators characterizing the operation of the machine were calculated in the Yankee cylinder–dryer hood system. The correct functioning of the machine components and the possibility of their modernization were also analyzed. Technological and construction changes introduced based on the research results made it possible to increase the production capacity by 10% and to reduce the consumption of heat energy per 1 ton of produced paper by 16.3%. The article presents a description of changes in the technology of paper production and modernization of the tissue machine made in the years 2013–2022. [ABSTRACT FROM AUTHOR]

Published

2023

13. Recent Topics in Economic Research - Feature Papers for Cerebrating the 10th Anniversary of Economies.

Author

Fendel, Ralf, Anwar, Sajid, Czudaj, Robert, and Fendel, Ralf

Subjects

Development economics & emerging economies, Brazil, CO2 emissions, COVID-19, China, Condorcet cycle, Condorcet paradox, Condorcet winner, DEA-approach, European region, Hypothetical Extraction Method, Input-Output, Knightian uncertainty, Mozambique, Okun's law, Portugal, Ramsey planner, SMEs, Tobit, US recessions, Vietnam, World Bank Enterprise surveys, active internationalization behavior, agent-based modelling, ambiguity premium, applied econometrics, bibliometric analysis, brand name medicines, business cycles, capital tax, carbon tax, complexity theory, conceptual structure, contingency theory, conventional, decomposition analysis, developed and developing countries, discounting future, dynamic stochastic integrated general equilibrium (DSIGE), economic destabilization, economics, efficiency performance, electoral cycles, employment, energy, energy consumption, environmental degradation, environmental uncertainty, expenditure, explanatory factors, export performance, female owned firms, financial development, financial information, firm survival, food production, forward and backward participation, future time reference, gender, global value chain, government institutional support, green economy, health, health care utilization, health problem, hospitality, household expenditure patterns, household saving behaviour, import penetration, income-related inequality of health, informal labor markets, innovation capabilities, international trade, job search, jobless recovery, linguistic structures, linkage analysis, macroeconomics, microfinance, multidimensional issue space, multiplier preferences, network analysis, non-financial information, non-parametric, obesity, online pharmacies, organizational performance, out-of-pocket payments, political budget cycles, poverty, price dynamics, propensity score matching, public policy, radial symmetry, random-effect, reactive internationalization behavior, region, regionalization, religion, remittances, robust Arrow-Debreu asset prices, social planner, social structure, spatial modeling, survey, sustainable development, systematic review, textile and apparel, time-series, tourism, unemployment, wages

Abstract

Summary: In 2023, Economies celebrates its 10th anniversary. Thanks to the incredible support from all of you, the journal has developed into a well-respected academic journal. Economies has been included in several journal rankings, has a decent and growing number of submissions by well-known experts, and obtains very satisfactory citation scores given its young age. We acknowledge these achievements with a dedicated Special Issue. Therefore, researchers from all areas of economic research have been invited to submit their contributions to this Special Issue. The Special Issue is titled "Recent Topics in Economic Research" and covers a broad range of topics that are currently at the forefront of economics research and that are within Economies' scope. This includes original research papers as well as comprehensive review papers on topics of actual importance in economics.

14. Prediction Method of PHEV Driving Energy Consumption Based on the Optimized CNN BiLSTM Attention Network.

Author

Zhang, Xuezhao, Chen, Zijie, Wang, Wenxiao, and Fang, Xiaofen

Subjects

*ENERGY consumption, *ELECTRONIC paper, *TRAFFIC flow, *ACCELERATION (Mechanics), *VEHICLE models, *MOTOR vehicle driving, *HYBRID electric vehicles

Abstract

In the field of intelligent transportation, the planning of traffic flows that meet energy-efficient driving requirements necessitates the acquisition of energy consumption data for each vehicle within the traffic flow. The current methods for calculating vehicle energy consumption generally rely on longitudinal dynamics models, which require comprehensive knowledge of all vehicle power system parameters. While this approach is feasible for individual vehicle models, it becomes impractical for a large number of vehicle types. This paper proposes a digital model for vehicle driving energy consumption using vehicle speed, acceleration, and battery state of charge (SOC) as inputs and energy consumption as output. The model is trained using an optimized CNN-BiLSTM-Attention (OCBA) network architecture. In comparison to other methods, the OCBA-trained model for predicting PHEV driving energy consumption is more accurate in simulating the time-dependency between SOC and instantaneous fuel and power consumption, as well as the power distribution relationship within PHEVs. This provides an excellent framework for the digital modeling of complex power systems with multiple power sources. The model requires only 54 vehicle tests for training, which is significantly fewer than over 2000 tests typically needed to obtain parameters for power system components. The model's prediction error for fuel consumption under unknown conditions is reduced to 5%, outperforming the standard error benchmark of 10%. Furthermore, the model demonstrates high generalization capability with an R2 value of 0.97 for unknown conditions. [ABSTRACT FROM AUTHOR]

Published

2024

15. Longest-Serving Active Paper Mill in the Western United States Uncovers New Ways to Save Energy

Published

2008

16. Lignocellulose Nanofiber and Starch for Surface Application on Recycled Linerboard.

Author

Hasanpour, Ghazal, Khosravani, Amir, Tajvidi, Mehdi, and Charani, Pejman Rezayati

Subjects

FIELD emission electron microscopy, SURFACE preparation, STARCH, ENERGY consumption, LIGNOCELLULOSE

Abstract

In a paper production line, starch is widely used for surface treatment and strengthening of linerboard at a size press. Also, the application of lignocellulose nanofibers (LCNFs) is growing because of its relatively low production energy demand, cost, and less hydrophilic nature in comparison to lignin-free nanofibers. Therefore, the addition of LCNFs to starch for paper surface treatment to reinforce the starch film and improve certain physical and mechanical properties of recycled linerboard was investigated in this work. Various LCNF/starch ratios were homogenized and then applied on the paperboard surface. The results revealed that a low mixing ratio of LCNF (5%) with starch improved the tensile index of the recycled paperboard, and at 50% LCNF content in the surface-treating material, film forming on the linerboard was observed in field emissionscanning electron microscopy images. In the case of 95% LCNF addition to starch, bending stiffness was significantly increased. Additionally, the viscosity of the sizing suspension was studied as a crucial parameter in the process and was found to increase significantly following the addition of LCNF. [ABSTRACT FROM AUTHOR]

Published

2024

17. Fibrous Fillers to Manufacture Ultra High Ash/Performance Paper

Author

Mathur, VIjay

Published

2009

18. Enhancing Through Air Drying Process Efficiency: Investigating Laboratory-to-Pilot Scale Correspondence and Impact of Process Variables on Tissue Paper Manufacturing.

Author

Sjöstrand, Björn, Tremblay, Bruno, and Danielsson, Mikael

Subjects

*HEART beat, *ENERGY consumption, *INDUSTRIAL costs, *ENERGY industries, *TISSUES

Abstract

State-of-the-art manufacturing of tissue paper by Through Air Drying provides excellent product performance, although at a high production cost and energy use. In this work, a laboratory scale vacuum suction box was used to mimic the initial dewatering and the Through Air Drying molding, together with a pilot-scale trial. The purpose was to investigate both how the laboratory scale corresponds to pilot scale testing and investigate how fabric design, basis weight, beating, and fibers affect dewatering and sheet caliper. This study reevaluates dewatering mechanisms during molding, challenging the previous hypothesis of pure air displacement dewatering. Results show a parallel mechanism of compression dewatering and air displacement. The influence of rush transfer is examined, impacting the sheets' visual appearance, thickness, and solids content. Correlations between molding box solids content and headbox freeness emphasize significance of fibers and beating levels. Pilot results confirm the link between former solids and molding box solids. Pilot trials validate the laboratory results, facilitating comprehensive simulation of full-scale manufacturing. This research reveals dewatering mechanisms, highlights operational parameters, and enables effective Through Air Drying process design and refinement. [ABSTRACT FROM AUTHOR]

Published

2023

19. 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

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

Author

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

Subjects

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

Abstract

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

Published

2022

21. Intelligent Transportation Systems for Improving Traffic Energy Efficiency and Reducing GHG Emissions from Roadways: A White Paper from the National Center for Sustainable Transportation

Author

Barth, Matthew, Wu, Guoyuan, and Boriboonsomsin, Kanok

Subjects

Advanced traffic management systems, Advanced traveler information systems, Advanced vehicle control systems, Energy consumption, Environmental impacts, Intelligent transportation systems, Pollutants, Research projects, Sustainable transportation

Abstract

Due to their potential to improve roadway safety, reduce traffic congestion, and enhance the mobility of people and goods, Intelligent Transportation Systems (ITS) have generated considerable enthusiasm in the transportation community. In this white paper, state-of-the practice ITS programs that are environmentally beneficial are highlighted spanning the three main areas of ITS, including, Vehicle Systems, Traffic Management Systems, and Traveler Information Systems. Recent ITS research programs in the US and EU are outlined.View the NCST Project Webpage

Published

2015

22. Progression of Vacuum Level in Successive Vacuum Suction Boxes in a Paper Machine - Impact on Dewatering Efficiency and Energy Demand - A Laboratory Study.

Author

Sjöstrand, Björn

Subjects

*CARTONS, *ENERGY consumption, *VACUUM pumps, *TESTING laboratories, *VACUUM

Abstract

Producing tissue paper is an energy-demanding process; a significant amount of energy is expended when removing water by vacuum, mechanical pressing, and thermal drying. Because the water is most energy-demanding to remove in drying, making the preceding step of vacuum dewatering more efficient would benefit the whole process. This article focuses on developing a laboratory-scale method for verifying the nature of diminishing returns of water removal and investigating efficiency strategies of the vacuum dewatering. The theoretical concept of successive vacuum suction boxes with progressing vacuum levels was tested at the laboratory scale in order to show quantifiable results of the previously solely theoretical concept. The results confirmed that vacuum dewatering can be improved by adding progressively higher vacuum levels and that such a practice can benefit both outgoing dryness levels and expended vacuum pump energy. To truly examine the power of progression of vacuum levels, rewetting can be included in the calculations, by using an approximate value collected from pilot or fullscale measurements. For any new fiber mix, pulp type, vacuum level setup, basis weight, etc. the vacuum levels, rewetting, and dwell times need to be tuned to that specific case. [ABSTRACT FROM AUTHOR]

Published

2023

23. Rebuild by ANDRITZ Gives Shandong Huatai Paper World's Largest Mechanical Pulping Line while Saving Energy and Resources.

Subjects

*PAPER industry, *MECHANICAL pulping process, *NEW business enterprises, *ENERGY consumption

Published

2024

24. Drivers, barriers and success factors for energy management in the Swedish pulp and paper industry.

Author

Lawrence, Akvile, Nehler, Therese, Andersson, Elias, Karlsson, Magnus, and Thollander, Patrik

Subjects

*ENERGY management, *PAPER industry, *ENERGY consumption, *INDUSTRIAL efficiency, *ENERGY policy, *VOLVO trucks

Abstract

Research has revealed the existence of an energy-efficiency gap – the difference between optimal and actual energy end-use, suggesting that energy efficiency can be improved. Energy management (EnM) is a means for improving industrial energy efficiency. However, due to various barriers, the full potential of EnM is not realised. Several studies have addressed drivers and barriers to energy efficiency but few to EnM. This study aims to identify EnM practices, the most important perceived drivers and barriers for EnM, and relations among them in the energy-intensive Swedish pulp and paper industry (PPI), which has the longest experience internationally of practising EnM systems, and has worked according to the standards since 2004. Our results show that, altogether, the PPI works regularly and continuously with EnM, with a clear division of responsibilities. The highest maturity for EnM practices was for energy policy, followed by organization, investments, and performance measurement. The study also shows that communication between middle management and operations personnel has potential for improvement. The most important categories of drivers were economic, whereas for barriers they were organizational. Nevertheless, knowledge-related barriers and drivers were amongst the most important, suggesting that the absorptive capacity for energy issues could be improved. Image 1029 • Energy is managed continuously, with clear policies and responsibilities. • The main drivers are economical while main barriers are organizational. • Knowledge related barriers and drivers are amongst the next most important. • Employees' absorptive capacity for energy issues could be improved. • Link between energy policy and performance measurement could be improved. [ABSTRACT FROM AUTHOR]

Published

2019

25. Paper Manufacturers Increase Energy Efficiency through Customized Audits and Process Analysis from Voith.

Subjects

*PAPER products, *ENERGY consumption

Published

2023

26. Impact of industrial agglomeration on energy efficiency in China’s paper industry.

Author

Zheng, Qingying and Lin, Boqiang

Subjects

*PAPER industry, *INDUSTRIAL clusters, *PAPER industry & the environment, *ENERGY consumption, *SUSTAINABLE development

Abstract

Guiding industries to produce in an effective and environmentally sustainable manner has become a key issue for governments around the world. Over the past 15 years, series of regional and industrial development policies have been introduced by the Chinese government. This has influenced the geographical distribution and energy efficiency performance of China’s industries. This paper quantifies the influence of enterprises geographical distribution on energy efficiency improvement in the paper industry and aims at providing some helpful suggestions on industrial development to policy makers. The main results show that, firstly, the paper industry in eastern China shows obvious characteristic of agglomeration. The average location quotient is 1.2278. However, following the industrial and regional development policies, the characteristic of agglomeration is weakening. Secondly, only when agglomeration reaches a certain level (location quotient is above 0.5447) will industrial agglomeration positively impact on industrial energy efficiency improvement (a 1% increase in agglomeration will increase dynamic energy efficiency by at least 0.23%). Thirdly, the regional development policies carried out by the government slow the pace of energy efficiency improvement in China’s paper industry. The empirical results indicate that the government needs to consider regional characteristics and consciously guide industrial enterprises to concentrate in the dominant area. [ABSTRACT FROM AUTHOR]

Published

2018

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

Author

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

Subjects

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

Abstract

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

Published

2019

28. Recent Progress in our Understanding of the Degradation of Carbon‐Based Electrodes in Vanadium Redox Flow Batteries – Current Status and Next Steps.

Author

Remmler, Nico and Bron, Michael

Subjects

VANADIUM redox battery, CARBON electrodes, CARBON paper, ENERGY consumption, FUNCTIONAL groups

Abstract

This mini‐review summarises and discusses recent findings form the literature on the degradation of carbon‐based electrodes for vanadium redox flow batteries (VRFBs). It becomes evident that the focus of current investigations is on carbon paper, carbon felt and graphite felt electrodes, which is understandable from a practical point of view. However, the structural complexity of these materials often prohibits doubtless attribution of observed performance reduction (or increase) to changes in the electrode materials. Among the discussed major causes for degradation are formation or change of surface functional groups, changes in the carbon sp2/sp3 ratio, intercalation of ions as well as formation of inhibiting adsorbates. In order to gain deeper insight into the changes of carbon electrodes in VRFBs under relevant operation conditions, the authors suggest reducing complexity of the investigated materials and applying in situ‐studies under well‐defined and controllable conditions on model electrodes. These studies then should be extended towards more practical systems and may finally help to reduce degradation phenomena including enhanced overvoltages and thus could improve cycling and energy efficiency as well as long‐term stability of vanadium redox flow batteries. [ABSTRACT FROM AUTHOR]

Published

2024

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. Impact of Structural Changes on Energy Efficiency of Finnish Pulp and Paper Industry

Author

Satu Kähkönen, Esa Vakkilainen, and Timo Laukkanen

Subjects

energy efficiency, pulp, paper, energy consumption, structural change, Technology

Abstract

A key challenge in prevention of global warming is how to increase energy efficiency, to be able to deal with increased fossil CO2 emissions from rising energy usage. Increasing energy efficiency will decrease energy usage and is in a key role in emission mitigation. The focus is the pulp and paper industry, which is energy-intensive. Development of industrial energy efficiency has been studied before but the role of industrial transformation is still mostly unknown. The knowledge must be improved, to be able to predict future developments in the most effective way. In this research, impact of various production unit closures and start-ups on energy efficiency of the Finnish pulp and paper industry were studied utilizing statistical analysis. Results indicate that about 20% of the Finnish pulp and paper industry energy efficiency improvement between 2011 and 2017 is caused by the major structural changes. The rest, 80% of the progress, was mainly due to improved technology and more optimal operational modes. Additional findings suggest that modern mill start-ups have a significantly greater potential to reduce energy consumption than old mill closures.

Published

2019

31. Flexible Sandwich-Structured Foldable Triboelectric Nanogenerator Based on Paper Substrate for Eco-Friendly Electronic Devices.

Author

Kim, Da Eun, Park, Jiwon, and Kim, Youn Tae

Subjects

*ELECTRONIC equipment, *SANDWICH construction (Materials), *ENERGY harvesting, *POWER resources, *ENERGY consumption

Abstract

Recently, as the use of wearable devices and the demand for eco-friendly energy have increased, many studies have been conducted on triboelectric nanogenerators (TENGs), which can economically harvest energy. Paper is considered a promising substrate and frame material that can be used to manufacture self-powered TENGs, owing to its flexibility, low cost, and accessibility. Herein, we present a sandwich-structured foldable paper-based TENG (FP-TENG) that comprises flexible materials and uses paper as a substrate. The FP-TENG can generate up to 572 mW/m2 of power via contact–separation of the triboelectric electrified body at the top and bottom. With more folds of the FP-TENG, the triboelectric cross-sectional area increases, and, thus, the electrical output increases. In addition, the proposed TENG exhibits excellent durability without signal degradation under 5000 cycles of repeated pushing motions. To demonstrate its practicality, the FP-TENG was manufactured in the form of a wristwatch Velcro and connected to an electronic watch panel to supply power. Various deformations are possible with origami, and they can drive wristwatches through external forces. Therefore, the FP-TENG is expected to be utilized as a sustainable and promising eco-friendly energy source for small electronic devices. [ABSTRACT FROM AUTHOR]

Published

2022

32. Integrating process optimization with energy-efficiency scheduling to save energy for paper mills.

Author

Zeng, Zhiqiang, Hong, Mengna, Li, Jigeng, Man, Yi, Liu, Huanbin, Li, Zeeman, and Zhang, Huanhuan

Subjects

*ENERGY consumption, *PAPER mills, *DRYING, *ENERGY conservation, *GENETIC algorithms

Abstract

With the surging energy price and environmental concerns, measures to improve energy efficiency have attracted increasing concerns of the manufacture sector, especially energy-intensive manufacturing industries such as tissue paper mills. Energy-efficiency scheduling, as a novel energy-efficient method, has attracted the attention of an increasing number of researchers in recent years. Drying process is the most energy-intensive production process in tissue paper mills, which has a great energy-saving potential. This paper aims to reduce the energy costs for the tissue paper mill, consisting of processing energy cost and set-up energy cost, through integrating drying process optimization with energy-efficient scheduling. First, the energy cost model and the scheduling model were built. Then, the energy cost of the drying process of every job in a given scheduling problem was optimized using particle swarm optimization (PSO). Afterwards, the energy cost was further optimized using energy-efficiency scheduling. In addition, a hybrid non-dominated sorting genetic algorithm II (NSGA-II) was utilized to solve the energy-efficiency scheduling problem. Finally, several real scheduling problems from a real tissue paper mill were addressed using the proposed approach to demonstrate its effectiveness in energy saving. The experiment result showed that there is a great energy-saving potential in the drying process, accounting for up to 12.53% of the total energy consumption. Moreover, the maximum energy saving ratio of the proposed approach could reach 9.03%. On the whole, the proposed approach can provide a new energy-saving method for tissue paper mills or other manufacturing industries. [ABSTRACT FROM AUTHOR]

Published

2018

33. Shifting Gear: Trends Shaping Paper and Packaging Industry in 2024.

Subjects

*PAPER industry, *PACKAGING industry, *ENERGY industries, *ELECTRONIC commerce, *ENERGY consumption

Published

2023

34. The Potential Energy Efficiency Improvements for the Italian Pulp and Paper Industry.

Author

Maggiore, Simone, Businge, Corine Nsangwe, Borgarello, Marco, Realini, Anna, Gobbi, Elena, Zagano, Claudio, and Bazzocchi, Francesca

Subjects

PAPER industry, ENERGY intensity (Economics), ENERGY consumption, ELECTRICITY, FOSSIL fuels

Abstract

Pulp and paper production is an energy intensive process, that accounts for about 9% of industrial final energy use in Italy in 2016. While the energy intensity of the total manufacturing sector has decreased by 51% over the last twenty years, pulp and paper industry has shown a slower improvement, of only 4%. The sector presents wide opportunities for improving energy efficiency and, for this purpose, adequate knowledge of the energy saving potentials and their costs are essential prerequisites to design effective policies. In this paper, after assessing the current technologies and energy performance of the Italian pulp and paper industry, we identify the technical and economic potentials for fuel and electricity savings in the sector. While many studies in this field use data on efficient technologies from available literature, surveys or even theoretical estimates, the added value of this paper is the use of real data coming from 110 energy efficiency measures implemented in the field by the pulp and paper companies under the Italian White Certificates Scheme. The analysis indicates that the energy saving potentials, under conservative technology penetration rates, amount to 0.88 TWh for electricity and 4.47 TWh for fossil fuels consumption: such savings equal 12.6% and 18.6% of the sector electricity and fuel demand, and can be translated into mitigated CO2 emissions of 353 kt. [ABSTRACT FROM AUTHOR]

Published

2019

35. Technology selection and evaluation in Iran's pulp and paper industry using 2-filterd fuzzy decision making method.

Author

Akhundzadeh, Maryam and Shirazi, Babak

Subjects

*PAPER industry, *RAW materials, *ENERGY consumption, *PRODUCT quality, *FUZZY logic, *DECISION making

Abstract

In recent years, the pulp and paper industry has changed a lot and products have been constructed in quite different methods using new technologies. It can be due to the emergence of challenges and constraints such as shortage of raw materials, energy consumption (fossil fuels, electric, etc.), management of the resulting pollutants, environmental issues, ongoing legal requirements and cleaner production strategies. In Iran, the pulp and paper industry's technological development is not keeping pace with global growth. Iran's pulp and paper mills supply a small fraction of domestic market. The reasons can be due to old technologies being used in factories, aging machinery, low productivity of production systems and lack of coordination with modern technologies. It leads to low-quality of paper products and willingness to buy local products. The aim of this study is to select the most appropriate technologies in the pulp section, due to high impact of pulp quality on the quality of final paper. Using a 2-filterd fuzzy decision-making, hierarchical structure of research is designed to assess technological alternatives according to the selected criteria. Findings show that after passing through two filters, Kraft method was chosen as the most appropriate method. The Kraft process has still many advantages like the high quality of the produced pulp and self-sufficiency in energy supply. This framework offers an appropriate procedure for identifying and selecting technologies that has not been used in past researches. Using this framework facilitates using a clear procedure for evaluating and selecting technology and prevents future losses for organizations. [ABSTRACT FROM AUTHOR]

Published

2017

36. Energy efficiency evolution of China's paper industry.

Author

Lin, Boqiang and Zheng, Qingying

Subjects

*PAPER industry, *ENERGY consumption, *POLLUTION control industry, *ECONOMETRICS

Abstract

China's paper industry accounts for a larger proportion of the global paper industry and consumes large amounts of energy. Energy conservation and pollution reduction of the industry have become the focus of China's national development strategy. Energy efficiency is an important index which directly determines the amounts of energy consumption and pollution emissions. To understand the energy efficiency evolution of China's paper industry, this paper establishes an input-output data of the paper industry for 29 provinces in China and applies DEA method and econometric models to estimate and comprehensively discuss the energy efficiency issues based on the framework of total factor efficiency. Our results indicate that China's paper industry has a large energy saving potential even though its energy efficiency has improved during the period 1990–2013. The saving potential is about 65% under the meta-frontier and 44% under the group-frontier. Moreover, there are significant differences between different regions in production technology and energy efficiency. The performance of eastern China is better than other regions. But the technology gaps between the different regions are shrinking and converging over time. Finally, some policy recommendations are proposed to improve the energy efficiency of the industry. [ABSTRACT FROM AUTHOR]

Published

2017

37. A critical review on waste paper sorting techniques.

Author

Rahman, M., Hussain, A., and Basri, H.

Subjects

PAPER recycling, SUSTAINABILITY, SOLID waste management, INFORMATION technology, PAPER industry, LIGNINS, ENERGY consumption

Abstract

Efficient waste paper recycling has a significant role in the sustainable environment. Recyclable waste paper as a fundamental ingredient of municipal solid wastes (MSWs) is indeed an 'urban ore'. Waste papers are considered as the solid recovered fuel which is recovered from MSW. Recyclable waste papers are segregated into various grades to produce high-quality products. Moreover, sorted paper streams save energy, chemicals, and water, as well as reduce sludge and rejects. Information technology is widely integrated with the waste management industry into its operations such as recycling, reuse, segregating based on categories and so on. This review article focuses on the life cycle of waste paper and existing waste paper sorting techniques. In the paper industry, many types of sensors are used in different mechanical and optical waste paper sorting systems. Such sensors include lignin, gloss, stiffness, mid-infrared, infrared, and color sensors. In this review, also described the effectiveness of different waste paper sorting systems, and finally, recommended appropriate waste paper sorting techniques based on effectiveness and low-cost implementation. [ABSTRACT FROM AUTHOR]

Published

2014

38. Reduction of Energy Consumption of Paper and Cardboard Machines in Production of Glued Paper and Cardboard

Author

V.L. Fleisher, N.I. Bogdanovich, and N.V. Chernaya

Subjects

peptization, glued paper, cardboard, homocoagulation, Energy consumption, Pulp and paper industry, Reduction (complexity), paper machine, visual_art, power usage, visual_art.visual_art_medium, Environmental science, Production (economics), drying paper and cardboard

Abstract

The objective of this research was to conduct studies of the influence of the sizing complexes dimensions and rosin sizing methods proceeding in the modes of homocoagulation and heteroadagulation on the temperature regime of paper and cardboard drying. The drying regime ensures the sintering and melting processes of coarse (existing technology) and fine (developed technology) sizing complexes with the formation of a hydrophobic film on the surface, responsible for such values indicators for glued types of paper and cardboard, as the degree of sizing by the bar method and absorbency with onesided wetting. Coarse electroneutral sizing complexes gauged 4200-6000 nm are formed in the second phase of electrolyte coagulation of hydrodispersions of modified rosin (HMR). The ratio of HMR : electrolyte is 1: 3. The rosin sizing process takes place in the mode of homocoagulation, since such complexes are not able to distribute evenly and adhere firmly to the surface of the fibers and the hydrophobic film formed of them is heterogeneous in thickness and area. Fine sizing complexes have a size of 180-220 nm and an electrokinetic potential from +30 to +50 mV. They are peptized particles formed from coagulates (2000 nm), first formed in the first area of electrolyte coagulation of HMR, when the ratio of HMR : electrolyte (first batch) is 1 : 1, and then subjected to further disaggregation (peptization) into the presence of peptide ions Al3+, introduced into the pulp with the second portion of the electrolyte in a ratio of 1 : 0.8. It has been established that reducing the size of sizing complexes from 4200–6000 to 180–220 nm due to the shift of the rosin sizing process from the homocoagulation mode to the heteroadagulation mode helps to reduce energy consumption in the drying part of paper-making and cardboard-making machines by 2-3 % or more. This process is facilitated by lowering the temperature of not only the last 4-6 drying cylinders located at the end of the second group - from 130 to 115-120 °C, but also the first 2-4 drying cylinders of the third group - from 115 to 100-105 °C.

Published

2019

39. Industrial polices and improved energy efficiency in China’s paper industry.

Author

Zheng, Qingying and Lin, Boqiang

Subjects

*ENERGY consumption, *PAPER industry, *POLLUTION, *ECONOMETRIC models, *SALE of business enterprises

Abstract

China’s paper industry consumes a lot of energy and emits huge amounts of pollutions. The Chinese government over the past decades has done a lot to promote energy efficiency of the industry. This paper studies the impact of industrial polices to improve energy efficiency. The energy efficiency change is firstly studied under a framework of total factor efficiency. On this basis, different econometric models are built to discuss the detailed energy efficiency characteristics of the paper industry. The main results are as follow: (i) ownership structure did influence the energy efficiency, but the influence is different in different conditions; (ii) energy efficiency of the paper industry can be improved by economies of scale; (iii) market competition can to some extent overcome the motivation and supervision problem that often occur in state-owned companies; (iv) energy price cannot play the role of resource allocation well in China. Finally, based on our findings, some suggestions are provided. [ABSTRACT FROM AUTHOR]

Published

2017

40. The Potential of Energy Efficiency on Recycle Paper Bioprocess.

Author

Masriani, Rina, Hidayat, Taufan, Elyani, Nina, Risdianto, Hendro, and Nurachman, Zeily

Subjects

PAPER recycling, ENERGY consumption, PAPER industry, BIOCHEMICAL engineering, DRYING, GLUCANASES

Abstract

The increasing use of recycled paper by the paper industry to support the Green Industry in the Indonesian Pulp and Paper Industry. But technically, there are some disadvantages of recycled fiber usage such as low drainage rate in which boosted the high energy consumption on drying process. As already known, the drying process consumes the highest energy in papermaking. To overcome this problem, the research using the concentrate of endoglucanase Egl-II has done. The steps of research included production of endoglucanase Egl-II; concentration by ultrafiltration method, modification of recycled paper fibers using endoglucanase Egl-II; characterization of paper sheet; and evaluation of energy consumption in drying the sheet of paper. The results showed that endoglucanase Egl-II had increase drainage rate of recycled fiber stock, which indicate by the freeness number. The number had increased by 80 ml CSF (Canadian Standard Freeness) from 190 ml CSF to 270 ml CSF, and fiber retention increased by 0,63% from 99,31% to 99,94%. The dissolved cellobiose test results of recycled fiber stock by the enzyme treatment at low dosage showed that no degradation of cellulose, no change into soluble sugars. Characterization of sheet of paper that has been modified with endoglucanase Egl-II based FTIR spectra showed no change in functional group, SEM results showed on the fiber surface fibrils grow more, and the results of the XRD analysis showed area reduction of amorphous regions is about 6%. The potential for energy efficiency is calculated through thermodynamic approach is about 15%. [ABSTRACT FROM AUTHOR]

Published

2015

41. Enhancing the Energy Efficiency of a Black Liquor Evaporation Plant by Mechanical Vapor Recompression Integration †.

Author

Variny, Miroslav

Subjects

SULFATE waste liquor, ENERGY consumption, PAPER industry, PAYBACK periods, CARBONIZATION, EVAPORATORS

Abstract

Black-liquor-thickening in an integrated multi-effect evaporation plant consumes substantial amounts of steam produced in pulp and paper mills, and its efficient operation is, thus, crucial. Industrial applications of heat pumps in the pulp and paper industry, especially in black liquor evaporation, show promise in terms of cutting energy consumption and in decarbonizing this industrial branch. Modelling of such a plant includes momentum, heat and mass transfer issues, enriched with black liquor material specification. An existing black liquor evaporation plant which thickens inlet black liquor from 17% to 75% wt. dry solids with a dry solid flow of 2500 tonnes per day is considered. It already includes a MVR (mechanical vapor recompression) pre-evaporator as well as water-condensate stripping columns. A mathematical model of this plant is created in a Matlab environment and, after verification of obtained results, it serves for analyses of possible plant modifications. Among the modification options, installation of a second MVR is modeled and its impact on the whole plant is examined. As a result, a differential (marginal) change in steam and electricity consumed in the plant is obtained. Model results indicate the possibility of a reduction of process steam consumption of around 10 tonnes per hour and an increase in electricity consumption of 600 kW. A favorable simple payback period of 2.5 years can be expected for the considered investment. [ABSTRACT FROM AUTHOR]

Published

2023

42. Review on recent developments on pulp and paper mill wastewater treatment.

Author

Kamali, Mohammadreza and Khodaparast, Zahra

Subjects

PAPER industry, WASTEWATER treatment, ENERGY consumption, WASTE recycling, ENERGY industries

Abstract

Economic benefits of the pulp and paper industry have led it to be one of the most important industrial sections in the world. Nevertheless, in recent years, pulp and paper mills are facing challenges with the energy efficiency mechanisms and management of the resulting pollutants, considering the environmental feedbacks and ongoing legal requirements. This study reviews and discusses the recent developments of affordable methods dealing with pulp and paper mill wastewaters. To this end, the current state of the various processes used for pulp and paper production from virgin or recovered fibers has been briefly reviewed. Also, the relevant contaminants have been investigated, considering the used raw materials and applied techniques as the subject for further discussion about the relevant suitable wastewater treatment methods. The results of the present study indicated that adopting the integrated methods, alongside a combination of biological (e.g., anaerobic digestion) and physicochemical (e.g., novel Fenton reactions) treatment methods, can be environmentally and economically preferable to minimize environmental contaminants and energy recycling. [ABSTRACT FROM AUTHOR]

Published

2015

43. Irradiation based clean and energy efficient thermochemical conversion of biowaste into paper

Author

Shailesh Pathak, Harald Großmann, Rene Kleinert, Prateek Saxena, and A. K. Ray

Subjects

Bamboo, Materials science, Renewable Energy, Sustainability and the Environment, Strategy and Management, Pulp (paper), Energy consumption, engineering.material, Raw material, Pulp and paper industry, Industrial and Manufacturing Engineering, stomatognathic diseases, stomatognathic system, visual_art, Newsprint, engineering, visual_art.visual_art_medium, Bagasse, Kraft paper, General Environmental Science, Efficient energy use

Abstract

The advancement in plastic and plastic based products in last two decades has imposed a serious threat to the environment. This has led to an increase in the demand for sustainable and biobased products. Paper and paper products are good alternatives to their plastic counterparts. A key element of paper industry is the raw material (wood, bamboo and nonwood agricultural residues such as bagasse, straws etc.) from which pulp is produced. The pulp is then utilized for production of paper. There are many pulping processes to prepare pulp of various qualities. For fine grade pulp, chemical pulping is used. The chemical pulp is produced by soda, kraft and sulphite pulping processes. However, for newsprint grade pulp, stone ground wood (SW), thermomechanical (TMP), chemi-thermomechanical (CTMP), chemi-mechanical (CMP) or refiner mechanical (RMP) corresponding pulping processes are employed. The method of pulp preparation (pulping process) consumes large amount of energy and chemicals. A new pulping process with electron irradiation using biowaste (bagasse) as a raw material is discussed in this work. Bagasse pulping process is found to reduce about 50% of energy consumption during pulping process. The process is referred to as ‘ECTMP’ (Energy Efficient Chemi-Thermo Mechanical Pulping). The paper produced from aforesaid method also reflected no loss of strength properties with respect of TMP reference pulps. Henceforth, preliminary calculation based on experimental results shows that the proposed bagasse ECTMP process explored the scope of energy savings of the order of 50%.

Published

2019

44. Enhancing Subsequent Kraft Fiber Dewatering Properties by using Fiber Polyamide-epichlorohydrin (PAE) Treatment to Prepare a Dry Pulp Product

Author

Antti Korpela, Atsushi Tanaka, and Jaakko Asikainen

Subjects

market pulp, dewatering, bulking aid, energy consumption, pae, paper properties, Biotechnology, TP248.13-248.65

Abstract

The energy needed for the dewatering and drying of wet paper web represents around half of the energy consumption of papermaking processes. The present work examined whether the dewatering and drying of paper could be enhanced during a previous pulp drying process by pretreating the fibers with polyamide-epichlorohydrin (PAE). According to the hypothesis, the cured PAE restrains swelling and water absorption of water-wetted fibers by forming a fiber-bound, self-crosslinked polymer-network on the fiber surfaces. The hypothesis was tested by adding PAE to never-dried kraft pulp slurry followed by pulp thickening, drying, and final curing of the PAE-resin. After this, the PAE-treated fibers were dispersed in water, and their water retention values (WRV) and Shopper-Riegler values (○SR) were measured. The PAE pretreatments notably decreased the fibers´ WRV and ○SR, indicating improved water removal of paper web in the paper machine forming and drying section. Compared to chemical crosslinking pretreatments, which also can be used to decrease fibers WRV and ○SR-value, a notable advantage of PAE-pretreatment is milder required curing conditions of the PAE, which makes implementation of the method easier in practice. Due to decreased fiber-to-fiber bonding capability, the PAE-treated specialty fibers could take advantage especially as a bulking aid of paperboard, tissue, and absorbent materials.

Published

2024

45. Discussion of Kenichi Matsui's Paper "Global Demand Growth of Power Generation, Input Choices and Supply Security"

Author

Gerholm, Tor Ragnar

Published

1998

46. (Position paper) Characterizing the Behavior of Small Producers in Smart Grids A Data Sanity Analysis.

Author

Stefan, Maria, Gutierrez, Jose, Barlet, Pere, Prieto, Eduardo, Gomis, Oriol, and Olsen, Rasmus L.

Subjects

ELECTRIC power distribution grids, DATA analysis, ENERGY consumption, FORECASTING, CONSUMER profiling, LOAD forecasting (Electric power systems)

Abstract

Renewable energy production throughout low-voltage grids has gradually increased in electrical distribution systems, therefore introducing small energy producers - prosumers. This paradigm challenges the traditional unidirectional energy distribution flow to include disperse power production from renewables. To understand how energy usage can be optimized in the dynamic electrical grid, it is important to understand the behavior of prosumers and their impact on the grid's operational procedures. The main focus of this study is to investigate how grid operators can obtain an automatic data-driven system for the low-voltage electrical grid management, by analyzing the available grid topology and time-series consumption data from a real-life test area. The aim is to argue for how different consumer profiles, clustering and prediction methods contribute to the grid-related operations. Ultimately, this work is intended for future research directions that can contribute to improving the trade-off between systematic and scalable data models and software computational challenges. [ABSTRACT FROM AUTHOR]

Published

2020

47. Identificación de Factores de Operación en un Proceso de Refinación para la Producción de Papel Tisú.

Author

Navarro, Carlos Torres, Zavala, Vanessa Ortega, Sáez, Sebastián Campos, and Mellado, Carlos Rozas

Subjects

*FACTORIAL experiment designs, *EUCALYPTUS globulus, *PINUS radiata, *CONSUMPTION (Economics), *ENERGY consumption, *FACTORIALS

Abstract

In order to achieve an increase in the profitability of tissue paper production, this research aimed to identify factors that affect the degree of pulp refinement and the tension index of the tissue paper when using short fiber, long fiber and Quimizine B enzyme. The methodology considered laboratory experiments, obtaining refining curves, multilevel factorial design and response surface diagrams. The results indicated that the most significant common factor in the pulp refining degree and tension index is the specific energy consumption for both types of fiber, and that optimal operating parameters can be known by analyzing the refining degree and tension index independently and simultaneously. It was concluded that the multilevel factorial design allowed to identify significant factors that influence the properties of the refining degree and the resistance of tissue paper when looking for an individual and simultaneous optimum and, that the influence of the enzyme increased the properties of the refining degree and the tensile strength of the paper when using raw material of short and long fiber from Eucalyptus globulus and Pinus radiata, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

48. Modelling drying process in paper manufacturing

Author

Gonçalo Pena, Stella Abreu, Adérito Araújo, Joao Penedones, José Augusto Ferreira, Luísa Morgado, Joaquim Correia, Filomena Teodoro, and Sílvia Barbeiro

Subjects

Heating system, Materials science, business.industry, Process (computing), Fluid dynamics, Energy consumption, Process engineering, business, Finite element method, Paper manufacturing

Abstract

Euroresinas produces different types of resin-impregnated paper at their factories. After the paper goes through the resin bath, it undergoes a drying process which is a fundamental step in the process. Although the temperature is controlled by a heating system, the actual values inside the chain of dryers are only measured at a few points away from where the paper is. The company would like to be able to model the temperature profile inside the dryers to better understand problems such as dusting and sticking, as well as the optimization of different variables related to bathing and drying times and energy consumption.

Published

2021

49. The eco-efficiency of pulp and paper industry in China: an assessment based on slacks-based measure and Malmquist–Luenberger index.

Author

Yu, Chang, Shi, Lei, Wang, Yutao, Chang, Yuan, and Cheng, Baodong

Subjects

*PAPER industry, *PAPERBOARD industry, *ENVIRONMENTAL impact analysis, *WATER pollution, *ENERGY consumption

Abstract

China has become the world largest paper and paperboard producer. However, pulp and paper industry has involved high resource consumption and severe pollution especially for water. This research has assessed the eco-efficiency of China's pulp and paper industry at the national level and provincial level. An overview regarding the cleaner production of China's pulp and paper industry was presented to reveal the measures for reducing environmental impact in the last two decades. Slacks-based measure was used to analyze the efficiency levels of 16 provinces' pulp and paper industries. To uncover the underlying causes of eco-efficiency performance, Malmquist–Luenberger index was calculated to discover the drivers of productivity growth of pulp and paper industries. Our results showed that the pollution treatment of China's pulp and paper industry has made progress in terms of water consumption and water pollution, although the absolute amount of pollution discharge is still large. Chemical oxygen demand emissions are still the first critical influencing factor of pulp and paper industry's inefficiency. Furthermore, efficiency progress was the dominating contribution of the industry's productivity growth between 2010 and 2013. The policies for adjusting the industrial structure of pulp and paper industry have resulted in the scale effects through eliminating backward production capacity and accelerating merger and acquisitions. Moreover, the productivity of pulp and paper industry was underestimated when the undesirable outputs were ignored. It indicates that the stricter environmental regulations have positive effects on paper companies to internalize environmental pressures in the production activities through environmental management. In the future, pulp and paper companies should further internalize the cost of pollution treatment through scale effects and technology improvement. [ABSTRACT FROM AUTHOR]

Published

2016

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

Author

Kong, Lingbo, Hasanbeigi, Ali, and Price, Lynn

Subjects

*PAPER industry, *ENERGY consumption, *CARBON dioxide mitigation, *CLIMATE change, *ENERGY conservation

Abstract

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

Published

2016