9,096 results
Search Results
2. Corrigendum to “A sustainable strategy to transform cotton waste into renewable cellulose fiber self-reinforcing composite paper” [J. Clean. Prod. 429 (2023) 139567]
- Published
- 2024
- Full Text
- View/download PDF
3. Trend and current practices of coagulation-based hybrid systems for pulp and paper mill effluent treatment: mechanisms, optimization techniques and performance evaluation
- Author
-
Jagaba, Ahmad Hussaini, primary, Birniwa, Abdullahi Haruna, additional, Usman, Abdullahi Kilaco, additional, Mu'azu, Nuhu Dalhat, additional, Yaro, Nura Shehu Aliyu, additional, Soja, Usman Bala, additional, Abioye, Kunmi Joshua, additional, Almahbashi, Najib Mohammed Yahya, additional, Al-dhawi, Baker Nasser Saleh, additional, Noor, Azmatullah, additional, and Lawal, Ibrahim Mohammed, additional
- Published
- 2023
- Full Text
- View/download PDF
4. A sustainable strategy to transform cotton waste into renewable cellulose fiber self-reinforcing composite paper
- Author
-
Wang, Chan, primary, Su, Jinhui, additional, Liu, Taoyuan, additional, Ge, Shengbo, additional, Liew, Rock Keey, additional, Zhang, Hui, additional, Naushad, Mu, additional, Lam, Su Shiung, additional, Ng, Hui Suan, additional, Sonne, Christian, additional, and Fan, Wei, additional
- Published
- 2023
- Full Text
- View/download PDF
5. Effect of quality of separately collected glass, paper plus cardboard and lightweight packaging waste on environmental, energetic and economic sustainability of the material recovery facility operations
- Author
-
Le Pera, Adolfo, primary, Sellaro, Miriam, additional, Grande, Giulia, additional, Bencivenni, Egidio, additional, and Migliori, Massimo, additional
- Published
- 2023
- Full Text
- View/download PDF
6. Self-assembled TiO2/MOF on corrugated paper as a recyclable and efficient composite for dual-channel dye removal
- Author
-
Luo, Fan, primary, Li, Min, additional, Liang, Xianghui, additional, Yang, Jingxian, additional, Wang, Shuangfeng, additional, Gao, Xuenong, additional, Zhang, Zhengguo, additional, and Fang, Yutang, additional
- Published
- 2023
- Full Text
- View/download PDF
7. Sustainable ceramic tiles incorporated with waste fly ash from recycled paper production
- Author
-
Yuan, Qibin, primary, Robert, Dilan, additional, Mohajerani, Abbas, additional, Tran, Phuong, additional, and Pramanik, Biplob Kumar, additional
- Published
- 2023
- Full Text
- View/download PDF
8. Highly wear-resistant and recyclable paper-based self-lubricating material based on lignin-cellulose-graphene layered interwoven structure
- Author
-
Shan, Zhiqiang, primary, Jia, Xiaohua, additional, Bai, Yunfei, additional, Yang, Jin, additional, Su, Yunfeng, additional, and Song, Haojie, additional
- Published
- 2023
- Full Text
- View/download PDF
9. Status and trends of enzyme cocktails for efficient and ecological production in the pulp and paper industry
- Author
-
Yang, Manli, primary, Li, Junyi, additional, Wang, Shuai, additional, Zhao, Fengguang, additional, Zhang, Chenyang, additional, Zhang, Chunhui, additional, and Han, Shuangyan, additional
- Published
- 2023
- Full Text
- View/download PDF
10. An umbrella review of product-service systems: Analysis of review papers characteristics, research trends and underexplored topics
- Author
-
Moro, Suzana Regina, primary, Cauchick-Miguel, Paulo A., additional, Mendes, Glauco Henrique de Sousa, additional, and Sousa-Zomer, Thayla Tavares, additional
- Published
- 2023
- Full Text
- View/download PDF
11. Rethinking the paper product carbon footprint accounting standard from a life-cycle perspective
- Author
-
Liang, Ziyang, primary, Deng, Huijing, additional, Xie, Hongyi, additional, Chen, Bin, additional, Sun, Mingxing, additional, and Wang, Yutao, additional
- Published
- 2023
- Full Text
- View/download PDF
12. 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
13. Intense Pulsed Light unprinting for reducing life-cycle stages in recycling of coated printing paper
- Author
-
Keri Rickman, Chih-Hung Chang, Changqing Pan, Rajiv Malhotra, and Michael Dexter
- Subjects
Potential impact ,Coated paper ,Materials science ,Renewable Energy, Sustainability and the Environment ,business.industry ,Scanning electron microscope ,020209 energy ,Strategy and Management ,medicine.medical_treatment ,05 social sciences ,Context (language use) ,02 engineering and technology ,Intense pulsed light ,Micrography ,Industrial and Manufacturing Engineering ,Paper recycling ,Colored ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,medicine ,Optoelectronics ,business ,0505 law ,General Environmental Science - Abstract
Unprinting of paper can reduce multiple life-cycle stages in the recycling of paper to yield significant environmental impact. Laser-unprinting has been demonstrated for uncoated paper but causes significant damage to coated paper. This work explores a scalable optical (non-laser) process for unprinting coated paper. Printed coated paper is exposed to pulsed broad-spectrum Intense Pulsed Light (IPL) from a xenon lamp and the toner is then removed by dabbing gently with an ethanol wipe. While black toner is easily unprinted, unprinting of colored prints (red, blue, green) is best realized by incorporating an initial overprint of black toner. An unprinting throughput on the order of mm2/s is achieved. Three distinct regimes of unprinting are identified based on the extent of toner removal and damage of the paper. The optical properties of the unprinted paper, characterized via UV–Visible spectrophotometry, are correlated to these regimes to understand the potential for in-situ optical process monitoring. Scanning Electron Micrography and Fourier-Transform Infrared Spectroscopy are performed to understand the underlying mechanisms that govern the occurrence of the different unprinting regimes. Further, the potential impact of the developed approach on recycling of paper is discussed in the context of the capabilities of current optical unprinting approaches and the potential elimination of life-cycle stages in conventional paper recycling.
- Published
- 2019
14. Approaches for converting sugarcane trash, a promising agro residue, into pulp and paper using soda pulping and elemental chlorine-free bleaching
- Author
-
Mani Sharma, Smita Chaudhry, Nishi Kant Bhardwaj, Daljeet Kaur, and Satyajeet Arya
- Subjects
Chlorine dioxide ,Renewable Energy, Sustainability and the Environment ,020209 energy ,Strategy and Management ,Pulp (paper) ,Papermaking ,05 social sciences ,Elemental chlorine free ,02 engineering and technology ,Raw material ,engineering.material ,Pulp and paper industry ,Environmentally friendly ,Industrial and Manufacturing Engineering ,chemistry.chemical_compound ,chemistry ,Soda pulping ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,engineering ,Environmental science ,Bagasse ,0505 law ,General Environmental Science - Abstract
Industrialization and urbanization are the key drivers to threaten the environmental quality and natural resources. Traditionally, pulp and paper industry has been highly reliant on forest based resources for its escalation. Shortage of forest based raw materials, strict environmental regulations and policies have compelled the industry to seek for alternate raw materials for its production. Mills are now focusing on exploring the potential of different agro wastes such as cereal straws and bagasse etc. In present research, sugarcane trash, one of the most abundant agro residues in India, was investigated for its capability in pulping and bleaching. Chemical characterization of sugarcane trash showed that it contains 40.4% cellulose, 33.2% hemicelluloses, 17.4% lignin and 6.45% ash content with 2.76% silica. To cook sugarcane trash with soda pulping method, 14% alkali charge, 15 min time and 162 °C temperature was found to be optimum and pulp of kappa no. 19.8 was prepared that exhibited good strength properties. Bleaching of pulp was carried out using elemental chlorine (Cl2), hypochlorite and chlorine dioxide (ClO2) based sequences. Replacement of Cl2 with ClO2 has significant impact on strength properties and effluent characteristics. Oxygen delignification stage was incorporated prior to ClO2 that resulted in improved optical properties of pulp with noticeable reduction in wastewater load. This paper elaborates the need of using sugarcane trash in paper mills with environment friendly pulping and bleaching processes to combat with the problem of waste management, wastewater load reduction during bleaching and substitute for wood based raw materials in papermaking.
- Published
- 2019
15. Influence of industrial by-products and waste paper sludge ash on properties of recycled aggregate concrete
- Author
-
Tomoaki Satomi, Hiroshi Takahashi, and Ngoc Kien Bui
- Subjects
Cement ,Aggregate (composite) ,Silica fume ,Renewable Energy, Sustainability and the Environment ,Chemistry ,020209 energy ,Strategy and Management ,05 social sciences ,Waste paper ,02 engineering and technology ,Pulp and paper industry ,Durability ,Industrial and Manufacturing Engineering ,law.invention ,Portland cement ,law ,Fly ash ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,Metakaolin ,0505 law ,General Environmental Science - Abstract
This paper examines the mechanical properties and durability of recycled aggregate concrete (RAC) containing 100% coarse recycled concrete aggregate (RCA) and industrial by-products. The by-products, including waste paper sludge ash (PSA), fly ash (FA), silica fume (SF), and metakaolin (MK) of different proportions (5%, 10%, 15%) in RAC, were used in two methods: replacement and addition methods. The use of by-products (mineral admixtures) to mitigate the low quality of RAC was demonstrated through experimental outcomes in this study. The addition of industrial by-products was presented as a promising alternative for the addition of more Portland cement in RAC to enhance RAC's quality. The results showed that the strength and durability of RAC containing mineral admixtures in the addition method were higher than the addition of more cement or the replacement method. Notably, PSA considerably improved the mechanical properties of RAC at an early age, and it substantially improved the resistance of RAC to acid and sulfate attacks. At 90 days, FA and MK improved mechanical properties of RAC greater than SF and PSA did. Among combinations, the proportions of by-products in RAC of 5% PSA, 10% SF, 15% MK and 15% FA can produce the highest performance of RAC with 100% coarse recycled concrete aggregate (RCA).
- Published
- 2019
16. Exploring Planococcus sp. TRC1, a bacterial isolate, for carotenoid pigment production and detoxification of paper mill effluent in immobilized fluidized bed reactor
- Author
-
Anuj Kumar, Subhasree Majumdar, Tamal Mandal, Dalia Dasgupta Mandal, and Rashmi Priyadarshinee
- Subjects
Pulp mill ,Renewable Energy, Sustainability and the Environment ,Chemistry ,business.industry ,020209 energy ,Strategy and Management ,05 social sciences ,Paper mill ,02 engineering and technology ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,Bioremediation ,Wastewater ,Fluidized bed ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,Freundlich equation ,Sewage treatment ,business ,Effluent ,0505 law ,General Environmental Science - Abstract
Pulp and paper industry is one of the high priority sectors that generates large amount of solid (sludge) and liquid (paper mill effluent) wastes. Making use of this huge quantity of paper mill sludge (PMS) in an environment friendly manner is challenging and cost involving. Similarly the present wastewater treatment strategies based on physical and chemical methods encounter certain serious setbacks including secondary pollution generation with expensive mode of abatement processes. The present study aims at a “waste treats waste” strategy for the bioremediation of paper mill effluent in fluidized bed reactor (FBR) using another waste of the same industry, PMS as immobilizing matrix for Planococcus sp. TRC1, a wastewater bacterial isolate. This study simultaneously explores this isolate for the yellowish orange pigment it produces (2.3 ± 0.2 mg/gm of dry bacterial biomass) and characterizes it as a member of the pharmacologically important carotenoid pigment family via UV-Vis spectrophotometry, TLC, FT-IR and 13C NMR. The antioxidant potential of this pigment was studied by DPPH assay (IC50 = 33 ± 0.4 μg/ml) and H2O2 assay (IC50 = 147.4 ± 2.2 μg/ml). In FBR, the PMS immobilized bacteria showed removal of phenol, lignin, colour and COD from the effluent by 96%, 74%, 81% and 85% respectively after 60hr of treatment. The experimental data on immobilization fitted well with pseudo second-order (R2 = 0.955) and Freundlich adsorption isotherm (R2 = 0.996) models. The alterations in PMS before and after bacterial immobilization, as revealed by SEM and FT-IR, depicted the success of PMS as immobilization matrix. Phytotoxicity (90% seed germination) and mutagenicity studies confirmed that the treated effluent was substantially less toxic than its raw state. This study highlights a novel utilization possibility of PMS in an eco-friendly and economic way as immobilization matrix for Planococcus sp.TRC1 for paper pulp mill effluent treatment along with production of carotenoid pigment from this potential bacterial isolate as value added product.
- Published
- 2019
17. Enhanced biobleaching efficacy and heavy metal remediation through enzyme mediated lab-scale paper pulp deinking process
- Author
-
Vinod Kumar Nathan, Narayanan Kannan, R. Gunaseeli, and Mary Esther Rani
- Subjects
0106 biological sciences ,Strategy and Management ,Cellulase ,010501 environmental sciences ,engineering.material ,01 natural sciences ,Industrial and Manufacturing Engineering ,law.invention ,law ,010608 biotechnology ,Effluent ,0105 earth and related environmental sciences ,General Environmental Science ,Laccase ,biology ,Renewable Energy, Sustainability and the Environment ,Chemistry ,Pulp (paper) ,Building and Construction ,Deinking ,Pulp and paper industry ,Xylanase ,engineering ,biology.protein ,Sewage treatment ,Water treatment - Abstract
The biological deinking method using microbial enzymes is quite promising and rather eco-friendly. In this paper, we discuss about the impact of enzymatic deinking of newspaper pulp using ligno-cellulosic (cellulase, xylanase and laccase) and lipolytic enzymes. The individual treatment of paper pulp with enzymes (cellulase/xylanase) could enhance the paper brightness to about 32.86% whereas combinational effect could enhance only about 28.67%. There was a release of chromophores from phenolic and hydrophobic compounds released during the deinking process. Physico-chemical parameters of effluents were also found to be within the standard limits and the metals like iron, lead and zinc were not detected in the enzyme assisted deinking effluent sample. The heavy metals in the paper pulp was found to be reduced after enzyme treatment. The obtained effluent was found have low phytotoxicity and was safe for agricultural applications. Hence, the present report was found to be a suitable enzymatic deinking process which was eco-friendly that results in non-toxic effluents. The method also provides an avenue in water resource recycling within industries.
- Published
- 2018
18. Degradation of paper mill wastewater sludge and cow dung by brown-rot fungi Oligoporus placenta and earthworm (Eisenia fetida) during vermicomposting
- Author
-
Renu Negi and Surindra Suthar
- Subjects
Eisenia fetida ,020209 energy ,Strategy and Management ,Population ,Biomass ,02 engineering and technology ,010501 environmental sciences ,complex mixtures ,01 natural sciences ,Industrial and Manufacturing Engineering ,Oligoporus ,otorhinolaryngologic diseases ,0202 electrical engineering, electronic engineering, information engineering ,education ,0105 earth and related environmental sciences ,General Environmental Science ,education.field_of_study ,biology ,Renewable Energy, Sustainability and the Environment ,business.industry ,Chemistry ,Earthworm ,technology, industry, and agriculture ,food and beverages ,Paper mill ,biology.organism_classification ,Pulp and paper industry ,Humus ,business ,Cow dung - Abstract
To evaluate the effect of brown-rot fungi Oligoporus placenta and earthworm Eisenia fetida on decomposition of paper mill sludge, the paper mill sludge was mixed with cow dung in 0, 25, 50, 75, and 100% proportions and changes in physicochemical quality of waste mixtures was carried out for 28 days. All waste mixtures were treated with: Setup-I (E. fetida), Setup-II (O. placenta) and, Setup-III (E. fetida + O. placenta). A decrease in total organic carbon, C/N ratio and cellulose but an increase in total kjeldhal nitrogen, total phosphorus, total potassium and pH was recorded. The paper mill sludge in 50–75% proportion in feedstock showed the better results and rate of mineralisation were in order: Setup-III > Setup-I > Setup-II. The proportion of CD has direct role in waste mineralisation. The microbial population (bacterial, fungal and actinomycetes) and earthworm biomass were also high in Setup-III, suggesting the influence of brown-rot fungi on paper mill sludge humification. Results indicate that fungal inoculate in vermicomposting was effective in decomposing cellulose-rich industrial sludge.
- Published
- 2018
19. Insights into the per- and polyfluoroalkyl substances-contaminated paper mill processing discharge: Detection, phytotoxicity, bioaccumulative profiling, and health risk verification
- Author
-
Chow, Y.N., primary and Foo, K.Y., additional
- Published
- 2023
- Full Text
- View/download PDF
20. Evaluating the green development level of global paper industry from 2000-2030 based on a market-extended LCA model
- Author
-
Shang, Di, primary, Lu, Haiyan, additional, Liu, Chang, additional, Wang, Dong, additional, and Diao, Gang, additional
- Published
- 2022
- Full Text
- View/download PDF
21. Simultaneous cellulose nanocrystals extraction and organic halides removal from paper mill excess sludge via alkali-oxygen cooking and ultrasonication
- Author
-
Zhang, Lilong, primary, Ping, Tiantian, additional, Xu, Hengyu, additional, Yao, Shuanquan, additional, and Wu, Yulong, additional
- Published
- 2022
- Full Text
- View/download PDF
22. A hierarchical intelligent control strategy for greenhouse gas reduction in wastewater treatment process of paper mill
- Author
-
Huang, Feini, primary, Li, Wenqing, additional, Shen, Wenhao, additional, Seferlis, Panagiotis, additional, Man, Yi, additional, and Corriou, Jean-Pierre, additional
- Published
- 2022
- Full Text
- View/download PDF
23. Hydrothermal carbonisation of paper sludge: Effect of process conditions on hydrochar fuel characteristics and energy recycling efficiency
- Author
-
Assis, Englatina I.N.C., primary, Gidudu, Brian, additional, and Chirwa, Evans M.N., additional
- Published
- 2022
- Full Text
- View/download PDF
24. Two-linker MOFs-based glass fiber paper monolithic adsorbent for atmospheric water harvesting in arid climates
- Author
-
Luo, Fan, primary, Liao, Tingting, additional, Liang, Xianghui, additional, Chen, Weicheng, additional, Wang, Shuangfeng, additional, Gao, Xuenong, additional, Zhang, Zhengguo, additional, and Fang, Yutang, additional
- Published
- 2022
- Full Text
- View/download PDF
25. Enhancing electricity generation of microbial fuel cell for wastewater treatment using nitrogen-doped carbon dots-supported carbon paper anode
- Author
-
Han-Qing Yu, Bao-Cheng Huang, Feng Zhang, and Yan-Fang Guan
- Subjects
business.product_category ,Microbial fuel cell ,Materials science ,Renewable Energy, Sustainability and the Environment ,020209 energy ,Strategy and Management ,05 social sciences ,chemistry.chemical_element ,02 engineering and technology ,Building and Construction ,Industrial and Manufacturing Engineering ,Anode ,Waste treatment ,chemistry ,Chemical engineering ,Wastewater ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,Carbon paper ,Sewage treatment ,business ,Energy source ,Carbon ,0505 law ,General Environmental Science - Abstract
Microbial fuel cell is a promising technology to harvest energy from wastewater, and effective anode catalysts are essential for its applications. In this study, zero-dimension nitrogen-doped carbon dots, as biocompatible efficient modifiers, were synthesized and decorated onto the carbon paper surface to prepare microbial fuel cell anode. The as-fabricated nitrogen-doped carbon dots decorated carbon paper anode was able to enhance electricity generation and efficient wastewater treatment. It was found that the as-fabricated electrode had a high hydrophilicity, which was favorable for the microbial immobilization. Compared with the carbon paper anode, the biofilm on the as-prepared anode was almost twice of thickness. After introducing nitrogen-doped carbon dots, the extracellular electron transfer process from the microorganisms to the anode was enhanced. The microbial fuel cell with the as-developed anode generated a remarkable power output of 0.32 mW, 1.1 times higher than that of the raw carbon paper anode with same measurement area. Moreover, 16 sRNA pyrosequencing analysis shows that the quantity of Pseudomonas on the electrode increased by ∼40%, which also promoted the electron transfer rate by excreting mediators like phenazines or phenazine derivatives. This work developed a new approach to design microbial fuel cell anode material and fabricate a high-efficiency and environmentally friendly anode for electricity generation from wastewater.
- Published
- 2019
26. Bio-carbon production by oxidation and hydrothermal carbonization of paper recycling black liquor
- Author
-
Andrew M. Gordon, Naresh V. Thevathasan, Ranjan Pradhan, Yi Wai Chiang, Animesh Dutta, and Zainab Al-Kaabi
- Subjects
Renewable Energy, Sustainability and the Environment ,Chemistry ,020209 energy ,Strategy and Management ,05 social sciences ,chemistry.chemical_element ,Sulfuric acid ,02 engineering and technology ,Building and Construction ,Raw material ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,Industrial waste ,Paper recycling ,Hydrothermal carbonization ,chemistry.chemical_compound ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,Hydrogen peroxide ,Carbon ,Black liquor ,0505 law ,General Environmental Science - Abstract
Black liquor, an industrial waste, also generally called spent liquor is a promising feedstock for production of bio-carbon due to its high lignin and energy contents. Mild processing conditions and sustainable resource utilization can drive commercial utilization of this industrial waste. A novel oxidative procedure using hydrogen peroxide as a green liquid oxidant at room temperature for processing of paper recycling neutral sulphite semi-chemical spent liquor was established and evaluations were carried out for its efficiency. Standard hydrothermal carbonization was carried out for comparing bio-carbon production qualitatively and quantitatively using the same spent liquor. The oxidation procedure was performed at room temperature using 5% of H2O2 followed by washing in diluted sulfuric acid (0.15 N) while hydrothermal carbonization was performed at 250 °C. The bio-carbon produced were similar in terms of ash percentage and ranged from 1.25 ± 0.05 to 1.48 ± 0.05% for oxidation method and from 1.11 ± 0.03 to 1.45 ± 0.04% for hydrothermal carbonization. The carbon contents for the oxidation method ranged from 60.54 to 61.50% and 66.81–67.31% for hydrothermal carbonization while higher heating values ranged from 25.32 to 26.11 MJ/kg and from 28.68 to 29.34 MJ/kg respectively. The mass yield ranged from 29.98 to 31.88% by the oxidation, while it was 15.02–16.08% by hydrothermal carbonization.
- Published
- 2019
27. Production of bioplastic (poly-3-hydroxybutyrate) using waste paper as a feedstock: Optimization of enzymatic hydrolysis and fermentation employing Burkholderia sacchari
- Author
-
Saif N. Al-Bahry, Huda Al-Battashi, Jay Prakash Verma, Anu Sadasivan Nair, Nallusamy Sivakumar, Neelamegam Annamalai, and Shatha Al-Kindi
- Subjects
Municipal solid waste ,biology ,Renewable Energy, Sustainability and the Environment ,Chemistry ,020209 energy ,Strategy and Management ,05 social sciences ,Biomass ,02 engineering and technology ,Raw material ,Pulp and paper industry ,biology.organism_classification ,Bioplastic ,Industrial and Manufacturing Engineering ,Hydrolysate ,Polyhydroxybutyrate ,Enzymatic hydrolysis ,Burkholderia sacchari ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,0505 law ,General Environmental Science - Abstract
The global demand for bio-plastic particularly polyhydroxyalkanoate (PHA) have been increased in the last few decades as a substitute of petrochemical-based plastic. Utilization of waste paper, the primary constituent of municipal solid waste (MSW), as a carbon source for polyhydroxybutyrate (PHB) production is not only an alternative, environmental friendly route of waste management but also helps to valorize the waste. In this study, hydrogen peroxide pretreated waste paper saccharification has been optimized using central composite design (CCD). The maximum hydrolysis (88.18%) occurred at paper loading 5.0 g/L, agitation 242 rpm, working volume 20%, cellulase 49.82 U/g, β-glucosidase 20.9 U/g and hemicellulase 29.5 U/g. PHB synthesis and biomass accumulation by xylose-utilizing Burkholderia sacchari using waste paper hydrolysate were studied using different nitrogen sources and carbon to nitrogen (C/N) ratios. Maximum PHB and dry cell weight (DCW) occurred with ammonium sulfate and a C/N ratio of 20. The highest biomass (3.63 g/L), the maximum PHB accumulation (44.2%) and the maximum reducing sugar utilization (92.1%) were observed after 48 h of cultivation using diluted hydrolysate. The physicochemical properties of the extracted PHB were compatible with the standard PHB. Hence, the waste paper could be exploited as a renewable feedstock for the sustainable production of PHB.
- Published
- 2019
28. Sustainable utilization of deinking paper mill sludge for the manufacture of building bricks
- Author
-
Sanjeew Kumar Singh, Shilpa Kulkarni, Vivek Kumar, and Prabhat Vashistha
- Subjects
Brick ,Materials science ,Absorption of water ,Renewable Energy, Sustainability and the Environment ,Kiln ,Strategy and Management ,0211 other engineering and technologies ,02 engineering and technology ,010501 environmental sciences ,Pulp and paper industry ,Deinking ,01 natural sciences ,Industrial and Manufacturing Engineering ,law.invention ,Efflorescence ,Compressive strength ,law ,021105 building & construction ,Porosity ,0105 earth and related environmental sciences ,General Environmental Science ,Shrinkage - Abstract
Building bricks were produced by utilizing deinking paper mill sludge (DPMS) and alluvial soil by varying percentage of sludge at different firing temperatures. Different mix proportions were prepared with 0%, 5%, 10%, 15%, 20%, 25% and 30% of DPMS incorporation in alluvial soil by weight. Three firing temperatures of 900 °C, 950 °C and 1000 °C were investigated to simulate the typical condition of kiln. The density, firing shrinkage, water absorption, efflorescence, apparent porosity, compressive strength and thermal conductivity of the bricks were determined. The XRD and microstructural analysis of brick specimens were also studied. The optimum firing temperature was 950 °C. The thermal conductivity decreases with increase in percentage of deinking paper mill sludge. It was found that 15% deinking paper mill sludge gives optimum strength at firing temperature of 950 °C. Developed bricks satisfy the requirements of class 10 of Bureau of Indian Standards (BIS), in terms of efflorescence, compressive strength and water absorption. Thermal conductivity results show that the developed brick was thermally more insulated than the conventional bricks and can be used as alternative to conventional bricks. This will address the issue of waste management through cleaner production and show the ways towards sustainable, economical and energy efficient construction.
- Published
- 2018
29. Utilisation of natural wastes: Water-resistant semi-transparent paper for food packaging
- Author
-
Hosen, Md Dulal, primary, Hossain, Md Shebbir, additional, Islam, Md Azharul, additional, Haque, Abu Naser Md Ahsanul, additional, and Naebe, Maryam, additional
- Published
- 2022
- Full Text
- View/download PDF
30. Energy efficiency as a critical resource to achieve carbon neutrality in the pulp and paper sector
- Author
-
Owttrim, Christophe G., primary, Davis, Matthew, additional, Shafique, Hafiz Umar, additional, and Kumar, Amit, additional
- Published
- 2022
- Full Text
- View/download PDF
31. Paper industry wastewater treatment by electrocoagulation and aspect of sludge management
- Author
-
Kumar, Dushyant, primary and Sharma, Chhaya, additional
- Published
- 2022
- Full Text
- View/download PDF
32. Investigation of different paper mill ashes as potential supplementary cementitious materials
- Author
-
Moukannaa, Samira, primary, Alzeer, Mohammad, additional, Ramteke, D.D., additional, Ohenoja, Katja, additional, Roppo, Juha, additional, Kinnunen, Paivo, additional, and Illikainen, Mirja, additional
- Published
- 2022
- Full Text
- View/download PDF
33. Sustainable utilization of paper mill solid wastes via synthesis of nano silica for production of belite based clinker
- Author
-
Dharm Dutt, Prabhat Vashistha, S.K. Singh, and Vivek Kumar
- Subjects
Municipal solid waste ,Materials science ,020209 energy ,Strategy and Management ,02 engineering and technology ,Raw material ,engineering.material ,Industrial and Manufacturing Engineering ,law.invention ,chemistry.chemical_compound ,law ,0202 electrical engineering, electronic engineering, information engineering ,Calcination ,0505 law ,General Environmental Science ,Lime ,Renewable Energy, Sustainability and the Environment ,05 social sciences ,Boiler (power generation) ,Pulp and paper industry ,chemistry ,Fly ash ,050501 criminology ,engineering ,Cementitious ,Belite - Abstract
The industrial solid waste generation and its stockpile disposal have major environmental consequences. These consequences could be minimized through the solid waste application as a raw material in other industries. The current study focusses on the utilization of lime sludge with boiler ash synthesized nanosilica for production of belite based clinker at relatively lower temperature. Lime sludge was also used in combination with fly ash and boiler ash to check the synthesis of compounds at varying temperatures. Nanosilica was synthesized from pretreated boiler ash through alkali treatment and acid precipitation. The synthesized nanosilica has been characterized for specific surface area, crystallinity, surface functional groups and size. Three different mixtures, containing lime sludge with nanosilica, fly ash, and boiler ash are fired at temperatures ranging from 900 °C to 1200 °C and characterized for the synthesis of belite. Conventionally, belite is synthesized above 1200 °C, whereas the combined application of lime sludge and nanosilica reduces the temperature of belite synthesis to 900 °C without pre calcination or addition of any chemical stabilizer. In the case of lime sludge and boiler ash blend, belite formation takes place at the higher temperature (1100–1200 °C). Anorthite synthesis takes place in case of lime sludge and fly ash blend, due to high percentage of alumina present in fly ash. Lime sludge and nanosilica based belite clinker are used to develop newer cementitious binder. Hydration and strength properties of developed binder proved worthy as building materials. This study will present alternatives for sustainable utilization of lime sludge, fly ash and boiler ash in construction.
- Published
- 2019
34. Policy mixes for the sustainability transition of the pulp and paper industry in Sweden
- Author
-
Lars Coenen, Valentina Elena Tartiu, Antje Klitkou, and Lisa Scordato
- Subjects
Pulp and paper industry ,Underpinning ,Carbon tax ,Process (engineering) ,Grønn politikk ,020209 energy ,Strategy and Management ,02 engineering and technology ,010501 environmental sciences ,01 natural sciences ,Industrial and Manufacturing Engineering ,Innovation policy ,Pulp and paper ,Bærekraft ,0202 electrical engineering, electronic engineering, information engineering ,Sustainable transition ,0105 earth and related environmental sciences ,General Environmental Science ,Renewable Energy, Sustainability and the Environment ,Policy mix ,Treforedling ,Sustainability ,Scale (social sciences) ,Portfolio ,Business ,Green politics ,Efficient energy use - Abstract
The need to view innovation policy through the lens of policy mixes has gained momentum given the growing complexity, the dynamics of real-world policy and the wide array of difficulties to address the current great societal challenges, notably the increasing pressure on the ecosystems that support our society. One of the main challenges concerning the transition towards bioeconomy, is to gain a more in-depth understanding on the policy mix to stimulate innovation in sustainability transitions. Our paper aims at enriching the portfolio of empirical case studies on policy mixes for innovation and sustainable transitions, by investigating the development of the policy mix underpinning the sustainability transition of the pulp and paper industry in Sweden. We apply a case study approach which draws on event history analysis, semi-structured interviews with industry and policy makers, literature reviews, a participative workshop with stakeholders from the pulp and paper industry, as well as on the IEA databases on climate change and energy efficiency policies and measures. Our analysis emphasises coordination, timing and scale in policy mixes as important elements to understand how instruments interact to accelerate sustainability transitions. The mapping of the policy mix shows that destabilising policies were crucial for accelerating the transition process of the industry. Prior to novelty creation policies, destabilising policies (e.g. environmental policies) were needed for 'innovation policy instruments' to be effective. More specific instruments (e.g. carbon tax), targeting particular functions of the innovation systems, require 'on-the-ground' policy intelligence and benefit from close interaction with industry.
- Published
- 2018
35. Experimental study and analysis of the functional and life-cycle global warming effect of low-dose chemical pre-treatment of effluent from pulp and paper mills
- Author
-
Karin Granström, Maria Sandberg, and Govindarajan Venkatesh
- Subjects
Pulp mill ,Waste management ,Renewable Energy, Sustainability and the Environment ,Chemistry ,business.industry ,Strategy and Management ,Pulp (paper) ,0208 environmental biotechnology ,Chemical oxygen demand ,Paper mill ,02 engineering and technology ,010501 environmental sciences ,engineering.material ,01 natural sciences ,Industrial and Manufacturing Engineering ,020801 environmental engineering ,Greenhouse gas ,engineering ,Sewage treatment ,Aeration ,business ,Effluent ,0105 earth and related environmental sciences ,General Environmental Science - Abstract
Aeration, as a process in pulp and paper wastewater treatment, uses the greatest share of the energy. Therefore, if the energy efficiency of the treatment has to be improved, the focus must be on aeration. A key finding from the trials conducted for this paper, with effluent from a paper and pulp mill, was that the oxygen transfer coefficient could be doubled and the chemical oxygen demand could be decreased by 25%, if the effluent was pre-treated with 30 mg/l of aluminium coagulant (equivalent to 9.4 tonnes per day of AVR to 20000 cubic metres of effluent). Decrease in oxygen requirement implies decreases in aeration energy use. Pulp and paper mill effluents are not as biodegradable as municipal sewage, and the improvement in oxygen transfer properties of the effluent will have a positive influence over a longer period of time in the biological treatment. If the sludge is digested anaerobically, pre-treatment will also result in doubling the potential for methane generation. A holistic analysis of modifications to processes entails a study of the economic and environmental consequences as well. While the economic aspect is beyond the scope of this paper, only the net global warming as an environmental impact category has been studied, by taking recourse to specific emission coefficients. Of the four dosages of ferric aluminium sulphate considered in this analysis, the net greenhouse gas emissions are the least – 426 kg carbon dioxide equivalent per day when the daily consumption is 9.4 tonnes.
- Published
- 2018
36. Recycling paper industry effluent sludge for use in mortars: A sustainability perspective
- Author
-
Jonas Alexandre, Leonardo Gonçalves Pedroti, Gustavo de Castro Xavier, and Afonso Rangel Garcez de Azevedo
- Subjects
Cement ,Renewable Energy, Sustainability and the Environment ,business.industry ,020209 energy ,Strategy and Management ,Sealant ,0211 other engineering and technologies ,02 engineering and technology ,Masonry ,engineering.material ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,021105 building & construction ,0202 electrical engineering, electronic engineering, information engineering ,engineering ,Environmental science ,Cementitious ,Mortar ,Water pollution ,business ,Effluent ,General Environmental Science ,Lime - Abstract
The paper and cellulose manufacturing industry generates significant quantities of waste, including an extremely humid sludge, which is considered to be an effluent with high environmental liability for the manufacturer. Studies have shown that this waste sludge may be utilized in construction material, such as mortar for fixing blocks, as well as for ceiling and wall coatings that use ceramic masonry as a sealant. The recycling of pulp and paper industry waste sludge has important environmental benefits, by preventing soil and water pollution caused by inadequate disposal and by reducing the depletion of natural resources, such as lime, used in cementitious materials. This study analyzed the sustainability of incorporating such waste into cement-based mortars. Tests were conducted replacing lime, one of the most expensive mortar components with high environmental impact, with waste sludge in contents of 5%, 10%, 15%, and 20%. Analysis was then performed on the samples to assess the primary technical characteristics of these incorporated mortars, such as the consistency index, heat of hydration, content of incorporated air, water retention, mechanical strength and the capillarity coefficient. The results were compared with the results of the characterization tests that were performed on the waste material. The results showed that for use in wall and ceiling mortar coatings, the level of incorporation should not exceed 10%, because higher levels yield lower values of mechanical strength resistance, incompatible with market requirements. This result is probably due to the low heat of hydration of the waste material which generates slower reactions. On the other hand, higher levels of waste material content, above 10%, are appropriate convenient for mortar used to fill small repairs in masonry that do not require control of properties.
- Published
- 2018
37. Life-cycle greenhouse gas emissions of e-books vs. paper books: A Japanese case study
- Author
-
Hiroyuki Nakamura, Katsuhito Nakazawa, Ken Yamagishi, Hirokazu Shimizu, and Kiyotaka Tahara
- Subjects
business.product_category ,010504 meteorology & atmospheric sciences ,Renewable Energy, Sustainability and the Environment ,Computer science ,business.industry ,Strategy and Management ,media_common.quotation_subject ,010501 environmental sciences ,Reuse ,01 natural sciences ,Tablet pc ,Industrial and Manufacturing Engineering ,Paper recycling ,Sustainable society ,Greenhouse gas ,Laptop ,Reading (process) ,Telecommunications ,business ,GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries) ,0105 earth and related environmental sciences ,General Environmental Science ,media_common - Abstract
The increasing presence of e-books (electronic books) has become a major focus in countries around the world. In the United States, e-books represented 28% of the total book sales for 2012. In Japan, the conversion from paper books to e-books is expected to accelerate by the prevalent use of smartphones and tablet PCs. It is therefore important to quantitatively evaluate the environmental load of paper books and e-books for a sustainable society. In this study, paper books are compared to e-books read on different electronic devices (e-ink tablets, tablets, cell phones, smartphones, laptop computers, desktop computers and portable music players) through a case study on a 224-page book. The study is based on key primary data such as use time and reading speed for each device and aims to minimize assumptions made in other studies. GHG emissions for paper books are 1.24 kg-CO2e/book, and are reduced to 1.11 kg-CO2e/book when the effect of paper recycling is taken into consideration. The results for e-books under average use-time conditions range from 0.25 to 0.91 kg-CO2e/book with the e-ink tablet having the lowest emissions. When the average use time of each e-book device is applied, the paper book has a higher impact than all the e-books. However, sensitivity analysis shows that the impact of paper books can be lower than that of e-books for larger screen devices such as tablets, laptops and desktops when the reuse of books is considered or the e-book reading device is hardly used during its life cycle.
- Published
- 2018
38. Impact of industrial agglomeration on energy efficiency in China’s paper industry
- Author
-
Boqiang Lin and Qingying Zheng
- Subjects
Government ,Renewable Energy, Sustainability and the Environment ,business.industry ,Economies of agglomeration ,020209 energy ,Strategy and Management ,Dynamic energy ,Distribution (economics) ,02 engineering and technology ,010501 environmental sciences ,Pulp and paper industry ,01 natural sciences ,Industrial and Manufacturing Engineering ,0202 electrical engineering, electronic engineering, information engineering ,Economic base analysis ,business ,China ,0105 earth and related environmental sciences ,General Environmental Science ,Efficient energy use ,Pace - 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.
- Published
- 2018
39. Enhancement of hydrolysis of lignocellulose waste pulp and paper mill sludge through different heating processes on thermal pretreatment
- Author
-
Ajay S. Kalamdhad and C. Veluchamy
- Subjects
020209 energy ,Strategy and Management ,02 engineering and technology ,010501 environmental sciences ,engineering.material ,01 natural sciences ,Industrial and Manufacturing Engineering ,chemistry.chemical_compound ,Hydrolysis ,0202 electrical engineering, electronic engineering, information engineering ,Lignin ,Hemicellulose ,Cellulose ,0105 earth and related environmental sciences ,General Environmental Science ,Chromatography ,Renewable Energy, Sustainability and the Environment ,business.industry ,Pulp (paper) ,Paper mill ,Pulp and paper industry ,Anaerobic digestion ,chemistry ,Hot air oven ,engineering ,business - Abstract
Different heating processes were applied to pretreat the pulp and paper mill sludge to enhance the hydrolysis stage. Hot air oven, autoclave, microwave and water bath were used for comparison. Chemical analyses exposed that all the pretreatment methods have shown improvement in solubilisation of organic matter. Among the pretreatments studied, heat transfer through hot air (80 °C for 90 min) mode had the highest impact on sludge solubilisation. There was an increase in cellulose (P = 0.0096), acid soluble (P = 0.0053) and insoluble lignin (P = 0.0012), but decrease in hemicellulose (P = 0.0009) content after pretreatment. The XRD and FT-IR spectroscopic characterisation shows the development of aliphatic, unsaturated and carbonyl carbon functionalities in the pretreated samples at higher severities. FESEM picture also confirms the change in structure after pretreatment. Thus, pretreatments contribute to disruption of the lignocellulosic structure making the cellulose easily accessible to acidogenic microorganisms.
- Published
- 2017
40. Cleaner bio-pulping approach for the production of better strength rice straw paper
- Author
-
Nishi Kant Bhardwaj, Raksha Nagpal, Ritu Mahajan, and O.P. Mishra
- Subjects
Fold (higher-order function) ,Renewable Energy, Sustainability and the Environment ,Chemistry ,Strategy and Management ,Pulp (paper) ,food and beverages ,Environmental pollution ,Building and Construction ,engineering.material ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,stomatognathic diseases ,stomatognathic system ,Yield (chemistry) ,engineering ,Xylanase ,Pectinase ,Porosity ,Black liquor ,General Environmental Science - Abstract
The aim of this study was to explore the potential of crude xylano-pectinolytic enzymes in bio-pulping of rice straw, in order to reduce environmental pollution. In this study, the effect of integration of bio-pulping strategy before chemical pulping of rice straw has been investigated. The bio-pulping efficiency was found to be maximum at xylanase:pectinase dose of 400:120 IU/g rice straw, temperature 55 °C, treatment time 3 h, Tween 80 (1%), pH 8.5 and pulping consistency 1:10 (g/mL). Bio-pulping enhanced the permeability of pulping chemicals, generated pulp with higher yield, brightness, along with higher residual active alkali content of black liquor in comparison to the pulp obtained after chemical pulping. Bio-pulping also resulted in 10% reduction of alkali dose and improved paper quality, with increase in breaking length (13.9%), burst index (27.0%), double fold (39.3%), gurley porosity (18.75%) and viscosity (8.77%) of unbleached bio-pulp. Bio-pulping also improved the bleachability by removing the D2 step of bleaching and produced pulp with higher physical strength properties, breaking length (15.92%), burst index (20.47%), tear index (3.87%), double fold (36.0%), gurley porosity (25.0%) and viscosity (28.36%). Hence, this environmentally sustainable bio-pulping approach can decrease the chemical load and ultimately pollution, along with enhance the yield and quality of paper. This is the first report demonstrating cleaner pulping of rice straw using crude xylano-pectinolytic enzymes, produced by a bacterial isolate.
- Published
- 2021
41. Techno-economic and environmental evaluation of a market pulp reinforced with micro-/nanofibers as a strengthening agent in packaging paper
- Author
-
Serra-Parareda, Ferran, primary, Aguado, Roberto, additional, Arfelis, Sergi, additional, Xifré, Ramon, additional, Fullana-i-Palmer, Pere, additional, and Delgado-Aguilar, Marc, additional
- Published
- 2022
- Full Text
- View/download PDF
42. Recycling of paper/wood industry waste for hydromechanical stability of expansive soils: A novel approach
- Author
-
Ijaz, Nauman, primary, Rehman, Zia ur, additional, and Ijaz, Zain, additional
- Published
- 2022
- Full Text
- View/download PDF
43. A sustainable inventory model by considering environmental ergonomics and environmental pollution, case study: Pulp and paper mills
- Author
-
Mohammad Reza Gholamian and Mohadeseh Alsadat Zadjafar
- Subjects
Pollutant ,Biochemical oxygen demand ,Renewable Energy, Sustainability and the Environment ,business.industry ,Strategy and Management ,05 social sciences ,Chemical oxygen demand ,Environmental engineering ,Environmental pollution ,Paper mill ,Industrial and Manufacturing Engineering ,03 medical and health sciences ,0302 clinical medicine ,Wastewater ,0502 economics and business ,030221 ophthalmology & optometry ,Environmental science ,Economic model ,Economic order quantity ,business ,050203 business & management ,General Environmental Science - Abstract
In this study, a mathematical model has been developed for sustainable inventory, in which the effects of environmental factors on social factors, have been investigated. To this end, first, we revised Economic Order Quantity (EOQ) model by adding income from waste sales to this model. Next, considering the emission of sulfur oxides (SOx), nitrogen oxides (NOx) gases, Biochemical Oxygen Demand (BOD) and chemical oxygen demand (COD) indicators in waste water as a measure of water organic pollutants, we proposed a Green Economic Order Quantity (GEOQ) model. Then in order to examine interdependency between environmental aspects and social aspects, we introduced the sustainable model by adding environmental ergonomics in the terms of the effect of SO2 emission on human health. Since the structure of the model consists of nonlinear objective function and linear constraints, the model could be solved based on an exact nonlinear constrained solution method. Finally, we examined the effectiveness of the proposed model demonstrated in a real case study of pulp and paper mill. Validation of the model was done by comparing the cost function of the proposed model with the pure economic model and the actual data. The results of study showed that proposed sustainable model plays a significant role in determining the order quantity and reduction of cost function, sulfur oxides (SOx) and nitrogen oxides (NOx) emissions, and Biochemical Oxygen Demand (BOD) and chemical oxygen demand (COD) in waste water.
- Published
- 2018
44. Surgical waste reprocessing: Injection molding using recycled blue wrapping paper from the operating room
- Author
-
M. van der Elst, P. D. Robertson, F.W. Jansen, Tim Horeman, D.R. van der Heiden, corinne riekwel, and Bart van Straten
- Subjects
Polypropylene ,Materials science ,Cleaner production ,Circular economy ,Renewable Energy, Sustainability and the Environment ,Strategy and Management ,Waste recycling ,Molding (process) ,Raw material ,Sterilization (microbiology) ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,Gift wrapping ,law.invention ,chemistry.chemical_compound ,Recyclability ,chemistry ,Volume (thermodynamics) ,law ,Efficiency increase ,General Environmental Science ,Tensile testing - Abstract
IntroductionHospitals in the Netherlands generate approximately 1.3 million kg of waste from the polypropylene (PP) wrapping paper (WP) used to wrap surgical instruments each year. The aim of this study was to develop a method to recycle WP waste into new medical devices.MethodsWP was recovered from Maasstad Hospital, Netherlands. The WP was melted into bars, granulated, and mixed with virgin material at different ratios and temperatures. Dog bones were injection-molded from volume (v.%) virgin, mixed (%R), and recycled (100%R) granulate, and a tensile testing machine was used to compare the material properties before and after ten disinfection cycles at the sterilization department. Then, 25 instrument openers were made from the 50%R material and circulated for four weeks.ResultsThe data indicated no significant differences in the mechanical properties at different melting temperatures. For dog bones made from the 100%R, 50%R, and virgin granulate, the Young's moduli were 1021 (SD13), 879 (SD13), and 795 (SD14) MPa, and the strains were 8%, 12%, and 14%. Ten disinfection cycles did not significantly change the material properties. After one month, the openers did not show any deterioration or damage other than surface scratches.DiscussionThe results indicated that the initial WP melting temperature did not influence the mechanical properties. Although devices could be produced directly from the recycled WP granulate, increasing the recycled granulate in the mix ratio increased the strength and brittleness.ConclusionsIt is feasible to recycle WP waste into a high-quality raw material for the injection molding of medical devices without using additives. This would allow hospitals to become more compliant with the circular economy enabling economically viable and circular processes that positively contribute to cleaner technical processes, sustainable products, and the reduction of medical waste.
- Published
- 2021
45. Efficient utilization of waste paper as an inductive feedstock for simultaneous production of cellulase and xylanase by Trichoderma longiflorum
- Author
-
Guoqing Xiao, Fuqiang Xu, Shuyang Wang, Miaoyin Dong, and Jin Bai
- Subjects
biology ,Bran ,Renewable Energy, Sustainability and the Environment ,Chemistry ,020209 energy ,Strategy and Management ,Papermaking ,05 social sciences ,02 engineering and technology ,Building and Construction ,Cellulase ,Raw material ,biology.organism_classification ,Pulp and paper industry ,Industrial and Manufacturing Engineering ,Tissue paper ,Trichoderma ,050501 criminology ,0202 electrical engineering, electronic engineering, information engineering ,Xylanase ,biology.protein ,Fermentation ,0505 law ,General Environmental Science - Abstract
Waste paper, one of the major components of municipal and industrial wastes, has considerable potential as a low-cost inductive feedstock for enzyme production. In this study, four kinds of waste papers were used for simultaneous production of cellulase and xylanase by Trichoderma longiflorum. The highest FPase activities (3.21 IU/mL and 2.97 IU/mL) were achieved using waste office paper (WOP) and corrugated board (CB), respectively, followed by magazine paper (MP, 2.51 IU/mL) and tissue paper (TP, 2.34 IU/mL). The maximum β-glucosidase activities (0.51 IU/mL) and xylanase activities (382.59 IU/mL) were obtained from CB substrates, which were higher than that in the reported literature using waste paper. Correspondingly, the soluble protein concentrations and SDS-PAGE profiles from CB fermentation revealed that more enzymes were secreted during fermentation compared with other waste paper. Moreover, the structural features of different waste paper were characterized by using SEM and XRD technique and revealed that the structural variations were mainly caused by the raw wood sources and papermaking processes, and further affected the fermentation capacity. In addition, a higher β-glucosidase activity of 0.80 IU/mL were obtained from the mixed carbon source of CB and wheat bran (WB), which were significantly improved and increased by 56.86% when compared with the CB as single carbon source. This study confirmed that the waste paper without pretreatment could be efficiently utilized as an inductive feedstock for simultaneous production of cellulase and xylanase by T. longiflorum. Therefore, these findings obtained from this study will provide a more widely insight into investigating the low-cost inductive feedstock for enzyme production, which were of great benefit both for the economy and environment.
- Published
- 2021
46. Valorisation of chicken feathers: Application in paper production
- Author
-
Deresh Ramjugernath, Viren Chunilall, Tamrat Tesfaye, and Bruce Sithole
- Subjects
0106 biological sciences ,animal structures ,Strategy and Management ,02 engineering and technology ,Raw material ,engineering.material ,01 natural sciences ,Industrial and Manufacturing Engineering ,010608 biotechnology ,Chicken feathers ,General Environmental Science ,Renewable Energy, Sustainability and the Environment ,business.industry ,Pulp (paper) ,Paper production ,food and beverages ,Poultry farming ,021001 nanoscience & nanotechnology ,Pulp and paper industry ,Feather ,visual_art ,visual_art.visual_art_medium ,engineering ,Environmental science ,Valorisation ,0210 nano-technology ,business ,Renewable resource - Abstract
Reducing waste materials through reuse has in the recent past contributed to sustainable manufacturing in many industries. With the development of large-scale poultry farming, the treatment of large amounts of chicken feathers has become a problem and threatened its use as a renewable resource. This paper examines the use of chicken feathers in the paper making process; a process which would traditionally use wood as the raw material. The effects of combining feather fibre and wood pulp on paper performance were studied and compared to the properties of handsheets made with 100% wood pulp. With the increase of feather content, properties such as tightness, tensile index and bursting index decreased, whilst air permeability improved. There was no significant difference in water absorbency between various chicken feather/wood pulp handsheet samples however, the water absorbency started to decrease above 80% of chicken feather content. This could potentially open up a new avenue for the use of chicken feathers in applications that are meant to tolerate high humidity conditions, e.g., packaging products.
- Published
- 2017
47. Upgrading waste paper by in-situ calcium carbonate formation
- Author
-
Yung Bum Seo, Hak Lae Lee, and Ji Hwan Ahn
- Subjects
0106 biological sciences ,Materials science ,Strategy and Management ,010501 environmental sciences ,engineering.material ,01 natural sciences ,Industrial and Manufacturing Engineering ,chemistry.chemical_compound ,010608 biotechnology ,Calcium oxide ,0105 earth and related environmental sciences ,General Environmental Science ,Paperboard ,Waste management ,Renewable Energy, Sustainability and the Environment ,business.industry ,Pulp (paper) ,Papermaking ,Paper mill ,Calcium carbonate ,chemistry ,visual_art ,Carbon dioxide ,engineering ,visual_art.visual_art_medium ,Slurry ,business - Abstract
Utilization of the quality-upgraded waste paper in the manufacture of paper and board will reduce the wood consumption and pulping energy. While the optical property of the fibers from recycled old newspaper is very poor, in-situ calcium carbonate formation on those fibers by injecting carbon dioxide to the mixed slurry of those pulp and calcium oxide improved their brightness. Upgrading recycled old newspaper to substitute more expensive wood furnish, such as recycled old magazine, was successfully demonstrated in the present study. This study showed that the in-situ calcium carbonate formation process improved the optical quality of the recycled old newspaper by covering colored impurities with newly formed calcium carbonate, and improved calcium carbonate retention in papermaking process by attaching them to fibers. The strength reduction by the presence of newly formed calcium carbonate in the paper was recovered by adding strength agent. High ash retention at high ash content under the strong turbulence in the modern paper mill was achieved by the application of the in-situ calcium carbonate formation method. The quality-upgrade of recycled fibers and cost saving in the manufacture of duplex paperboard were demonstrated in the mill trial.
- Published
- 2017
48. Technology selection and evaluation in Iran's pulp and paper industry using 2-filterd fuzzy decision making method
- Author
-
Maryam Akhundzadeh and Babak Shirazi
- Subjects
Renewable Energy, Sustainability and the Environment ,business.industry ,Emerging technologies ,020209 energy ,Strategy and Management ,Pulp (paper) ,Fossil fuel ,02 engineering and technology ,Energy consumption ,engineering.material ,Pulp and paper industry ,Domestic market ,Industrial and Manufacturing Engineering ,0202 electrical engineering, electronic engineering, information engineering ,engineering ,020201 artificial intelligence & image processing ,Cleaner production ,Energy supply ,business ,Kraft paper ,General Environmental Science - 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.
- Published
- 2017
49. High-efficient double-cross-linked biohybrid aerogel biosorbent prepared from waste bamboo paper and chitosan for wastewater purification
- Author
-
Qiu, Chongpeng, primary, Tang, Qi, additional, Zhang, Xuelun, additional, Li, Mei-Chun, additional, Zhang, Xuefeng, additional, Xie, Jiulong, additional, Zhang, Shaobo, additional, Su, Zhiping, additional, Qi, Jinqiu, additional, Xiao, Hui, additional, Chen, Yuzhu, additional, Jiang, Yongze, additional, de Hoop, Cornelis F., additional, and Huang, Xingyan, additional
- Published
- 2022
- Full Text
- View/download PDF
50. Genotoxicity evaluation of paper industry wastewater prior and post-treatment with laccase producing Pseudomonas putida MTCC 7525
- Author
-
Haq, Izharul, primary, Kalamdhad, Ajay S., additional, and Pandey, Ashok, additional
- Published
- 2022
- Full Text
- View/download PDF
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.