Showing total 7,412 results

1. Experimental analysis of building components with paper and textile waste

Author

Stefania, Liuzzi, Chiara, Rubino, and Francesco, Martellotta

Published

2024

2. A Spatial Equilibrium Problem for the European Pulp and Paper Industry Under the Emission Trading System

Author

Allevi, Elisabetta, Gnudi, Adriana, Konnov, Igor V., Oggioni, Giorgia, and Riccardi, Rossana

Published

2023

3. Expert Survey on the Impact of Cardboard and Paper Recycling Processes, Fiber-Based Composites/Laminates and Regulations, and Their Significance for the Circular Economy and the Sustainability of the German Paper Industry.

Author

Belle, Jürgen, Hirtz, Daniela, and Sängerlaub, Sven

Abstract

The European Community is striving for a sustainable society as suggested by the UN's 2015 sustainability goals. The circular economy in the paper and packaging industry is of particular importance here because it consumes many resources. The paper industry in Germany with a fiber recycling rate of 85% in 2022 is already a pioneer and role model for other industries. All materials should be recyclable. Fiber-based composites/laminates are currently becoming increasingly important. Essential questions are: which collection systems and recycling paths should be used for fiber-based composites/laminates, and where are there currently challenges with recycling? To answer these questions, 58 questionnaires answered by German experts and practitioners in the German paper industry were evaluated. Wet-strength papers, adhesives, plastic coatings and wax dispersions were perceived as a problem by 70% of all respondents, and packaging residues by almost 40%. Additionally, 90% stated that the composition of paper for recycling changes regularly due to legislation, trends and innovations, while 60% attributed this to recent changes in legislation. For at least 80%, virgin fibers from packaging are valuable for paper recycling, but only 15% of respondents stated that virgin fibers compensate for the disadvantages of rejects. Almost 90% expected challenges with fiber-based composites/laminates in the existing paper for recycling processes. Overall, the collection and recycling of fiber-based composites/laminates in conventional paper for recycling collection and the recycling system is not desirable. An integrated collection, sorting and recycling system should be considered, especially because a further increase in fiber-based composites is to be expected. In the end, the design for recycling and following recycling guidelines are the key to the recycling industry in the future. Good recyclability of fiber-based composites/laminates would improve their acceptance by paper recyclers. Their virgin fibers are particularly valuable. The results of our study are relevant to the recycling and fiber industry, standard-setting bodies, regulatory authorities and research. The limitation of this study is that experts from the paper industry were interviewed, but the recyclability of the fiber materials was not analyzed by measurement, and the machine technology of the interviewees could not be examined and evaluated. [ABSTRACT FROM AUTHOR]

Published

2024

4. Enhancing the Decomposition of Paper Cups Using Galleria Mellonella and Eisenia Fetida.

Author

Moqbel, Shadi, Al-Ghoul, Habib, Al-Ghzawi, Abd Al-Majeed, and Mukbel, Rami

Subjects

PAPER products, GREATER wax moth, LUMBRICUS rubellus, RECYCLING industry, BIODEGRADATION

Abstract

The composition of paper cups creates a challenge for the recycling industry, as the paperboard--plastic film composite is hard to separate. Therefore, paper cups are sent to landfills or waste incinerators. This study explores the combined use of red worms (Eisenia fetida) and Greater wax moth (Galleria mellonella) in the biodegradation of paper cups. The study investigates the conditions and combinations that promote using Eisenia fetida and Galleria mellonella for degrading paper cups. The study considered the influence of environmental temperature, the presence of food waste, varying the number of Eisenia fetida worms, and the presence of a Galleria mellonella growth-slowing agent on the degradation process. To achieve the study objectives, the study followed a quantitative approach. The study monitored the degradation of paper cup cuts that were placed in jars containing different combinations of Eisenia fetida worms, Galleria mellonella larvae, food waste, bedding material, and Galleria mellonella growth-slowing agents. The study found that the best operating temperature is 30°C. The study found that using food waste improves the performance of Eisenia fetida worms and Galleria mellonella larvae significantly. The study found that adding a Galleria mellonella growth-slowing agent slightly enhances the degradation of the paper cup. Finally, a numerical model was obtained to simulate the paper cup degradation efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

5. Paper-Mill Wastes for Bioethanol Production in Relation to Circular Economy Concepts: A Review.

Author

Or-Chen, Dafna, Gerchman, Yoram, Mamane, Hadas, and Peretz, Roi

Subjects

CIRCULAR economy, ETHANOL as fuel, SLUDGE management, FOSSIL fuels, PAPER pulp, WASTE management

Abstract

This review explores circular economy principles in regard to ethanol production from paper-mill sludge. Environmental sustainability and renewability over fossil fuels make second generation ethanol an attractive energy source in a rapidly growing population and consumption world. Paper sludge (PS), a by-product of the pulp and paper (P&P) industry, can no longer be recycled for paper production and is mainly disposed of in landfills. Therefore, it poses a major environmental challenge. However, it has shown potential as a valuable raw material for ethanol production, along with other pulp and paper products, due to its abundant availability and high cellulosic content. This waste-to-energy (WtE) technology for ethanol production is proposed as an alternative, aligning with circular economy concepts to maximize resource efficiency and minimize waste. This review underlines the circular economy aspects of bioethanol production within paper mill sludge management systems. Circular economy principles applied to ethanol production from PS offer a promising avenue for sustainable biofuel development that not only addresses waste management challenges but also enhances the overall environmental performance of biofuel production. Furthermore, economic benefits are described, highlighting the potential for job creation and community development. [ABSTRACT FROM AUTHOR]

Published

2024

6. Detoxification of Real Pulp and Paper Industry Wastewater via Sunlight-Assisted Dual Technology Employing Waste Driven Composite: A Parametric Optimization and Statistical Analysis

Author

Puri, Sonali and Verma, Anoop

Published

2024

7. Microcrystalline cellulose and by-products from the pulp and paper industry as reinforcing fibres for polybutylene succinate-based composites: A comparative study.

Author

Sousa, Francisco JPM, Jesus, Carolina F, Góis, Joana R, Pereira, Nelson AM, and Antunes, Filipe E

Subjects

*SEWAGE disposal plants, *CHEMICAL purification, *MODULUS of elasticity, *PAPER industry, *CIRCULAR economy

Abstract

This study focussed on the development of fully biodegradable composites based on polybutylene succinate (PBS) in combination with raw materials from different processing stages of the pulp and paper industry. Sulfite pulp (SP), kraft pulp (KP) and screened sludge residue (SL) from wastewater treatment plants (WWTP) were investigated as reinforcing fibres contributing to a circular economy. We report a comparative study of the physicochemical properties and mechanical performance of PBS composites reinforced with these cellulosic raw fibres and commercial pure microcrystalline cellulose (MC). The composites were characterised in tensile strength, elongation at break, modulus of elasticity, water absorption and wettability. The incorporation of the fibres into the polymer matrix was also investigated using torque rheometry. Critical concentrations were obtained with maximum incorporation in the range of 15–20 wt% for SP/KP and 25–30 wt% for SL. SP and KP composites showed at least as good physicochemical and mechanical properties as MC at the concentrations studied (0–20 wt%). SP-composites showed the highest tensile strength and modulus of elasticity. It was shown that these fibres from the pulp and paper industry can be used as reinforcement for PBS matrices without additional chemical purification and provide a valuable alternative to commercial microcrystalline cellulose. [ABSTRACT FROM AUTHOR]

Published

2024

8. Life cycle assessment of plastic and paper carrying bags in the Philippines

Author

Aristotle T. Ubando, Jeremias A. Gonzaga, Ivan Henderson V. Gue, and Jose Bienvenido Manuel Biona

Subjects

Waste management, Shopping bags, Circular economy, Southeast asia, Sustainable consumption and production, Single-use, Environmental effects of industries and plants, TD194-195

Abstract

Plastic waste mismanagement is a pertinent environmental concern among developing countries. The Philippines has a significant plastic waste concern as the country is among the top emitters of plastic wastes to the ocean. To manage plastic wastes, the government enacted policies. resulting to paper carrying bags becoming a prominent alternative. Switching from one carrying bag to another, however, requires clear assessment on the environmental implications as environmental trade-offs can occur. To provide the needed clarity, this study assessed the environmental implications of plastic and paper carrying bags through a life cycle assessment (LCA) approach. This study developed a model with the novelty of a) supply chain integration, b) augmented Environmental Design of Industrial Products (EDIP) impact assessment, and c) inventory categorization. From the augmented EDIP assessment, paper carrying bags had a single score impact of 0.73 whereas plastic carrying bags had a single score of 0.63. In terms of geographic emissions, this work revealed that paper carrying bags emit 50.28% of its emissions outside the country whereas plastic carrying bag emit 34.72%. Policy recommendations derived from the findings are provided in this paper. Recommendations include carbon capture and storage, green procurement, circular management, and waste management system improvement. Policy makers may infer from the recommendations in managing environmental issues from the use of carrying bags.

Published

2024

9. Erythrosine–Dialdehyde Cellulose Nanocrystal Coatings for Antibacterial Paper Packaging.

Author

Shi, Shih-Chen, Ouyang, Sing-Wei, and Rahmadiawan, Dieter

Subjects

BIODEGRADABLE plastics, CELLULOSE, KRAFT paper, PLASTICS, PLASTICS in packaging, POLYETHYLENE

Abstract

Though paper is an environmentally friendly alternative to plastic as a packaging material, it lacks antibacterial properties, and some papers have a low resistance to oil or water. In this study, a multifunctional paper-coating material was developed to reduce the use of plastic packaging and enhance paper performance. Natural cellulose nanocrystals (CNCs) with excellent properties were used as the base material for the coating. The CNCs were functionalized into dialdehyde CNCs (DACNCs) through periodate oxidation. The DACNCs were subsequently complexed using erythrosine as a photosensitizer to form an erythrosine–CNC composite (Ery-DACNCs) with photodynamic inactivation. The Ery-DACNCs achieved inactivations above 90% after 30 min of green light irradiation and above 85% after 60 min of white light irradiation (to simulate real-world lighting conditions), indicating photodynamic inactivation effects. The optimal parameters for a layer-by-layer dip coating of kraft paper with Ery-DACNCs were 4.5-wt% Ery-DACNCs and 15 coating layers. Compared to non-coated kraft paper and polyethylene-coated paper, the Ery-DACNC-coated paper exhibited enhanced mechanical properties (an increase of 28% in bursting strength). More than 90% of the bacteria were inactivated after 40 min of green light irradiation, and more than 80% were inactivated after 60 min of white light irradiation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Circular economy of shopping bags in emerging markets: A demographic comparative analysis of propensity to reuse plastic bags versus cotton bags and paper bags

Author

Paul Mukucha, Divaries Cosmas Jaravaza, and Sarah Nyengerai

Subjects

circular economy, plastic paper bags, reuse, low income shoppers, high income shoppers, cotton bags, Engineering (General). Civil engineering (General), TA1-2040

Abstract

AbstractThis study seeks to profile the shoppers’ propensity to reuse shopping bags and the type of shopping bags they reuse on the basis of demographics. The study used an observation method to record the consumers’ shopping habits and a short questionnaire to record the participants’ demographics. A binary regression analysis and a multinomial regression analysis were used to analyse data. The results indicated that the mature aged, women, and low income shoppers were more likely to practice reuse of plastic shopping bags than their respective counterparts. There were no statistically significant differences in the likelihood of young aged shoppers compared to mature aged shoppers and low income shoppers compared to high income shoppers using cotton bags than plastic bags. There were also no statistically significant differences in the likelihood of young aged shoppers compared to mature aged shoppers and male shoppers compared to female shoppers using paper bags than plastic bags. However, the results indicated a statically significant result in how males compared to females differed in their using of cotton bags than plastic bags and a statistically significant result in how low income shoppers compared to high income shoppers differed in their use of paper bags than plastic bags.

Published

2023

11. Multifunctional cellulose paper-based materials.

Author

Zhang, Fan, Xu, Kun, Bai, Yungang, and Wang, Pixin

Subjects

ENERGY conversion, SUSTAINABLE development, CIRCULAR economy, CELLULOSE, MICROFLUIDIC devices

Abstract

Owing to their intrinsic properties of wide availability, low cost, portability, environmental friendliness and degradability, paper and paper-based materials are receiving increasing attention since birth. Recent increasing studies suggest that paper and paper-based materials possess bright application prospects for the purpose of realizing sustainable development and green circular economy soon. Under this background, more and more correlated application fields for paper and paper-based materials, such as advanced paper-based packaging, writing paper (paper-based transistors), environmental protection (oil/water separation), interface sensing (paper-based sensor devices and microfluidic platforms), energy conversion/storage devices (paper-based triboelectric nanogeneration, paper-based bio-batteries and supercapacitors) have been emerged. In addition, the challenges faced in utilizing the current paper-based materials are analyzed, including fundamental problems, practical applications, and development prospects. The current review not only provides theoretical guidance for the construction of functional paper-based materials, but also helps to expand their application scope and extend their lifespan. It is expected that this review will inspire future research regarding the novel practical applications of paper-based materials. [ABSTRACT FROM AUTHOR]

Published

2023

12. Optimizing paper sludge content and particle size to enhance particleboard properties.

Author

Mehrvan, Kian, Jonoobi, Mehdi, Ashori, Alireza, and Ahmadi, Peyman

Subjects

*CIRCULAR economy, *FLEXURAL strength, *WASTE management, *PRINCIPAL components analysis, *PARTICLE board

Abstract

The pulp and paper industry generates vast quantities of paper sludge, posing significant environmental challenges due to its disposal in landfills or incineration. This study explores the potential of valorizing paper sludge by incorporating it into particleboard production. It aims to optimize sludge content and particle size to enhance board properties—a novel approach to waste management in the wood composites industry. Through systematic variation of sludge content (0–25%) and particle size (< 0.5 to > 2 mm), we assessed the mechanical and physical properties such as internal bond strength (IB), modulus of rupture (MOR), modulus of elasticity (MOE), water absorption (WA), and thickness swelling (TS). The findings indicate that incorporating paper sludge at moderate levels (5–15%) with optimized particle sizes (< 1 mm) significantly improves the mechanical properties of the particleboard, including increased IB, MOR, and MOE while reducing WA and TS. Principal Component Analysis (PCA) further supported these results, revealing that higher-density boards with enhanced mechanical properties absorb less water, highlighting the interrelationship between structural integrity and moisture resistance. The PCA also identified thickness swelling as an independent factor, suggesting that while mechanical properties can be optimized, additional strategies are needed to control swelling. In conclusion, this study demonstrates that up to 15% paper sludge can be effectively used in particleboard production without compromising quality, provided particle size is carefully controlled. This approach not only offers a sustainable solution for managing paper sludge but also contributes to the development of eco-friendly composite materials, aligning with circular economy principles. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Isabell Lidbrand, Govindarajan Venkatesh, and Magnus Lestelius

Subjects

circular economy, E-LCA, global warming potential, LDPE, paper bags, plastic bags, Environmental sciences, GE1-350, Ecology, QH540-549.5, Philosophy (General), B1-5802

Abstract

Fossil-plastics or paper? Or for that matter, bio-plastics and paper? This is a well-entrenched question in academic research, industrial, social and policy-making circles. As environmental life-cycle analyses (or more appropriately, sustainability analyses) show time and again, no single product or process or mode of operation is a ‘total villain’. There are goods and bads, and at times, more of the one than the other. This paper, which is based on a course-report written by the first author at Karlstad University (Sweden), restricts itself to a review of publications which have opted to compare paper bags with low density polyethylene (LDPE) plastic bags, on the basis of their environmental impacts. Environmental impact categories include the global warming potential, energy demand, fossil fuel depletion, water usage, acidification, eutrophication, and a range of toxicities – human, terrestrial, freshwater-aquatic and marine-aquatic. The articles were obtained through Google Scholar, read and reviewed to glean the results presented therein. The ‘What’, ‘How’ and ‘Where’, so to say were studied carefully to understand the reasons behind any differences or similarities detected. On the basis of this focused review, even though no new knowledge is being added, the common belief that the paper bag is environmentally superior to the LDPE alternative is further consolidated. However, if one focuses on water usage and would assign a high weightage to that environmental impact, LDPE perhaps may score a few ‘brownie points’ over paper. One must also not forget that plastics (LDPE in this instance) can be recycled without significant deterioration in its functional properties. In a circular economy (the bioeconomy part of which gradually will expand over time), while introducing more and more bio-based products into the technosphere by way of trans-materialization is recommended, plastics will still continue to exist – albeit in much smaller amounts – and it would be perfectly fine if the degree of recycling is augmented significantly. Speaking of a holistic sustainability analysis, the socio-economic aspects of a choice between LDPE and paper bags must also be factored in, and studied. Much-desired change happens when the top-down meets the bottom-up somewhere midway.

Published

2023

14. Biotechnological Basis of the Pulp and Paper Industry Circular Economic System.

Author

Kvasha, Nadezhda, Bolotnikova, Olga, and Malevskaia-Malevich, Ekaterina

Subjects

PAPER industry, PAPER recycling, ECONOMIC systems, WASTE paper, SCIENTIFIC method, HETERODOX economics, BIOECONOMICS

Abstract

To ensure development sustainability, the linear economic approach is being transformed into a cyclical model. For the pulp and paper industry (PPI), which occupies a significant place in the Russian economy, the shift of circular principles to the field of bioeconomics is becoming more important. This requires the development of basic biotechnological approaches implemented in closed cycles (biorefining). The aim of this study was to develop the biotechnological foundations of the circular economic system of the pulp and paper industry. To achieve the goal, the factors for the implementation of the circular mechanism in the pulp and paper industry were established. The composition of pulp and paper waste was systematized, taking into account the places of their occurrence; the directions and forms of the biorefining of pulp and paper secondary renewable resources were determined; and the principal possibility of obtaining bioethanol, based on the whole complex of sugars from cellulose production wastes, is shown. A wide range of general scientific methods was involved (analysis, synthesis, classification, modeling, etc.). Statistical methods were used to process experimental results in the field of pulp and paper waste bioconversion. The biotechnologies involved included methods of destruction, detoxification, and conversion of useful resources into secondary raw materials and final products. From the standpoint of the environmental approach, there are serious efficiency imbalances in the pulp and paper industry, which justify the implementation of circular mechanisms for organizing economic systems. The overall efficiency is ensured by the use of renewable resources and obtaining environmental effects. Algorithms and parameters of green biotechnological regulations for pulp and paper industry waste recycling provide the possibility of microbiological production of a complex of products: biocomposites, bioplastics, medical products, fertilizers, feed additives, vitamin supplements, and bioenergy resources. A strategy for the efficient biochemical processing of pulp and paper waste into green ethanol was determined. The possibility of increasing the efficiency of alcoholic fermentation using various biocatalysts was experimentally confirmed. The technological features of this method, associated with the need for microaerobic fermentation modes, were determined. [ABSTRACT FROM AUTHOR]

Published

2023

15. Paper-Mill Wastes for Bioethanol Production in Relation to Circular Economy Concepts: A Review

Author

Dafna Or-Chen, Yoram Gerchman, Hadas Mamane, and Roi Peretz

Subjects

paper-mill wastes, bioethanol, waste management, waste-to-energy, circular economy, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This review explores circular economy principles in regard to ethanol production from paper-mill sludge. Environmental sustainability and renewability over fossil fuels make second generation ethanol an attractive energy source in a rapidly growing population and consumption world. Paper sludge (PS), a by-product of the pulp and paper (P&P) industry, can no longer be recycled for paper production and is mainly disposed of in landfills. Therefore, it poses a major environmental challenge. However, it has shown potential as a valuable raw material for ethanol production, along with other pulp and paper products, due to its abundant availability and high cellulosic content. This waste-to-energy (WtE) technology for ethanol production is proposed as an alternative, aligning with circular economy concepts to maximize resource efficiency and minimize waste. This review underlines the circular economy aspects of bioethanol production within paper mill sludge management systems. Circular economy principles applied to ethanol production from PS offer a promising avenue for sustainable biofuel development that not only addresses waste management challenges but also enhances the overall environmental performance of biofuel production. Furthermore, economic benefits are described, highlighting the potential for job creation and community development.

Published

2024

16. Biotechnological Basis of the Pulp and Paper Industry Circular Economic System

Author

Nadezhda Kvasha, Olga Bolotnikova, and Ekaterina Malevskaia-Malevich

Subjects

pulp and paper industry, circular economy, biorefining, recycling, bioethanol, Economics as a science, HB71-74

Abstract

To ensure development sustainability, the linear economic approach is being transformed into a cyclical model. For the pulp and paper industry (PPI), which occupies a significant place in the Russian economy, the shift of circular principles to the field of bioeconomics is becoming more important. This requires the development of basic biotechnological approaches implemented in closed cycles (biorefining). The aim of this study was to develop the biotechnological foundations of the circular economic system of the pulp and paper industry. To achieve the goal, the factors for the implementation of the circular mechanism in the pulp and paper industry were established. The composition of pulp and paper waste was systematized, taking into account the places of their occurrence; the directions and forms of the biorefining of pulp and paper secondary renewable resources were determined; and the principal possibility of obtaining bioethanol, based on the whole complex of sugars from cellulose production wastes, is shown. A wide range of general scientific methods was involved (analysis, synthesis, classification, modeling, etc.). Statistical methods were used to process experimental results in the field of pulp and paper waste bioconversion. The biotechnologies involved included methods of destruction, detoxification, and conversion of useful resources into secondary raw materials and final products. From the standpoint of the environmental approach, there are serious efficiency imbalances in the pulp and paper industry, which justify the implementation of circular mechanisms for organizing economic systems. The overall efficiency is ensured by the use of renewable resources and obtaining environmental effects. Algorithms and parameters of green biotechnological regulations for pulp and paper industry waste recycling provide the possibility of microbiological production of a complex of products: biocomposites, bioplastics, medical products, fertilizers, feed additives, vitamin supplements, and bioenergy resources. A strategy for the efficient biochemical processing of pulp and paper waste into green ethanol was determined. The possibility of increasing the efficiency of alcoholic fermentation using various biocatalysts was experimentally confirmed. The technological features of this method, associated with the need for microaerobic fermentation modes, were determined.

Published

2023

17. Sustainability Evaluation of a Paper and Pulp Industrial Waste Incorporation in Bituminous Pavements.

Author

Simões, Fábio, Rios-Davila, Francisco-Javier, Paiva, Helena, Morais, Miguel, and Ferreira, Victor M.

Subjects

BITUMINOUS pavements, PAPER pulp, INDUSTRIAL wastes, CIRCULAR economy, SUSTAINABILITY, CRUMB rubber

Abstract

The valorization of wastes as an alternative or secondary raw material in various products and processes has been a solution for the implementation of sustainability, a safer environment, and the concept of circular economy in the efficient use and management of natural resources. To promote sustainability through a circular economy approach, this work tries to demonstrate the environmental gains that are obtained by bringing together, in an industrial symbiosis action, two large industrial sectors (the pulp and paper and the road pavement sectors) responsible for generating large amounts of wastes. A sustainability assessment, based on a life cycle and circular economy approach, is presented here, and discussed using a simple case study carried out on a real scale. Two wastes (dregs and grits) from the pulp and paper industry (PPI) were used to partially replace natural fine aggregates in the production of bituminous mixtures used on the top surface of road pavements. The impacts at a technical, environmental, economic, and social level were assessed and it was shown that this simple waste valorization action is not only positive for the final product from a technical point of view, but also for the environment, causing positive impacts on the different sustainability dimensions that were evaluated. [ABSTRACT FROM AUTHOR]

Published

2024

18. Circular economy of shopping bags in emerging markets: A demographic comparative analysis of propensity to reuse plastic bags versus cotton bags and paper bags.

Author

Mukucha, Paul, Jaravaza, Divaries Cosmas, and Nyengerai, Sarah

Subjects

*PAPER bags, *PLASTIC recycling, *CIRCULAR economy, *SHOPPING bags, *PLASTIC bags, *COTTON

Abstract

This study seeks to profile the shoppers' propensity to reuse shopping bags and the type of shopping bags they reuse on the basis of demographics. The study used an observation method to record the consumers' shopping habits and a short questionnaire to record the participants' demographics. A binary regression analysis and a multinomial regression analysis were used to analyse data. The results indicated that the mature aged, women, and low income shoppers were more likely to practice reuse of plastic shopping bags than their respective counterparts. There were no statistically significant differences in the likelihood of young aged shoppers compared to mature aged shoppers and low income shoppers compared to high income shoppers using cotton bags than plastic bags. There were also no statistically significant differences in the likelihood of young aged shoppers compared to mature aged shoppers and male shoppers compared to female shoppers using paper bags than plastic bags. However, the results indicated a statically significant result in how males compared to females differed in their using of cotton bags than plastic bags and a statistically significant result in how low income shoppers compared to high income shoppers differed in their use of paper bags than plastic bags. [ABSTRACT FROM AUTHOR]

Published

2023

19. Preparation and Properties of Waste Corrugated Paper Fiber/Polylactic Acid Co-Extruded Composite.

Author

Su, Jian, Yang, Mannan, Zhang, Xiaomei, Fang, Changqing, Zheng, Yamin, Pei, Lu, and Liu, Ming

Subjects

*POLYLACTIC acid, *WASTE paper, *PAPER recycling, *CIRCULAR economy, *PLANT fibers, *DEFORMATIONS (Mechanics), *WASTE recycling

Abstract

In order to explore the methods of recycling waste paper, reduce environment pollution, and develop a circular economy, the application of waste corrugated paper to the strengthening of polylactic acid (PLA) was studied. Plant fiber from waste corrugated paper (WCPF) was used to prepare WCPF/PLA composite via co-extrusion. The WCPF was extracted from the waste corrugated paper by beating in a Valli beating machine and grinding in a disc grinder. KH-550 coupling agent was used to modify the surface of WCPF to improve the interface adhesive strength between the WCPF and PLA matrix. The effects of the contents of WCPF and KH-550 coupling agent on the mechanical properties, microstructure, crystallization properties, and thermostability of the WCPF/PLA composite were studied. The results show that the WCPF can be well separated from each other. The WCPF can be uniformly dispersed in the PLA matrix through a co-extrusion process. WCPF can increase the mechanical strength and deformation resistance ability of WCPF/PLA composite, and KH-550 coupling agent can further improve that of the WCPF/PLA composite. This study is of obvious significance to the recycling of waste paper and the development of a circular economy. [ABSTRACT FROM AUTHOR]

Published

2022

20. The Circular Economy: An Exploratory Case Study from the Paper and Retail Industries

Author

Peter Jones and Daphne Comfort

Subjects

circular economy, case study, paper industry, retail industry, greenwash, economic growth, Regional economics. Space in economics, HT388

Abstract

Recent decades have witnessed increasing interest in the concept of the circular economy within both the business world and political circles. The circular economy spans the entire life cycle of products from product design through production, marketing, and consumption, to waste management, recycling, and re-use, and enthusiasm for putting the concept into practice has been identified across different sectors of the economy. This exploratory case study reviews how some of the leading companies in the paper and retail industries, have publicly addressed the circular economy. The case study outlines the nature of the circular economy, provides a cameo literature review of published work on the circular economy, describes the approach adopted for the case study, reports the findings of the review of how the leading companies in the paper and retail industries have addressed the circular economy, and discusses some wider issues.

Published

2021

21. Erythrosine–Dialdehyde Cellulose Nanocrystal Coatings for Antibacterial Paper Packaging

Author

Shih-Chen Shi, Sing-Wei Ouyang, and Dieter Rahmadiawan

Subjects

photodynamic antibacterial, cellulose, biopolymer, circular economy, Organic chemistry, QD241-441

Abstract

Though paper is an environmentally friendly alternative to plastic as a packaging material, it lacks antibacterial properties, and some papers have a low resistance to oil or water. In this study, a multifunctional paper-coating material was developed to reduce the use of plastic packaging and enhance paper performance. Natural cellulose nanocrystals (CNCs) with excellent properties were used as the base material for the coating. The CNCs were functionalized into dialdehyde CNCs (DACNCs) through periodate oxidation. The DACNCs were subsequently complexed using erythrosine as a photosensitizer to form an erythrosine–CNC composite (Ery-DACNCs) with photodynamic inactivation. The Ery-DACNCs achieved inactivations above 90% after 30 min of green light irradiation and above 85% after 60 min of white light irradiation (to simulate real-world lighting conditions), indicating photodynamic inactivation effects. The optimal parameters for a layer-by-layer dip coating of kraft paper with Ery-DACNCs were 4.5-wt% Ery-DACNCs and 15 coating layers. Compared to non-coated kraft paper and polyethylene-coated paper, the Ery-DACNC-coated paper exhibited enhanced mechanical properties (an increase of 28% in bursting strength). More than 90% of the bacteria were inactivated after 40 min of green light irradiation, and more than 80% were inactivated after 60 min of white light irradiation.

Published

2024

22. The Reinforcing Effect of Waste Corrugated Paper Fiber on Polylactic Acid.

Author

Su, Jian, Jiang, Zhiwei, Fang, Changqing, Zheng, Yamin, Yang, Mannan, Pei, Lu, and Huang, Zhigang

Subjects

*WASTE paper, *PAPER recycling, *POLLUTANTS, *POLYLACTIC acid, *WASTE recycling, *CIRCULAR economy

Abstract

To improve the recycle value of waste paper and promote circular economic development, waste corrugated paper fiber (WCPF) was used as a reinforcing agent to prepare waste corrugated paper fiber/polylactic acid (WCPF/PLA) composites via dichloromethane solvent which can be reused. The WCPF in the waste corrugated paper is extracted by beating in a Valli beating machine for different time lengths and grinding in a disc grinder. The effects of beating time and the content of WCPF on the microstructure, mechanical properties, thermal decomposition process, and crystallization properties of the WCPF/PLA composite were studied. The result shows that the WCPF can be well separated from each other and can be evenly dispersed in the PLA matrix. When 25 wt% WCPF which was beat for 30 min was used, the composite has the greatest improvement in tensile property. This study provides a new process for the recycling of waste paper in the application of polymer reinforcement. The research on waste paper fiber and degradable polymer composite is of great significance for reducing environmental pollutants and developing circular economy. [ABSTRACT FROM AUTHOR]

Published

2022

23. Sustainable Materials from Waste Paper: Thermal and Acoustical Characterization

Author

Stefania Liuzzi, Chiara Rubino, Francesco Martellotta, and Pietro Stefanizzi

Subjects

thermal properties, acoustic performances, paper waste, sustainability, energy efficiency, circular economy, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A growing research interest currently exists in the use of paper as a building material. This work aims to present the results of a measurement campaign developed on innovative waste paper-based building components. The research was carried out in Southern Italy and used some local by-product aggregates. Three different mixture designs were developed in the laboratory by adding three kinds of biomass to a pulp paper blend: fava bean residues (FB), sawdust powder (SP) and coffee grains (CG) extracted from exhausted chaffs. A physical characterization was carried out measuring the bulk density and bulk porosity. Scanning Electron Microscopy (SEM) analysis of the single aggregates was followed by a microstructure analysis of the final components. Bulk density evaluation showed a range between 200 and 348 kg·m−3. Furthermore, thermal performances were measured; the thermal conductivity of the experimented samples ranged from 0.071 to 0.093 W·m−1·K−1, thus it is possible to classify the tested materials as thermal insulators. Moreover, the acoustic properties were evaluated and tested. The normal incidence sound absorption coefficient was measured by the impedance tube on cylindrical specimens. In general, a different behavior was observed between the upper and lower base of each specimen due to the manufacturing process and the shrinkage caused by the different interactions occurring between the aggregates and the pulp paper waste; for example, the presence of sawdust reduced shrinkage in the final specimens, with consequent smaller physical variations among the two faces. The correlation existing between the manufacturing process and the microstructural properties was also investigated by the estimation of the non-acoustical parameters using the inverse method and taking into account the JCA (Johnson, Champoux and Allard) model as a reference.

Published

2023

24. On the Conversion of Paper Waste and Rejects into High-Value Materials and Energy.

Author

Abushammala, Hatem, Masood, Muhammad Adil, Ghulam, Salma Taqi, and Mao, Jia

Abstract

The pulp and paper industry (PPI) is a major contributor to the global economy, but it also poses a challenge for waste disposal, as it generates large amounts of several waste streams. Among these, paper rejects are generated during the papermaking process and could account for up to 25% of the produced paper. Moreover, hundreds of millions of tons of paper are produced annually that end up in landfills if not burnt or recycled. Furthermore, the PPI significantly contributes to climate change and global warming in the form of deforestation and water and air pollution. Therefore, the impact of this industry on the sustainability of natural resources and its adverse environmental health effects requires special attention. This review focuses on discussing the sustainable routes to utilize paper waste and rejects from the PPI towards a circular economy. At first, it discusses the industry itself and its environmental impact, followed by the possible sustainable approaches that can be implemented to improve papermaking processes as well as waste management systems, including paper recycling. The literature indicates that paper recycling is crucial because, if appropriately designed, it significantly lowers greenhouse gas emissions, water and resources consumption, and manufacturing costs. However, several concerns have surfaced about the different chemicals that are used to improve recycling efficiency and recycled paper quality. Furthermore, paper recycling is limited to up to seven times. This review, therefore, goes on to highlight several sustainable waste management routes for paper waste utilization other than recycling by emphasizing the concept of converting paper waste and rejects into energy and high-value materials, including biofuels, biohydrogen, biomethane, heat, nanocellulose, hydrochar, construction materials, and soil amendments. Both the benefits and shortcomings of these waste management routes and their applications are discussed. It becomes clear from this review that sustainable management solutions for paper waste and rejects are implementable, but further research and development are still needed. [ABSTRACT FROM AUTHOR]

Published

2023

25. Boosting the Circular Manufacturing of the Sustainable Paper Industry – A First Approach to Recycle Paper from Unexploited Sources such as Lightweight Packaging, Residual and Commercial Waste.

Author

Burggräf, Peter, Steinberg, Fabian, Sauer, Carl René, Nettesheim, Philipp, Wigger, Marius, Becher, Alexander, Greiff, Kathrin, Raulf, Karoline, Spies, Alena, Köhler, Hannah, Huesmann, Robin, Atapin, Alexander, Kaufeld, Sebastian, Krolle, Arne, Faul, Andreas, Winter, Jens, Küppers, Bastian, and Ludes, Annika

Abstract

In the past decades, the German paper industry has been increasing the sustainability of paper production by continuously using more recovered paper. Today, recovered paper is an essential secondary raw material to produce new paper. Nevertheless, around 20 % of the paper produced in Germany is still not returned to the recovered paper stream and instead is mostly thermally used. To further increase the use of fibers from recovered paper as secondary raw material and thus, to reduce primary energy consumption and greenhouse gas emissions, new approaches to recycle recovered paper from mixed waste streams are needed. In the research project "Energy savings in paper production by opening up the value chains of recovered paper from lightweight packaging, residual waste and commercial waste" (EnEWA), a treatment process is developed to recover and recycle recovered paper from the mentioned waste streams. The advanced mechanical process to be newly developed consists of dry-mechanical sorting, the manufacturing of economically usable secondary raw materials (defibration), their wet-mechanical dissolution, separation and hygienization and finally their reuse in paper production. This enables the exploitation of new waste streams in material recycling and thus contributes to reduced energy consumption as well as CO2 emissions within the circular economy. Initial material characterization analyses show that on the one hand the quality of the paper discarded in mixed waste streams is sufficient to be used as secondary raw material and that on the other hand up to 50 % of the paper discarded could have been disposed of within the separate paper collection. The results are incorporated in the development of a sorting process for pre-concentrates, which serves as input material for the treatment process to recover paper fibers. In further steps, the results generated will be integrated, for instance, into the future development of the minimum standard for packaging recycling. [ABSTRACT FROM AUTHOR]

Published

2023

26. Transparent Structures for ZnO Thin Film Paper Transistors Fabricated by Pulsed Electron Beam Deposition.

Author

Gherendi, Florin, Dobrin, Daniela, and Nistor, Magdalena

Subjects

THIN film transistors, ELECTRON beam deposition, INDIUM gallium zinc oxide, ZINC oxide films, ELECTRON beams, FLEXIBLE display systems, CIRCULAR economy, THRESHOLD voltage

Abstract

Thin film transistors on paper are increasingly in demand for emerging applications, such as flexible displays and sensors for wearable and disposable devices, making paper a promising substrate for green electronics and the circular economy. ZnO self-assembled thin film transistors on a paper substrate, also using paper as a gate dielectric, were fabricated by pulsed electron beam deposition (PED) at room temperature. These self-assembled ZnO thin film transistor source–channel–drain structures were obtained in a single deposition process using 200 and 300 µm metal wires as obstacles in the path of the ablation plasma. These transistors exhibited a memory effect, with two distinct states, "on" and "off", and with a field-effect mobility of about 25 cm2/Vs in both states. For the "on" state, a threshold voltage (Vth on = −1.75 V) and subthreshold swing (S = 1.1 V/decade) were determined, while, in the "off" state, Vth off = +1.8 V and S = 1.34 V/decade were obtained. A 1.6 μA maximum drain current was obtained in the "off" state, and 11.5 μA was obtained in the "on" state of the transistor. Due to ZnO's non-toxicity, such self-assembled transistors are promising as components for flexible, disposable smart labels and other various green paper-based electronics. [ABSTRACT FROM AUTHOR]

Published

2024

27. Multilayer Sheets Based on Double Coatings of Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) on Paper Substrate for Sustainable Food Packaging Applications

Author

Eva Hernández-García, Pedro A. V. Freitas, Pedro Zomeño, Chelo González-Martínez, and Sergio Torres-Giner

Subjects

paper, PHBV, multilayers, food packaging, Circular Economy, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This work reports on the development and performance evaluation of newly developed paper sheets coated, on both sides, with thin films of biodegradable poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) for applications of food packaging. For this, PHBV/paper/PHBV multilayers were first prepared by the thermo-sealing technique, optimizing the process variables of temperature and time. Thereafter, the multilayer sheets were characterized in terms of their morphological, optical, thermal, mechanical, and barrier properties and compared with equivalent paper structures double coated with high-barrier multilayer films of petrochemical polymers. The results indicated that the double coatings of PHBV successfully improved the mechanical resistance and ductility, protected from moisture, and also reduced the aroma and oxygen permeances of paper, having a minimal effect on its optical and thermal properties. Finally, the compostability of the resultant multilayer sheets was analyzed, confirming that the presence of the PHBV coatings slightly delayed the aerobic biodegradation and disintegration of paper.

Published

2022

28. Sustainable Materials from Waste Paper: Thermal and Acoustical Characterization.

Author

Liuzzi, Stefania, Rubino, Chiara, Martellotta, Francesco, and Stefanizzi, Pietro

Subjects

WASTE paper, WASTE products, FAVA bean, PAPER pulp, ABSORPTION of sound

Abstract

A growing research interest currently exists in the use of paper as a building material. This work aims to present the results of a measurement campaign developed on innovative waste paper-based building components. The research was carried out in Southern Italy and used some local by-product aggregates. Three different mixture designs were developed in the laboratory by adding three kinds of biomass to a pulp paper blend: fava bean residues (FB), sawdust powder (SP) and coffee grains (CG) extracted from exhausted chaffs. A physical characterization was carried out measuring the bulk density and bulk porosity. Scanning Electron Microscopy (SEM) analysis of the single aggregates was followed by a microstructure analysis of the final components. Bulk density evaluation showed a range between 200 and 348 kg·m−3. Furthermore, thermal performances were measured; the thermal conductivity of the experimented samples ranged from 0.071 to 0.093 W·m−1·K−1, thus it is possible to classify the tested materials as thermal insulators. Moreover, the acoustic properties were evaluated and tested. The normal incidence sound absorption coefficient was measured by the impedance tube on cylindrical specimens. In general, a different behavior was observed between the upper and lower base of each specimen due to the manufacturing process and the shrinkage caused by the different interactions occurring between the aggregates and the pulp paper waste; for example, the presence of sawdust reduced shrinkage in the final specimens, with consequent smaller physical variations among the two faces. The correlation existing between the manufacturing process and the microstructural properties was also investigated by the estimation of the non-acoustical parameters using the inverse method and taking into account the JCA (Johnson, Champoux and Allard) model as a reference. [ABSTRACT FROM AUTHOR]

Published

2023

29. Valorization of aquatic plant biomass resource to fortified biochar and paper pulp: A strategic approach towards closed-loop technologies, circular economy, and sustainability.

Author

Singh, Pooja, Dhanorkar, Manikprabhu, and Sharma, Shreyansh

Subjects

PLANT biomass, CIRCULAR economy, AQUATIC plants, PAPER pulp, RESTORATION ecology, PEARL millet, BIOCHAR

Abstract

Duckweed, a floating freshwater plant, is an excellent phytoremediator used in wastewater treatment and ecosystem restoration. However, the large amount of plant biomass generated presents a bigger problem. This work highlights our efforts towards sustainable waste management of aquatic plant biomass by way of waste recycling and valorization. Novel paper pulp from duckweed biomass yielded various pulp-based products including handmade paper, packing materials and packing board. Paper produced was found to have 139 g/m2 and 6–14 N/1.5 cm gram per square meter and tensile strength respectively. Biochar obtained from the biomass after pyrolysis exhibited 23.9 nm to 49.49 nm pore size and was used to formulate novel soil conditioners that increased the seed vigour of fenugreek, green gram, wheat and pearl millet by 53.41, 87.98, 148.25 and 122.41 % respectively. Thus, two novel applications of a waste biomass were successfully established, concomitantly establishing sustainability and circularity in waste aquatic biomass management. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

30. Advancing sustainability in China's pulp and paper industry requires coordinated raw material supply and waste paper management.

Author

Dai, Min, Sun, Mingxing, Chen, Bin, Xie, Hongyi, Zhang, Dingfan, Han, Zhixiu, Yang, Lan, and Wang, Yutao

Subjects

WASTE paper, WASTE management, PAPER industry, RAW materials, ORGANIC wastes, SUSTAINABILITY, PAPER recycling

Abstract

• A closed-loop material flow analysis model is established for China's pulp and paper industry (CPPI), followed by a comprehensive quantitative analysis from both retrospective and prospective perspectives. • By implementing sound plans and stricter regulations and standards, China has improved recycling and material use efficiency, reduced the organic material with wastewater, and shifted towards recovered paper as a raw material over non-wood fiber. • Lowering the waste paper recycling rate to increase carbon storage is not suitable for China, due to the limited virgin fiber and growing demand. • The growing paper demand requires efforts from both ends of virgin fiber supply and waste paper management towards the sustainable development of CPPI. As the largest global producer and consumer of pulp and paper, China faces significant sustainability challenges in fiber supply and waste paper management. A comprehensive material flow analysis of China's pulp and paper industry (CPPI) is needed to understand the interaction between raw material supply and waste paper management. Here, we construct a closed-loop material flow analysis model for CPPI, examine the evolution patterns of material metabolism from 1990 to 2019, and explore the demand for paper production, waste paper recycling, and virgin fiber supply in 2030 and 2050 under multiple scenarios considering critical factors. Results show that the industry has undergone rapid expansion, increased material use efficiency, and a shift towards recycled pulp from 1990 to 2019. China's paper demand will grow to 186 Mt in the next 30 years, resulting in a significant increase in both demand for fibers (173 Mt) and the generation of waste paper (138 Mt). To ensure a sustainable fiber supply for CPPI, domestic waste paper recycling needs to be prioritized. However, attention should also be paid to the availability of virgin pulp supply and proper disposal of organic solid waste. Proper management of these factors is crucial for achieving a circular economy in the industry and reducing its environmental impact. The findings highlight the importance of addressing both raw material supply and waste paper management for CPPI's sustainable development. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

31. Nachhaltige Entwicklungsziele – Der Beitrag der Montanuniversität zur Erstellung eines Optionenpapiers für die österreichische Bundesregierung

Author

Trummer, Patrick

Published

2021

32. CIRCULAR SOLUTIONS FOR FOOD PACKAGING. INNOVATIVE COATED PAPER PACKAGING AND ITS CARBON FOOTPRINT.

Author

NITKIEWICZ, Tomasz, WISZUMIRSKA, Karolina, and RYCHWALSKI, Marcin

Subjects

FOOD packaging, ECOLOGICAL impact, LIFE cycles (Biology), SEALS (Closures), PACKAGING materials

Abstract

Purpose: The strive towards circularity within the packaging sector has been an ever-growing challenge. Regular paper seem to be a good solution due to its natural and renewable origins and relative ease in its end-of-life processing. Food products require defined barrier and mechanical properties and seal functions that cannot be provided by regular paper or cardboard. The underlying objective of the paper is to indicate the best scenarios with regard to circularity challenge. Possibly, the implementation of innovative, highly functional, and recyclable coated paper/cardboard materials for food packaging applications would allow to replace traditional multi-layered plastics. Design/methodology/approach: The objective of the paper is to verify the environmental performance of selected coated paper material over its counterparts from multi-layered plastics with the use of the Carbon Footprint approach (CF). CF is used to compare the environmental impacts of a chocolate tablet life cycle with the use of different packaging materials: coated paper (CPCS) and oriented polypropylene (oPP). A special focus is on the recyclability issue of the packaging materials and their contribution to overall environmental performance. Findings: The results show that CPCS packaging has a slightly lower CF. Overall, CPCS packaging is contributing half of CF in comparison to oPP packaging. The difference is higher as far as packaging manufacturing is concerned, but due to the higher weight of CPCS packaging for chocolate tablets, its contribution to CF in whole life cycle rises. Research limitations/implications: Since the assessment is made during the packaging testing process, its results are not yet final and could be due to change if the composition of CPCS will due to some further changes. Secondly, the shelf life tests are not finished yet and do not impact the life cycle so far. Originality/value: The study is focused on the assessment of innovative coated paper packaging and investigates its CF in comparison to currently used packaging material for chocolate tablets. Its results could contribute to the selection of more sustainable and circular packaging. [ABSTRACT FROM AUTHOR]

Published

2023

33. Simultaneous recovery and retention of fluoride resources using esterified cellulose filter papers loaded with environmentally friendly calcium and magnesium extracted from seawater.

Author

Qin, Kun, Hung, Ci-Jing, Liao, Yasi, Kuan, Chia-Ching, Wang, TsingHai, Guan, Chung-Yu, and Chen, Ching-Lung

Subjects

*FILTER paper, *ELECTRIC double layer, *SEAWATER, *CIRCULAR economy, *CELLULOSE, *ALKALINE earth metals

Abstract

[Display omitted] • Mining seawater C a 2 + and M g 2 + for recovering F - was proposed. • This was achieved through the high affinity between carboxyl and C a 2 + / M g 2 + . • The C a F 2 / M g F 2 colloids were recovered and retained by the filter papers. • Additional flocculation was avoided. Resource reclamation with low carbon emissions is highly desirable from the perspective of the circular economy. We propose a green solution in this study, which involves mining calcium and magnesium from seawater as an effective reagent for the recovery of valuable fluoride. This was achieved by esterifying the cellulose filter papers with citric acid to associate carboxyl groups onto their surfaces. Consequently, the high affinity between the carboxyl group and alkaline earth elements enabled efficient and selective loading of C a 2 + (0.193 ± 0.001 mmol- C a 2 + /g) and M g 2 + (0.127 ± 0.001 mmol- M g 2 + /g) onto the filter papers, reaching up to 96% and 60% of the available active sites, respectively. When applied in natural seawater, the esterified filter papers successfully captured both C a 2 + (0.110 ± 0.007 mmol- C a 2 + /g) and M g 2 + (0.078 ± 0.005 mmol- M g 2 + /g) simultaneously. The presence of IR singlet symmetric (ν s COO, ≈ 1450 cm−1) stretching vibrations indicated that both C a 2 + and M g 2 + ions were complexed with carboxyl groups in a bridging unidentate mode. The adsorption capacity of C a 2 + and M g 2 + was likely influenced by the varying thickness of their hydration shells within the highly overlapped electric double layers presented in the micropores of the esterified filter papers. The papers loaded with C a 2 + and M g 2 + were subsequently utilized for fluoride recovery in simulated HF wastewater. The formation of C a F 2 / M g F 2 colloids effectively recovered the stoichiometric amount of fluoride (C a F 2.46 and M g F 1.72), which were retained on the surface of the filter papers. Additional flocculation for colloid separation is thus avoided, resulting in a significant increase in the content of reclaimed fluoride. Increasing the density of associated carboxyl groups is crucial for effectively complexing a greater amount of seawater C a 2 + / M g 2 + and, consequently, enhancing the capacity of fluoride reclamation by esterified filter papers. [ABSTRACT FROM AUTHOR]

Published

2023

34. Potential energy generation of sludge from a thermomechanical pulp (TMP) mill

Author

Rodrigues, Bruna Virgínia Cunha, Carneiro, Angelica de Cássia Oliveira, Torres, Caio Moreira Miquelino Eleto, Caldeira, Daiane Cristina Diniz, Demuner, Iara Fontes, and Silva, Claudio Mudadu

Published

2024

35. Co-valorization of discarded wood pinchips and sludge from the pulp and paper industry for production of advanced biofuels.

Author

Romaní, Aloia, Del-Río, Pablo G., Rubira, Alexandre, Pérez, María José, and Garrote, Gil

Subjects

*WOOD, *PAPER industry, *WOOD chips, *ETHANOL, *LIGNIN structure, *BIOMASS energy, *LIGNOCELLULOSE, *CIRCULAR economy

Abstract

Several lignocellulosic wastes are generated in the pulp and paper industry (PPI), such as small wood chips (pinchips) and paper sludge, presenting a high cellulose content suitable to be converted into biofuels or bio-products in a forest biorefinery scheme. In this work, two schemes of biorefinery were proposed for their valorization, processing small eucalyptus wood pinchips in two different strategies: (i) autohydrolysis at 230ºC, and (ii) autohydrolysis at 195ºC followed by organosolv process (47.7% ethanol-water, 198ºC for 60 min). More than 95% of cellulose was recovered in both schemes. In the combined process, 76% of delignification was achieved and 78% of xylan was solubilized as xylooligosaccharides. To reduce operational cost of lignocellulosic biomass-to-ethanol fermentation, the mixture of the treated eucalyptus pinchips from two processes with sludge was also proposed to increase the initial glucan content and to supply a rich source of nitrogen (present in the sludge). For that, two experimental designs were carried out for ethanol production by simultaneous saccharification and fermentation (SSF) process. Ethanol from SSF assays using sludge as co-substrate at 0.6 g of sludge/g of treated wood pinchips and 16 FPU/g of pretreated solids allowed to obtain 59 g/L (90% of conversion) and 46 g/L (96% of conversion) when blended with the wood from autohydrolysis and with the wood from autohydrolysis followed by organosolv, respectively. Overall, this study shows an alternative process valorization of biomasses derived from PPI for production of advanced biofuels and bio-products (such as xylooligosaccharides and lignin) contributing to achieving a circular economy. • Multi-waste valorization approach was proposed to produce biofuel and bioproducts. • Autohydrolysis and organosolv processes allowed > 90% glucan recoveries. • Higher than 40 g/L of ethanol and 90% of yield were obtained in both schemes developed. • Blending with sludge improve ethanol production from pretreated eucalyptus wood. [ABSTRACT FROM AUTHOR]

Published

2024

36. 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

37. A Way to Improve Recycling Potential of Fibers and to Achieve Circular Economy.

Author

Bok Jin Lee and Ko, Peter

Subjects

CIRCULAR economy, FIBERS, RECYCLED paper, CARDBOARD, PAPER recycling

Abstract

Even though the recycling of paper and paperboard is quite successful when compared to the recycling of other resources, there are many things to improve. Recovering the used paper and paperboard without contamination and sending it back to the papermill that produced it would enhance the recycling potential and efficiency of recovered fiber resources. Close collaboration between a paper and packaging company and a logistics company has made a big improvement in recycling and achieved the circular economy of fiber resources. It is time to find better ways to collaborate, thereby improving our capability to keep our planet green. [ABSTRACT FROM AUTHOR]

Published

2024

38. Nazi German waste recovery and the vision of a circular economy: The case of waste paper and rags.

Author

Weber, Heike

Subjects

WASTE recycling, WASTE paper, CIRCULAR economy, WASTE salvage, NAZI Germany, 1933-1945, GENOCIDE, PAPER recycling

Abstract

In Nazi Germany (1933–45), reclaiming waste became an intrinsic component of the regime's economy as well as its ideological, racial, and expansionist ambitions. National Socialist interventions into waste streams began in 1934 with salvage campaigns. The state then brought urban waste policies and municipal waste services under its control, restructuring and 'Aryanising' the waste salvage trade. Moreover, both consumers and producers were prompted to collect and reprocess waste. Over time, the gradual expansion of the Nazi waste recovery policies and campaigns – here referred to as the 'Nazi waste exploitation regime' – brought forth a determined vision of a circular economy in which no waste whatsoever should escape its reclamation for the national community or Volksgemeinschaft. This article sketches the actors, structures, and objectives of this waste exploitation regime for the case of rags and paper and uncovers its entanglement with Nazi racist and genocidal ideology and expansionism. [ABSTRACT FROM AUTHOR]

Published

2022

39. TREES OF LIFE: South Africa's paper industry is becoming a successful example of the circular economy.

Author

MACLARTY, ROBYN

Subjects

PAPER industry & the environment, CIRCULAR economy, PAPER product manufacturing, SUSTAINABILITY, RECYCLING & the environment, WASTE recycling

Abstract

The article discusses how the paper and forestry industries in South Africa are becoming a successful example of the circular economy and representing a sustainable approach to paper-product manufacturing. Topics include the views of Edith Leeuta, Chief executive officer of Fibre Circle, on the contribution of the pulp and paper sector to the economy; and how the paper products need to be kept separate from wet waste and moisture to retain the fibre integrity for efficient recycling.

Published

2022

40. Closed loop recycling of electrically damaged meta-aramid papers with high electrical insulation and mechanical strength.

Author

Lv, Fangcheng, Fu, Lvqian, Wang, Qibin, Sun, Kaixuan, Yang, Rui, Fan, Sidi, and Yu, Xiang

Subjects

*ELECTRIC insulators & insulation, *ELECTRIC breakdown, *WASTE paper, *CIRCULAR economy, *INSULATING materials, *HONEYCOMBS, *PAPER recycling

Abstract

High-performance aramid papers are ideal insulating materials in the electric industry, due to their superior mechanical strength and insulation capabilities. However, when subjected to prolonged high-voltage and high-power operations, these papers are prone to electrical damage, such as breakdown or corona aging. Unfortunately, most damaged aramid papers are viewed as mere waste, discarded through landfill or other unsustainable disposal methods. It is not only contrary to circular economy principles but also poses a significant environmental threat due to the potential for pollution. Herein, a closed-loop recycling strategy is proposed that efficiently and effectively reclaims electrically damaged meta-aramid papers. Using the DMAc/LiCl deprotonation system, waste aramid papers are completely decomposed into molecular chains, exposing carbon residues resulting from electrical breakdown. These carbon residues are removed through a step-by-step purification process. A reprotonation treatment is then applied to regenerate new meta-aramid papers by reforming the intermolecular hydrogen bonds. This approach not only fully restores the original honeycomb-like structure but also ensures the crystallization and hydrogen bond content, maintaining both electrical and mechanical properties at above 90 % of their original values. Notably, our recycling method is also compatible with aramid-based composites, achieving exceptional recycling efficiency. [Display omitted] • Electrically damaged meta-aramid paper can be recycled in a closed loop. • The DMAc/LiCl system completely dissolves waste aramid into PMIA molecular chains. • Carbon residues induced by electrical breakdown can be removed by purification. • The synergistic conservation of electrical and mechanical properties exceeds 90 %. • Closed loop recycling strategy is also viable for inorganic-aramid composite paper. [ABSTRACT FROM AUTHOR]

Published

2024

41. E-Waste Management in Serbia, Focusing on the Possibility of Applying Automated Separation Using Robots.

Author

Nišić, Dragana, Lukić, Branko, Gordić, Zaviša, Pantelić, Uroš, and Vukićević, Arso

Subjects

ELECTRONIC waste, ELECTRONIC waste management, RECYCLING centers, PAPER recycling, ROBOTS, ROBOTICS, ELECTRONIC equipment

Abstract

To encourage proper waste management for electrical and electronic devices (e-waste), it is necessary to invest heavily in the development of recycling technologies. One way to improve the process is to automate separating the shredded parts of e-waste using a robot. This paper's literature review, utilizing the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) framework, showcases potential robotic technologies for e-waste separation. However, the intricate design of these devices can pose significant challenges in their implementation. Various legal, organizational, and sociological obstacles have left Serbia's e-waste management practice underdeveloped, resulting in an unsatisfactory recycling rate. In this paper, we examined the possibility of using robots in the precise example of recycling refrigerators in a recycling center in Eastern Serbia, concluding that such a solution would have multiple positive effects, both on the employees and the working environment, on the operations of the recycling center itself, and on increasing the e-waste recycling rate in the country. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Chen, Peixiu, Sauerwein, Meike, and Steuer, Benjamin

Subjects

*GREENHOUSE gases, *WASTE paper, *WASTE management, *CIRCULAR economy, *PAPER recycling, *CARBON offsetting, *GREENHOUSE gas mitigation, *CARBON nanofibers

Abstract

Waste paper disposed in landfills notably contributes to greenhouse gas (GHG) emissions and impedes more sustainable, circular alternatives, such as recycling. In Hong Kong, this unsustainable approach is currently dominant as 68% of waste paper products are treated in landfills in 2020. To contextualize the impact of local waste paper management and explore mitigation potentials of circular alternatives, this paper develops a quantitative assessment framework around GHG emissions development trajectories. Combining guidelines of the Intergovernmental Panel on Climate Change (IPCC), national GHG inventories, and local parameters from life cycle analysis, five GHG emissions projections were simulated along the Shared Socioeconomic Pathways (SSPs) until 2060. Most recent baselines indicate that Hong Kong's current waste paper treatment generated 638,360 tons CO 2 -eq in 2020, comprising 1,821,040 tons CO 2 -eq from landfill and 671,320 tons CO 2 -eq from recycling, and −1,854,000 tons CO 2 -eq from primary material replacement. Proceeding along a Business-as-Usual scenario under SSP5, GHG emissions will dramatically increase to a net 1,072,270 tons CO 2 -eq by 2060, whereas a recycling-intensive scenario will lead to a net saving of −4,323,190 tons CO 2 -eq. To complement the quantitative evidence on the benefits of waste paper recycling, field research was conducted to explore the feasibility of circular policy innovation from the perspective of recycling stakeholders. These empirical qualitative and quantitative findings from stakeholders' business routines and material transactions provide crucial indications for policy and institutional innovation: Essentially, for Hong Kong to improve waste paper recycling capacities and facilitate a circular economy (CE), local stakeholders require support via fiscal policy measures (financial subsidies or tax reductions) and infrastructure improvements (delivery access and material storage). In sum, this study employs a novel analytical framework combining original qualitative and quantitative evidence to provide policy innovation towards circular, GHG emission-saving waste paper management. [Display omitted] • A new framework assessing greenhouse gas emissions from waste paper treatment. • Exploring long-term carbon neutrality pathways for managing waste paper. • Using empirical evidence from recycling stakeholders for circular policy innovation. [ABSTRACT FROM AUTHOR]

Published

2023

43. Characterization of Cellulose Derived from Invasive Alien Species Plant Waste for Application in the Papermaking Industry: Physic-Mechanical, Optical, and Chemical Property Analysis.

Author

Iglesias, Antía, Cancela, Ángeles, Soler Baena, Ana, and Sánchez, Ángel

Subjects

INTRODUCED species, INTRODUCED plants, PAPER industry, ANALYTICAL chemistry, CHEMICAL properties, EUCALYPTUS

Abstract

Featured Application: Papermaking industry and technology. Innovative applications of vegetal residues. This study examines the potential of four invasive plant species, both arboreal and herbaceous, within the riparian forest of the Umia River in Galicia, a common ecosystem in northern Spain. These invasive species (Arundo donax, Phytolacca americana, Eucalyptus globulus, and Tradescantia fluminensis) were collected and assessed for their suitability as an alternative source of pulp and paper materials for the paper industry to mitigate the environmental impacts associated with conventional cellulose fiber production from harmful monocultures. Cellulosic material from leaves, bark, and/or stems of each of the selected species was isolated from lignin and hemicelluloses through kraft pulping processes. Resulted fibers and pulps were analyzed visually, morphologically, chemically, and mechanically to evaluate their papermaking properties. To compare these properties with those of commercially available pulp, test sheets were concurrently produced using commercial bleached Eucalyptus cellulose. The findings reveal that the employed fibers exhibit promising characteristics for artistic paper production. Regarding the pulp, two refining times were tested in a PFI machine, and the Schopper–Riegler degree was measured. Paper sheets underwent various tests to determine thickness, basis weight, apparent volume, apparent density, permeability, and chemical composition, as well as microscopic optical and morphological properties. The fibers obtained from the waste derived from the removal of invasive exotic species and biodiversity control present a viable and intriguing alternative for decentralized paper production, yielding noteworthy results for the creative sector. This research highlights the potential of harnessing invasive species for sustainable and innovative paper manufacturing practices. [ABSTRACT FROM AUTHOR]

Published

2023

44. Torrefied paper as a packaging material and subsequently as a bioethanol substrate: Synergy of torrefaction and alkaline treatment for increased utility.

Author

Tripathi, Jaya, Ciolkosz, Daniel, and Sykes, Dan G.

Subjects

ETHANOL as fuel, PACKAGING materials, CIRCULAR economy, FILTER paper, GLUCOSE, CELLULOSE

Abstract

The sequential combination of torrefaction and alkaline treatment is one possible design strategy for a circular economy in which torrefied cellulosic paper with enhanced wet strength is repeatedly used as a packaging material, then hydrolyzed downstream for bioethanol production after alkaline treatment. The wet-tensile strength of cellulose filter paper increased by 1533%, 2233%, 1567%, and 557% after torrefaction for 40 mins at 200 °C, 220 °C, 240 °C and 260 °C, respectively. Glucose yield decreased with increase in torrefaction severity but after treating torrefied filter samples with alkaline (NaOH) solution, glucose yield increased. For instance, the glucose yield of raw filter paper was 955 mg/g of substrate whereas it was 690 mg/g of substrate for the same filter paper sample torrefied at 200 °C. The glucose yield increased to 808 and 933 mg/g of substrate with 1% and 10% alkaline treatment, respectively. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

45. Industry 4.0 and global value chains: what implications for circular economy in SME?

Author

Suchek, Nathalia, Ferreira, João J.M., and Fernandes, Paula O.

Published

2024

46. The impact of the industrial robots on the employment rate and wages: prospects of circular economy and sustainable development

Author

Zhu, Hongfei, Zhang, Xiekui, and Yu, Baocheng

Published

2024

47. Facilitating the circular economy: insights from novel supply network actors

Author

Ratsimandresy, Anne and Miemczyk, Joe

Published

2024

48. Wood-products value-chain mapping.

Author

Mo, Jue, Haviarova, Eva, and Kitek Kuzman, Manja

Subjects

FOREST products industry, WOOD, ECONOMIC opportunities, HELP-seeking behavior, PAPER pulp, HARDWOODS

Abstract

With the increasing importance of wood as a sustainable material and addressing challenges facing the wood products industry, there is an emerging need for innovation and collaboration across all industry sectors. The mapping of the wood products industry has become crucial for gaining an overview and overall understanding of material flow. It also proved beneficial for educational and research purposes. The outcome of this study should help seek new economic opportunities and promote sustainable resource management. A Generic Map was developed to navigate the entire wood products industry as well as Dive-in Chain Maps will guide the four major production chains: sawmill (I), veneer mill (II), reconstituted wood manufacturing (III), and pulp and paper mills (IV). In addition, a By-products Management Wheel Diagram was introduced to clarify waste management practices within these chains. Our approach sheds light on efficient material flow and utilization, revealing opportunities for innovation and the development of high-value products. It also offers strategies for minimizing waste and making informed end-of-life decisions. Ultimately, this study enhances the understanding and potential for circularity and sustainability in the wood products industry. [ABSTRACT FROM AUTHOR]

Published

2024

49. Carbonized Solid Fuel Production from Polylactic Acid and Paper Waste Due to Torrefaction

Author

Kacper Świechowski, Christian Zafiu, and Andrzej Białowiec

Subjects

torrefaction, solid fuel, waste to carbon, circular economy, biodegradable materials, calorific value, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

The quantity of biodegradable plastics is increasing steadily and taking a larger share in the residual waste stream. As the calorific value of biodegradable plastic is almost two-fold lower than that of conventional ones, its increasing quantity decreases the overall calorific value of municipal solid waste and refuse-derived fuel which is used as feedstock for cement and incineration plants. For that reason, in this work, the torrefaction of biodegradable waste, polylactic acid (PLA), and paper was performed for carbonized solid fuel (CSF) production. In this work, we determined the process yields, fuel properties, process kinetics, theoretical energy, and mass balance. We show that the calorific value of PLA cannot be improved by torrefaction, and that the process cannot be self-sufficient, while the calorific value of paper can be improved up to 10% by the same process. Moreover, the thermogravimetric analysis revealed that PLA decomposes in one stage at ~290–400 °C with a maximum peak at 367 °C, following a 0.42 reaction order with the activation energy of 160.05 kJ·(mol·K)−1.

Published

2021

50. Multilayer Sheets Based on Double Coatings of Poly(3-hydroxybutyrate- co -3-hydroxyvalerate) on Paper Substrate for Sustainable Food Packaging Applications.

Author

Hernández-García, Eva, Freitas, Pedro A. V., Zomeño, Pedro, González-Martínez, Chelo, and Torres-Giner, Sergio

Subjects

FOOD packaging, THERMO-optical effects, CIRCULAR economy, SURFACE coatings, THIN films, EDIBLE coatings, PLASTICS

Abstract

Featured Application: One of the main technological challenges within Circular Economy strategies is to minimize the environmental impact of plastic packaging. In this regard, the use of PHBV films to coat paper sheets represents a highly sustainable strategy to produce food packaging multilayer structures with improved mechanical and barrier properties. This work reports on the development and performance evaluation of newly developed paper sheets coated, on both sides, with thin films of biodegradable poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) for applications of food packaging. For this, PHBV/paper/PHBV multilayers were first prepared by the thermo-sealing technique, optimizing the process variables of temperature and time. Thereafter, the multilayer sheets were characterized in terms of their morphological, optical, thermal, mechanical, and barrier properties and compared with equivalent paper structures double coated with high-barrier multilayer films of petrochemical polymers. The results indicated that the double coatings of PHBV successfully improved the mechanical resistance and ductility, protected from moisture, and also reduced the aroma and oxygen permeances of paper, having a minimal effect on its optical and thermal properties. Finally, the compostability of the resultant multilayer sheets was analyzed, confirming that the presence of the PHBV coatings slightly delayed the aerobic biodegradation and disintegration of paper. [ABSTRACT FROM AUTHOR]

Published

2023