Showing total 325,510 results

51. Using polaroid zinc oxide nanocomposites in strengthening a historical printed paper: application to “Annales Agricoles” – 1829 AD

Author

Ali Hassan, Rushdya Rabee

Published

2020

52. Comparison of performances of flexible sensors on foil and paper for efficient bacterial concentration measurement

Author

Kojic, Tijana, Radovanovic, Milan, Stojanovic, Goran M., Pivas, Bojana, Medic, Deana, and Al-Salami, Hani

Published

2020

53. Friction and wear properties of three different steels against paper-based friction material

Author

Wu, Jianpeng, Ma, Biao, Li, Heyan, and Ma, Chengnan

Published

2019

54. Pencil-on-paper flexible electronics for daily sensing applications

Author

Liu, Yan, Wang, Hai, Zhao, Wei, Zhang, Min, and Qin, Hongbo

Published

2019

55. Design of conductive pattern on recycled paper

Author

Ataeefard, Maryam and Khamseh, Sara

Published

2019

56. Influence of Manufacture of Textiles, Clothing, and Leather and Manufacture of Paper, Printing, and Publishing on Economic Growth

Author

Muda, Iskandar and Nurlina

Published

2018

57. Using printer ink color to control the behavior of paper microfluidics.

Author

Potter, Joshua, Brisk, Philip, and Grover, William H

Subjects

Chemical Sciences, Engineering, Analytical Chemistry

Abstract

Paper microfluidic devices (including lateral flow assays) offer an excellent combination of utility and low cost. Many paper microfluidic devices are fabricated using the Xerox ColorQube line of commercial wax-based color printers; the wax ink serves as a hydrophobic barrier to fluid flow. These printers are capable of depositing four different colors of ink, cyan (C), magenta (M), yellow (Y), and black (K), plus 11 combinations of these colors (CM, CY, CK, MY, MK, YK, CMY, CMK, CYK, MYK, and CMYK), although most researchers use only black ink to print paper microfluidic devices. Recently, as part of a project to develop a computer-aided design framework for use with paper microfluidics devices, we unexpectedly observed that different colors of wax ink behave differently in paper microfluidics. We found that among the single colors of ink, black ink actually had the most barrier failures, and magenta ink had the fewest barrier failures. In addition, some combinations of colors performed even better than magenta: the combinations CY, MK, YK, CMY, CYK and MYK had no barrier failures in our study. We also found that the printer delivers significantly different amounts of ink to the paper for the different color combinations, and in general, the color combinations that formed the strongest barriers to fluid flow were the ones that had the most ink delivered to the paper. This suggests that by simply weighing paper samples printed with all 15 combinations of colors, one can easily find the color combinations most likely to form a strong barrier for a given printer. Finally, to show that deliberate choices of ink colors can actually be used to create new functions in paper microfluidics, we designed and tested a new color-based "antifuse" structure that protects paper microfluidic devices from a typical operator error (addition of too much fluid to the device). Our results provide a set of color choice guidelines that designers can use to control the behavior of their paper microfluidics.

Published

2019

58. Letter to the editor: Comments on the paper “derivation of lump solutions to a variety of Boussinesq equations with distinct dimensions”

Author

Cherniha, Roman

Published

2024

59. Automation of the Software Development Process from ReLEL Using the Praxeme Approach

Author

Andrianjaka, Rapatsalahy Miary, Thomas, Mahatody, Razanakolona, Livaniaina, Mihaela, Ilie, Hajarisena, Razafimahatratra, Sorin, Ilie, Raft, Razafindrakoto Nicolas, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Ali, Raian, editor, Kaindl, Hermann, editor, and Maciaszek, Leszek A., editor

Published

2022

60. Photolithography-free PDMS stamps for paper microdevice fabrication

Author

Montgomery, R. Hunter, Phelan, Kelsey, Stone, Sawyer D., Decuir, Francois, and Hollins, Bryant C.

Published

2018

61. The Digitalization of Engineering Curricula: Defining the Categories that Preserve Constructive Alignment

Author

Boffa, Eleonora, Lupi, Francesco, Lanzetta, Michele, Maffei, Antonio, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Casalino, Gabriella, editor, Cimitile, Marta, editor, Ducange, Pietro, editor, Padilla Zea, Natalia, editor, Pecori, Riccardo, editor, Picerno, Pietro, editor, and Raviolo, Paolo, editor

Published

2022

62. Microscopic characterization of acidic paper manuscripts

Author

Hamed, Safa Abd El kader Mohamed and Ali Hassan, Rushdya Rabee

Published

2019

63. Determining the Characteristics of Papers That Garner the Most Significant Impact: A Deep Dive into Mexican Engineering Publications

Author

Claudia N. Gonzalez Brambila, José I. Ponce, Silvia B. Gonzalez Brambila, and Matias F. Milia

Subjects

research impact, engineering, Mexico, article citation analysis, collaboration, Communication. Mass media, P87-96, Information resources (General), ZA3040-5185

Abstract

Engineers make things, make things work, and make things work better and easier. This kind of knowledge is crucial for innovation, and much of the explicit knowledge developed by engineers is embodied in scientific publications. In this paper, we analyze the evolution of publications and citations in engineering in a middle-income country such as Mexico. Using a database of all Mexican publications in Web of Science from 2004 to 2017, we explore the characteristics of publications that tend to have the greatest impact; this is the highest number of citations. Among the variables studied are the type of collaboration (no collaboration, domestic, bilateral, or multilateral), the number of coauthors and countries, controlling for a coauthor from the USA, and the affiliation institution of the Mexican author(s). Our results emphasize the overall importance of joint international efforts and suggest that publications with the highest number of citations are those with multinational collaboration (coauthors from three or more countries) and when one of the coauthors is from the USA. Another interesting result is that single-authored papers have had a higher impact than those written through domestic collaboration.

Published

2023

64. High Throughput Point-of-Care Diagnostics in High Traffic Areas/ Using Airflow-Driven, Evaporative Gradients to Improve Sensitivity and Fluid Control in Colorimetric Paper-Based Assays/ Formulation of Lipid Nanoparticles for in-vivo Drug Delivery/ Cold Plasma Treatment of Biomolecules and Adherent Cells

Author

Guo, Zhilin

Subjects

Engineering

Abstract

The global pandemic caused by the SARS-CoV-2 virus has underscored the need for rapid, simple, scalable, and high-throughput multiplex diagnostics in non-laboratory settings. Here we demonstrate a multiplex reverse-transcription loop-mediated isothermal amplification (RT-LAMP) coupled with a gold nanoparticle-based lateral flow immunoassay (LFIA) capable of detecting up to three unique viral gene targets in 15 min. RT-LAMP primers associated with three separate gene targets from the SARS-CoV-2 virus (Orf1ab, Envelope, and Nucleocapsid) were added to a one-pot mix. A colorimetric change from red to yellow occurs in the presence of a positive sample. Positive samples are run through a LFIA to achieve specificity on a multiplex three-test line paper assay. Positive results are indicated by a characteristic crimson line. The device is almost fully automated and is deployable in any community setting with a power source.Microfluidic paper-based analytical devices (μPADs) are foundational devices for point-of-care testing yet suffer from limitations in regard to their sensitivity and capability in handling complex assays. Here, we demonstrate an airflow-based, evaporative method that is capable of manipulating fluid flows within paper membranes to offer new functionalities for multistep delivery of reagents and improve the sensitivity of μPADs by 100–1000 times. This method applies an air-jet to a pre-wetted membrane, generating an evaporative gradient such that any solutes become enriched underneath the air-jet spot. By controlling the lateral position of this spot, the solutes in the paper strip are enriched and follow the air jet trajectory, driving the reactions and enhancing visualization for colorimetric readout in multistep assays. The technique has been successfully applied to drive the sequential delivery in multistep immunoassays as well as improve sensitivity for colorimetric detection assays for nucleic acids and proteins via loop-mediated isothermal amplification (LAMP) and ELISA. For colorimetric LAMP detection of the COVID-19 genome, enrichment of the solution on paper could enhance the contrast of the dye to more clearly distinguish between the positive and negative results to achieve a sensitivity of 3 copies of SARS-Cov-2 RNAs. For ELISA, enrichment of the oxidized TMB substrate yielded a sensitivity increase of two-to-three orders of magnitude when compared to non-enriched samples – having a limit of detection of around 200 fM for IgG. Therefore, this enrichment method represents a simple process that can be easily integrated into existing detection assays for controlling fluid flows and improving detection of biomarkers on paper. LNPs, with their lipid bilayer structure, protect fragile mRNA, extending circulation and improving cellular uptake. They can be engineered for tissue targeting and controlled release. Mouse models, due to their genetic similarity to humans, are vital for studying LNPs' biodistribution, pharmacokinetics, and therapeutic impact, as well as assessing immune responses. In this thesis, two PDMS microfluidic devices were developed for mRNA encapsulated LNPs, optimizing parameters like size, encapsulation efficiency, and zeta potential. Intraperitoneal and intravenous injections in mouse models quantitatively assessed LNP efficacy and performance.A groundbreaking high-voltage cold plasma device, paired with advanced cooling, revolutionizing biotechnology. This device enables precise detachment of adherent cells, a milestone in tissue engineering and regenerative medicine. Moreover, it enhances protein binding in ELISA assays, promising higher accuracy in diagnostics, biopharmaceuticals, and life sciences research by manipulating protein-surface interactions. This innovation redefines biotech tools, with far-reaching implications.

Published

2023

65. Adapting STEMM in Hawai'i: Necessary actions for one of the most diverse places in the United States.

Author

Neikirk K

Subjects

Humans, Hawaii, Science education, Mathematics education, Mentors, United States, Cultural Diversity, Technology education, Engineering education

Abstract

Hawai'i's diverse population prime it to be an exemplary environment to study representation in science, technology, engineering, mathematics, and medicine (STEMM). In actuality, Hawai'i has low STEMM enrollment and therefore, low representation in STEMM. What primarily inhibits Hawai'i from having a strong STEMM workforce is the lack of education in STEMM, resources allocated to STEMM, and mentorship to succeed in STEMM. Other factors such as cultural values, high costs of living, and geographical barriers also contribute to Hawai'i's low STEMM enrollment. To combat these issues, I offer suggestions to encourage STEMM enrollment, such as directing funds toward after-school education. I also suggest combatting the lack of resources by providing more online opportunities for students and workers. As for Hawai'i's low mentorship, I suggest that more programs be created within communities and universities to create a platform for mentors and mentees to network. This manuscript seeks to highlight these areas of improvement and recognize lessons to be learned from Hawai'i, thus serving as a resource for individuals internationally., (© 2024 The Author(s). Journal of Cellular Physiology published by Wiley Periodicals LLC.)

Published

2024

66. Simulation on motion characteristics of space charge in single oil-paper insulation

Author

Yang, Zhifei, Du, Zhiye, Ruan, Jiangjun, Jin, Shuo, Huang, Guodong, Lian, Qixiang, and Liao, Yifan

Published

2017

67. Large-size color models visualization under 3D paper-based printing

Author

Yuan, Jiangping, Yu, Zhaohui, Chen, Guangxue, Zhu, Ming, and Gao, Yanfei

Published

2017

68. English Communication Needs of Professional Engineers and the Relevance of English Language Training in Higher Education

Author

Tue Ngoc Hoang, Duyen Thi Tran, Giang Thi Huong Hoang, and Trinh Thi Tuyet Tran

Abstract

Understanding the use of English in the workplace is essential for developing effective English language education programs in Higher Education Institutions (HEIs). However, workplace language needs are still understudied, particularly in Vietnam. Therefore, this paper reports on part of a task-based needs analysis research project carried out by a Vietnamese university to improve its institutional English language education programs to effectively prepare students for employment. In particular, it investigates the tasks undertaken in English by professional engineers in the workplace and the relevance of English language education at HEIs for addressing those communicative needs. The data were collected using two parallel versions of a needs analysis questionnaire delivered to 291 professional engineers and 40 employers and backed up by interviews with 39 of the engineers. Results identify 30 workplace tasks that professional engineers frequently dealt with in English, indicating a discrepancy between those identified workplace requirements and the English language training at HEIs, and providing practical suggestions to improve engineering students' readiness for employment. This paper provides useful information for researchers and practitioners interested in improving the effectiveness of English language education for professional purposes at HEIs in Vietnam and possibly across the Asia-Pacific region.

Published

2024

69. Container Handling Operation Modeling and Estimation

Author

Jakovlev, Sergej, Eglynas, Tomas, Jusis, Mindaugas, Voznak, Miroslav, Partila, Pavol, Tovarek, Jaromir, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Klein, Cornel, editor, Helfert, Markus, editor, Berns, Karsten, editor, and Gusikhin, Oleg, editor

Published

2021

70. Process Mining Research in Management Science and Engineering Fields: The Period of 2010–2019

Author

Kulakli, Atik, Birgun, Semra, Cavas-Martínez, Francisco, Series Editor, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Haddar, Mohamed, Series Editor, Ivanov, Vitalii, Series Editor, Kwon, Young W., Series Editor, Trojanowska, Justyna, Series Editor, Durakbasa, Numan M., editor, and Gençyılmaz, M. Güneş, editor

Published

2021

71. From Paper to web: Students as partners for virtual laboratories in (Bio)chemical engineering education

Author

Simoneta Caño de las Heras, Carina L. Gargalo, Fiammetta Caccavale, Barbara Kensington-Miller, Krist V. Gernaey, Saeid Baroutian, and Ulrich Krühne

Subjects

co-participation design, blended learning, engineering, computers, virtual laboratories, Technology, Chemical technology, TP1-1185

Abstract

The integration of online platforms in (bio)chemical engineering education has increasingly become a matter of fact at all educational levels. Examples such as virtual laboratories in tertiary education have shown their benefits, such as the decreased cost and resources needed as well as providing a safer environment for practical experimentation. However, students or stakeholders are not usually involved in developing the virtual laboratory, even if, when given the opportunity, they can provide valuable feedback for improvement and acquire ownership over the platform. Hence, when proposing a novel educational process virtual laboratory that targets teaching bioprocess modeling to undergraduate students, the best approach is to involve the students in the development as its future users. To this end, in this work, four co-participatory design experiences are presented that show the journey from a paper prototype to an online educational virtual laboratory (www.biovl.com). Qualitative and quantitative data have been collected in two different universities through surveys, semi-structured interviews, and informal conversations among the students and the developer. The students’ perspectives were found to provide valuable feedback about the platform’s content, usability, and functionality. For example, interest in adding bioprocess-related coding activities, or suggesting to change the platform name, were opinions collected and carefully considered. These suggestions can be easily integrated since the software is at the early stages of the virtual laboratory prototype. Although the usability and functionality features of the platform are under continuous advancement, this work’s findings show that the students are interested in contributing to the virtual laboratory’s development. Therefore, it opens the door to modifications and improvements, which are strongly based on the users’/students’ perceptions and perspectives as the virtual laboratory’s co-designers. Although the primary target of the BioVL prototype is to teach bioprocessing modelling, several advanced tools such as virtual and augmented reality (VR and AR) are being considered to be included at a future stage. Furthermore, the educational strategy proposed in this work can be replicated by those who want to develop other virtual laboratories.

Published

2022

72. Best Paper Awards

Author

Nazaroff, WW

Subjects

Earth Sciences, Engineering, Health Sciences, Medical and Health Sciences, Building & Construction, Earth sciences, Health sciences

Published

2017

73. A Novel Avoidance Test Setup: Device and Exemplary Tasks

Author

Bulava, Alexandra I., Volkov, Sergey V., Alexandrov, Yuri I., Kacprzyk, Janusz, Series Editor, Kryzhanovsky, Boris, editor, Dunin-Barkowski, Witali, editor, Redko, Vladimir, editor, and Tiumentsev, Yury, editor

Published

2020

74. What counts as STEM, and does it matter?

Author

Adler RM, Xu M, and Rittle-Johnson B

Subjects

Female, Humans, Male, Career Choice, Motivation, Engineering, Mathematics, Technology, Science

Abstract

Background: To accurately measure students' science, technology, engineering and mathematics (STEM) career interest, researchers must get inside the 'black box' to understand students' conceptualizations of STEM careers., Aims: The aim of Study 1 was to explore whether students' conceptualizations of STEM included medical careers. The aim of Study 2 was to explore whether predictors of STEM career interest (e.g., gender and motivation) varied by STEM definition (inclusion/exclusion of medical careers)., Samples: In Study 1, the sample was US college students (N = 125) who were mostly White (80%). In Study 2, the sample was US 10th-grade high school students (N = 455) who were mostly Black (79%)., Methods: In Study 1, students completed an online questionnaire. In Study 2, students completed various measures of math achievement, motivation (science and math expectancies of success, interest and importance value) and career interest with an importance., Results: In Study 1, medical careers were less often classified as STEM careers than traditional STEM careers, but more often classified as STEM than non-STEM careers. In Study 2, science importance value was the only motivational predictor of students' STEM+Medicine career interest, and no motivation constructs predicted traditional STEM career interest. Boys expressed greater interest in traditional STEM careers, while girls expressed greater interest in STEM+Medicine careers., Conclusions: Students' conceptualizations of STEM are not binary. Thus, we recommend researchers are explicit about their definition of STEM with study participants, in their coding and in their publications., (© 2023 British Psychological Society.)

Published

2024

75. Direct-Write, Self-Aligned Electrospinning on Paper for Controllable Fabrication of Three-Dimensional Structures

Author

Luo, Guoxi, Teh, Kwok Siong, Liu, Yumeng, Zang, Xining, Wen, Zhiyu, and Lin, Liwei

Subjects

3D electrospinning, 3D micro-/nanofabrications, direct-write, self-alignment, near-field electrospinning, Chemical Sciences, Engineering, Nanoscience & Nanotechnology

Abstract

Electrospinning, a process that converts a solution or melt droplet into an ejected jet under a high electric field, is a well-established technique to produce one-dimensional (1D) fibers or two-dimensional (2D) randomly arranged fibrous meshes. Nevertheless, the direct electrospinning of fibers into controllable three-dimensional (3D) architectures is still a nascent technology. Here, we apply near-field electrospinning (NFES) to directly write arbitrarily shaped 3D structures through consistent and spatially controlled fiber-by-fiber stacking of polyvinylidene fluoride (PVDF) fibers. An element central to the success of this 3D electrospinning is the use of a printing paper placed on the grounded conductive plate and acting as a fiber collector. Once deposited on the paper, residual solvents from near-field electrospun fibers can infiltrate the paper substrate, enhancing the charge transfer between the deposited fibers and the ground plate via the fibrous network within the paper. Such charge transfer grounds the deposited fibers and turns them into locally fabricated electrical poles, which attract subsequent in-flight fibers to deposit in a self-aligned manner on top of each other. This process enables the design and controlled fabrication of electrospun 3D structures such as grids, walls, hollow cylinders, and other 3D logos. As such, this technique has the potential to advance the existing electrospinning technologies in constructing 3D structures for biomedical, microelectronics, and MEMS/NMES applications.

Published

2015

76. Integrating urban air mobility into smart cities: a proposal for relevant use cases in the next decades

Author

Di Vito, Vittorio, Dziugiel, Bartosz, Melo, Sandra, Ten Thije, Jens T., Duca, Gabriella, Liberacki, Adam, Hesselink, Henk, Giannuzzi, Michele, Menichino, Aniello, Montaquila, Roberto Valentino, Cerasuolo, Giovanni, and Witkowska-Konieczny, Adriana

Published

2025

77. Effect of Thermal Pretreatment on the Kinetic Parameters of Anaerobic Digestion from Recycled Pulp and Paper Sludge

Author

Habchi Sanae, Karouach Fadoua, Lahlou Yahya, Lahboubi Nabila, Sallek Brahim, Naim Ikram, Bakraoui Mohammed, and El Bari Hassan

Subjects

anaerobic digestion, Environmental Engineering, Ecology, Chemistry, Pulp (paper), kinetic parameters, thermal pretreatment, kinetic models, Environmental Science (miscellaneous), engineering.material, Pulp and paper industry, methane production, Anaerobic digestion, engineering, lag phase, Methane production, recycled pulp and paper sludge, QH540-549.5

Abstract

This paper investigates the influence of thermal pretreatment on kinetic parameters based on four kinetic models: Modified Gompertz, transference and logistic functions and first order equation. The kinetic modeling was applied on experimental results of previous study on producing methane from anaerobic digestion of Recycled Pulp and Paper Sludge (RPPS) under mesophilic conditions. We observed that the thermal pretreatment improve considerably improved the kinetic parameters mainly the methane production rate and the lag phase. Indeed, it can be noted that methane production rate μ increases significantly from a value of 4.72 to 16.27 Nml/h using logistic function for 1 g VS/L added load. Then the lag phase parameter λ has dramatically decreased from 5.46 to 1.04 h using logistic function for 1,5g VS/L added load. This means that the thermal pretreatment of RPPS accelerates the methane production process and saves time.

Published

2022

78. Assessing and Optimizing the Resilience of Water Distribution Systems Using Graph-Theoretical Metrics

Author

Lorenz, Imke-Sophie, Altherr, Lena C., Pelz, Peter F., Neufeld, Janis S., editor, Buscher, Udo, editor, Lasch, Rainer, editor, Möst, Dominik, editor, and Schönberger, Jörn, editor

Published

2020

79. Effects of cellulose nanofibrils and starch compared with polyacrylamide on fundamental properties of pulp and paper

Author

Hossein Jalali Torshizi, Milad Tajik, Hossein Resalati, and Yahya Hamzeh

Subjects

Paper, Chemical Phenomena, Starch, Polyacrylamide, Acrylic Resins, Nanofibers, Bagasse pulp, engineering.material, Biochemistry, chemistry.chemical_compound, Biopolymers, stomatognathic system, Structural Biology, Nano, Cellulose, Molecular Biology, Mechanical Phenomena, chemistry.chemical_classification, Pulp (paper), Cationic polymerization, General Medicine, Polymer, Chemical engineering, chemistry, engineering

Abstract

Bio-based additives received significant attention in pulp and paper properties improvement. For this, the most cited biochemical Cellulose Nano Fibrils (CNFs) and Cationic Starch (CS) were experimentally compared with the most declared synthetic chemical, Cationic Polyacrylamide (CPAM). SEM images showed better paper surface filling by the utilization of the chemicals. The three studied polymers, in solely or combination mechanism, improved mainly bagasse pulp and paper properties compared to the blank sample, except for pulp drainage, which decreased by CNFs to lower volumes presumably due to its intrinsic characteristics. Cationic polymers (CP) compared to CP/CNFs approaches increased pulp retention and drainage but decreased paper density and strengths. The best pulp retention and drainage achieved by CS followed by CPAM, while paper air persistency, density, and strength properties evaluated highest by CP/CNFs followed by CNFs. Generally, CS revealed a more significant improvement in pulp and paper properties than CPAM either with or without CNFs.

Published

2021

80. Evaluation of pulp and paper making properties of Caesalpinia decapetela

Author

Tesema Hailu Asrat, Limenew Abate, Mesfin Getachew, and Rakesh Kumar Bachheti

Subjects

biology, Pulp (paper), engineering, Environmental science, General Materials Science, Forestry, Caesalpinia, engineering.material, biology.organism_classification, Pulp and paper industry

Abstract

The world demand for paper has been increased due to the increasing population Therefore, to cop up the limited wood fiber resources introducing raw material in pulp and paper industries is necessary. The aims of this study to evaluate the pulp and paper-making properties of Caesalpinia decapetela based on proximate chemical composition, fiber morphology, pulping, bleaching, and physical test of the final product. The results proximate chemical analysis showed that C. decapetela has holocellulose content of 78.14±0.1 % and lignin content 18.0±0.04 %. Fiber morphology revealed that the fibers were 0.708 mm long, 18.63 μm width, and have 5.1 μm cell wall thicknesses. Kraft pulping of C. decapetale, was performed at different active alkali (5 %, 10 %, 15 %, 20 % and 25 %) and temperature (150, 160 and 170 °C), keeping the sulphidity 25 % constant. The pulp maximum yield 44.1 % was obtained at active alkali content of 15 %, temperature 160 °C, and cooking time 90 minutes. The effect of pulping on fiber morphology was studied using scanning electron microscopy which showed the surface of fiber before pulping was tight, orderly arranged and the texture was relatively hard. After pulping, there was the removal of lignin, hemicellulose, and cellulose. Due to this fiber become soft loosened and contain micro-pores. Pulp produced was bleached, sheet preparation and testing were performed. The prepared paper sheets have a tensile index of 28.19 Nm/gm, burst index of 1.359 kPa m 2 / gm 1.359\hspace{0.1667em}\text{kPa}\hspace{0.1667em}{\text{m}^{2}}/\text{gm} , and tear indices of 4.2 mN m 2 / gm 4.2\hspace{0.1667em}\text{mN}\hspace{0.1667em}{\text{m}^{2}}/\text{gm} . This study concluded C. decapetale can be the new raw material for pulp and paper making industries. However, pilot plant studies are required to check this raw material for the full recommendation of the pulp and paper industries.

Published

2021

81. Applications of Bistable Electroactive Polymers as Rewritable Photonic Paper, Smart Windows and Wearable Pressure Sensors

Author

Xie, Yu

Subjects

Materials Science, Engineering, Bistable electroactive polymer, capacitive sensor, cellulose, photonic crystals, rewritable paper, smart window

Abstract

The flexibility and insulating nature of polymeric dielectric materials are widely used in robotic and wearable electronic devices like electrical insulation, capacitive sensors, and electromechanical actuators. When combined with a phase transition-induced shape memory property, the resultant bistable electroactive polymer (BSEP) opens up new applications due to the rigid-to-rigid actuation of BSEP tremendously reducing the energy consumption for device operation while providing desirable strength for external loads. This dissertation focuses on investigating insulating, electroactive, and phase transition properties of BSEP, and adapting each aspect of the properties in the pursuit of innovative devices, such as rewritable photonic paper, smart windows with whole solar spectrum modulation, and wearable pressure sensors. An ink-free rewritable photonic paper has been invented through the interdisciplinary combination of photonic crystals, shape memory and electroactive properties of BSEP. The rewritable paper consists of a ferroferric oxide-carbon (Fe3O4@C) core–shell nanoparticle (NP)-based photonic crystal embedded in a BSEP. The nanocomposite can be repeatedly triggered to change into different shapes and colors due to the z-directional deformation that is induced by an electric field. The actuated shape and color can be maintained for a long term without energy input, and the stored images can then be rewritten over 500 times without noticeable degradation. Low energy consumption and simple erasing/rewriting are features that match the benefits of conventional paper as a zero-energy and long term data storage medium, but provide the additional advantage of rewritability. With pixelated electrode arrays, user-defined information can be actuated and erased at will which has been demonstrated through a seven-segment numerical display. A smart window with wide-band light modulation is designed solely based on the phase transition property of BSEP. One component of BSEP can be switched between semicrystalline and amorphous states through cooling below or heating above its melting temperature, leading to a reversible opaque-to-transparent transition. The opacity switching property of BSEP was further improved by mixing a more hydrophilic component to induce micro-scale phase separation, which is responsible for the whole solar spectrum light modulation due to Mie scattering. The resultant smart window achieves both high solar transmittance modulation of 70.2% and high luminous transmittance modulation of 80.4% which rivals the best reported smart windows and commercial privacy glasses with the highest privacy levels. This flexible smart window can also be mounted on curved surfaces for the need of windows with arbitrary shapes. This work is the first one to report an all-solid thermochromic smart window film without the inclusion of any metal/metal oxides or liquid crystals to enable a large light modulation over the whole solar spectrum.A flexible fiber-based pressure sensor is realized by applying a dielectric layer on the outside of a TEMPO-oxidized bacterial cellulose (TOBC)/silver nanowire (AgNW) conducting fiber. The pressure sensor can detect pressures up to 134 MPa with sensitivity of 101 � 10-4 kPa-1 due to its hierarchical structure and high conductivity. The porous structure of TOBC/AgNW helps increase the thickness deformation of the sensor with applied pressure, improving the sensing ability. Small pressures of human pulse and voice vibration can be detected with this sensitive pressure sensor. A machine learning classification model was implemented to recognize human’s speech where the prediction accuracy on a test dataset is > 90%. The ultrathin fibrous sensor (53 �m) is capable of high-resolution detection, and suitable as a comfortable and fashionable thread substitute for real wearable devices.The combined properties of BSEP with the proof-of-concept developments of rewritable paper, smart windows and wearable sensors demonstrate its potential for real-world applications. And an outlook for future research and suggested improvements for commercialization are discussed in the conclusion.

Published

2019

82. The Use of Soil Originated by the Pulp and Paper Waste Industry to Intensify the Recultivation Succession of Disturbed Lands

Author

L.B. Tserendylykova, A.V. Bogdanov, A.S. Shatrovа, and A.I. Shkrabo

Subjects

Ecology, Pulp (paper), engineering, Environmental science, Ecological succession, Management, Monitoring, Policy and Law, engineering.material, Pulp and paper industry, Pollution

Abstract

The utilization of waste resulting from the pulp and paper industry as soil for technical and biological recultivation of disturbed lands, industrial waste discharges and other applications in line with their intended purpose use have been explored. Analysis of soil resulting from the frozen sediments of lignin settled sludge of JSC "BPPM" with the WAS resulting from the sewage treatment facilities have been carried out, chemical and agrochemical composition as well as toxicological properties have been studied. It is established that the resulting soil can intensify the recultivation succession of disturbed lands and contribute to plants growth and biomass increase, and their reproduction ability.

Published

2021

83. Anatomical and chemical characterization of Alstonia boonei for pulp and paper production

Author

Enoch Adjei-Mensah and Kojo Agyapong Afrifah

Subjects

Chemistry, ved/biology, General Mathematics, Pulp (paper), ved/biology.organism_classification_rank.species, Paper production, engineering, engineering.material, Pulp and paper industry, Alstonia boonei

Abstract

Alstonia boonei, an abundant lesser utilized species within the West African Subregion, was evaluated as an alternative raw material for pulp and paper production. The basic density (BD), fibre characteristics [fibre length (FL), fibre diameter (FD), lumen diameter (LD) and wall thickness (WT)], derived anatomical indices [Flexibility Ratio (FR), Slenderness Ratio (SR), Rigidity Coefficient (RC), Luce’s Shape Factor (LSF), Solids Factor (SF) and Runkel Ratio (RR)] and chemical composition (lignin, holocellulose, 1% NaOH solubility and ash contents) of A. boonei were studied to evaluate variation along the trunk (base, middle and top portions) and ascertain its suitability for pulp and paper production. Significant variations were observed in the density and fibre characteristics along the trunk of the tree. Although the FD was large, the observed adequate FL, thin-wall and large LD implied easy beating of fibres and manufacture of dense, smooth and strong papers. The favourable SF, RR, FR, RC, and LSF values obtained for the fibres would produce papers with suitable burst and tearing strengths and folding endurance. Chemically the lower lignin (< 30%), ash and 1% NaOH solubility and the high holocellulose contents of A. boonei, will generate a higher pulp yield. A. boonei although a low-density species, will be desirable for pulp and paper production.

Published

2021

84. How Different Carryover Pitch Extractive Components are Affecting Kraft Paper Strength

Author

Jussi Antero Lahti, Roman Poschner, Andrea Hochegger, Ulrich Hirn, Stefan Spirk, Werner Schlemmer, and Erich Leitner

Subjects

Softwood, business.industry, Chemistry, Starch, General Chemical Engineering, Papermaking, Pulp (paper), Paper mill, General Chemistry, engineering.material, Pulp and paper industry, Article, chemistry.chemical_compound, Kraft process, engineering, business, QD1-999, Kraft paper, Unsaturated fatty acid

Abstract

We present how harmful different wood extractives carried over to paper mill with unbleached softwood Kraft pulp are for the strength of packaging papers and boards. The investigations were done by simulating industrial papermaking conditions in laboratory-scale trials for handsheet production. It was found that fatty acids are the most relevant compounds in the carryover pitch extractives (CPEs), as they readily interfere in fiber–fiber bonding strength, control the properties of CPE micelles, and are furthermore the most abundant compounds. Addition of cationic starch improved strength and evened out the strength differences of handsheets with different CPE compounds. Oleic acid (unsaturated fatty acid) was an exception, as it was above average harmful for paper strength without cationic starch and also heavily impaired the functioning of cationic starch. As a whole, these findings demonstrate that fatty acids, especially unsaturated ones, are the most relevant CPE compounds contributing to the reduced efficiency of cationic starch and decreased strength of unbleached softwood Kraft paper. This makes the cleaning of process waters by precipitating CPEs on the pulp fibers harmful for paper strength.

Published

2021

85. Bacterial nanocellulose and softwood pulp for composite paper

Author

N. V. Bychin, G. F. Mironova, V. V. Budaeva, Yu. A. Gismatulina, Nadezhda A Shavyrkina, Yu. V. Sevastyanova, Evgenia K. Gladysheva, and Anastasia E. Sitnikova

Subjects

Pulmonary and Respiratory Medicine, Softwood, Chemistry, Pulp (paper), Pediatrics, Perinatology and Child Health, Composite number, engineering, engineering.material, Pulp and paper industry, Nanocellulose

Abstract

Scaling biosynthesis of bacterial nanocellulose (BNC) allowed samples of composite paper with an increased proportion of BNC to be obtained. This work aims to study BNC samples and bleached soft wood kraft pulp (BSKP) composite paper with a ratio of components varying across a wide range: 10:90, 30:70, 50:50, 60:40, 70:30, 90:10. The method of paper manufacturing was chosen based on the determinations of strength and deformation properties of composite samples with the BNC:BSKP ratio of 20:80. Surface application of BNT on BSKP handsheet provided for an increase in the strength values (tear resistance – by 37%, burst index – by 17%) and deformation characteristics (tension stiffness – by 66%, fracture work – by 8%, breaking length – by 4%) compared to a reference sample. The formation of composites is confirmed in all samples. Scanning electron spectroscopy revealed that paper composites comprise interlaced micro BSKP and nano BNC fibres. As the proportion of BNC in composites elevated, densification of the structure was observed due to an increased fraction of cross-linked nanosized elements. IR spectroscopy indicated the resemblance of cellulose structure in all samples. It was found that an increase in the degree of polymerisation of composite paper is directly proportional to an increase in the BNC amount in the samples. The filtering ability of composite paper samples against microorganisms in the culture liquid of the Medusomyces gisevii Sa-12 producer was studied. It should be noted that yeast retention is achieved with 70% BNC in the paper composite. The presented properties of the new material determine prospects for its use in filtering microorganisms.

Published

2021

86. Optimization of biodegradable paper cup packaging coated with whey protein isolate and rice bran wax as potential popcorn package

Author

Majid Javanmard Dakheli, Sedigheh Ganjizadeh Zavareh, and Behjat Tajeddin

Subjects

business.product_category, Materials science, biology, Nutrition. Foods and food supply, RSM, food and beverages, coating, Paper cup, engineering.material, Whey protein isolate, Coating, engineering, biology.protein, TX341-641, Food science, sense organs, Rice bran wax, business, WVTR, paper cup, snacks, Food Science, Original Research

Abstract

Biodegradable paper cups coated with rice bran wax and whey protein isolate were designed to package popcorn. Coatings with different concentrations of whey protein isolate (5.5, 7.75, and 10% w/v) and rice bran wax (0.2, 0.4, and 0.6% w/v) were applied on the outer surface of the paper cups. Thickness, color changes, Young's modulus and tensile strength, water vapor transmission rate (WVTR) of the coated and uncoated cups, and also popcorns properties (pH, texture, and sensory properties) were evaluated. Water vapor transmission rate, Young's modulus, thickness, total color change index, and tensile strength of coated cups with the optimal coating formulation was 19.785 (g/m2 day), 11.810 (MPa), 276.583 (µm), 1.839, and 11.222 (MPa), respectively. The results showed that paper cup coating increased thickness and yellowness and reduced the brightness, Young's modulus, and WVTR. Coating had a positive effect on the pH and texture of popcorns packaged in coated cups than samples packed in uncoated cups (p, Biodegradable packaging is one of the best types of packaging that wishes not to harm the environment. Paper packaging coated with materials, such as rice bran wax and whey protein isolate, both of which are food waste, can improve paper color and resistance, and provide a good moisture barrier. This type of coating can be used in paper packaging of food such as snacks, noodle packaging, semi‐prepared foods, etc. This type of packaging can also maintain the physicochemical and sensory properties of food for a long time. Also, due to the edible nature of this type of coating, this coating can be used inside the package so that the printability of the packaging surface is not affected.

Published

2021

87. EFFECT OF USING WHEY POWDER ON THE PROPERTIES OF PULP AND PAPER OBTAINED FROM STORED BAGASSE

Author

Mohammad Bervaie, Pejman Rezayati-Charani, and Ahmad Azizi Mossello

Subjects

Chemistry, Pulp (paper), Organic Chemistry, Materials Chemistry, engineering, food and beverages, engineering.material, Pulp and paper industry, Bagasse

Abstract

The aim of this study was to investigate the effect of using whey powder (different concentrations and treatment repetitions) as a probiotic agent on the quantitative and qualitative properties of stored bagasse intended for use in the pulp and paper industry. For this purpose, whey powder was added in three concentrations and the treatment was applied once or twice. After that, soda pulp was prepared under conventional conditions. Then, handsheets (80 g/m2) were made and tested in terms of paper properties, and the results were compared. The findings revealed that increasing the concentration of whey powder and the number of treatments significantly improved the pulp and paper characteristics, thus, using the treatment with 2% whey powder twice and 0.4% whey powder once led to the best results for bagasse protection in terms of quality of the raw material, pulp and handsheets.

Published

2021

88. Eucalyptus Pulp Fibers with In-Situ Precipitated Calcium Carbonate – A 12-Inch Laboratory Paper Machine Study

Author

Bardhyl Bajrami and Klaus Dölle

Subjects

In situ, Materials science, business.product_category, Pulp (paper), engineering.material, Pulp and paper industry, Eucalyptus, chemistry.chemical_compound, Calcium carbonate, Paper machine, chemistry, Filler (materials), engineering, Precipitated calcium carbonate, business, Refining (metallurgy)

Abstract

Paper manufacturing on a global scale is a highly competitive market which requires to constantly improve the manufacturing process to be competitive. To decrease production cost paper manufactures, add filler material prior to sheet forming to replace costly wood fiber based raw material. This research project investigates the use of in-situ precipitated calcium carbonate produced in the presence of eucalyptus fiber material at a 41.0% filler level prior to beating. The in-situ filler containing eucalyptus fiber suspension was used on a 12’ (304mm) wide Laboratory Fourdrinier Paper Machine together with non-filler containing eucalyptus fiber material, and a commercial precipitated calcium carbonate filler material. The manufactured in-situ fiber suspension resulted in a higher ash retention compared to the addition of the powdered commercial PCC filler material. In addition to commercial filler material retention is improved at higher filler addition above 30%. The increased ash retention is linked to the increased micro fibrillation fiber material of the in-situ filler-fiber suspension forming neckless like particles on the fibers microfibrils. Mechanical paper properties showed an improvement for in-situ precipitated filler material compared to commercial filler material addition. Optical properties could be improved in comparison to the eucalyptus fiber without filler addition for in-situ precipitated filler material and a combination of in-situ and commercial filler material.

Published

2021

89. Can carbon capture be a new revenue opportunity for the pulp and paper sector?

Author

Satu Lipiäinen, Esa Vakkilainen, and Katja Kuparinen

Subjects

Mechanical Engineering, General Chemical Engineering, Pulp (paper), Media Technology, engineering, Environmental science, Revenue, General Materials Science, General Chemistry, engineering.material, Pulp and paper industry

Abstract

Transition towards carbon neutrality will require application of negative carbon emission technologies (NETs). This creates a new opportunity for the industry in the near future. The pulp and paper industry already utilizes vast amounts of biomass and produces large amounts of biogenic carbon dioxide. The industry is well poised for the use of bioenergy with carbon capture and storage (BECCS), which is considered as one of the key NETs. If the captured carbon dioxide can be used to manufacture green fuels to replace fossil ones, then this will generate a huge additional market where pulp and paper mills are on the front line. The objective of this study is to evaluate future trends and policies affecting the pulp and paper industry and to describe how a carbon neutral or carbon negative pulp and paper production process can be viable. Such policies include, as examples, price of carbon dioxide allowances or support for green fuel production and BECCS implementation. It is known that profitability differs depending on mill type, performance, energy efficiency, or carbon dioxide intensity. The results give fresh understanding on the potential for investing in negative emission technologies. Carbon capture or green fuel production can be economical with an emission trade system, depending on electricity price, green fuel price, negative emission credit, and a mill’s emission profile. However, feasibility does not seem to evidently correlate with the performance, technical age, or the measured efficiency of the mill.

Published

2021

90. Overview of nanocellulose as additives in paper processing and paper products

Author

Jiuping Rao, Dezhong Xu, Yonghui Zhou, Mizi Fan, Lu Luo, Ao Li, Yalan Zhou, Wen Wei Yan, Xin Leng, Dai Dasong, and Hassan Ahmad

Subjects

Engineering, Technology, Physical and theoretical chemistry, QD450-801, Energy Engineering and Power Technology, Medicine (miscellaneous), nanocellulose bio-additive, 02 engineering and technology, TP1-1185, 010402 general chemistry, 01 natural sciences, Nanocellulose, Biomaterials, paper and paper-based product, business.industry, Process Chemistry and Technology, Chemical technology, 021001 nanoscience & nanotechnology, Environmentally friendly, 0104 chemical sciences, Surfaces, Coatings and Films, Paper recycling, recycle, functionalization, Research development, Biochemical engineering, specialty paper, Value added, 0210 nano-technology, business, Biotechnology

Abstract

The rapid economic growth and environmental concerns have led to high demands on paper and paper-based products in terms of variety, quantity, quality, and specialty. Enhancement and functionalization with additives are constantly required. Moving away from traditional petroleum-based additives, researchers have attempted to use “green” nanoadditives by introducing renewable environmentally friendly nanocellulose. This article studies the functions of nanocellulose as bio-additives (enhancer, retention and filtration reagent, and coating aid) in paper and paper products, and overviews the research development of nanocellulose-based additives and their applications in the paper industry for both efficient production and paper functionalization. The review shows that (1) a variety of nanocellulose-based bioadditives have been reported for various applications in paper and paper-based products, while commercially viable developments are to be advanced; (2) nanocellulose was mostly formulated with other polymer and particles as additives to achieve their synergistic effects; (3) major interests have concentrated on the nanocellulose in the specialty papers as representing more value added products and in the efficient utilization of recycled fibers, which remains most attractive and promising for future development. This report shall provide most useful database information for researchers and industries for paper recycling and enhancement, and paper-based products innovation and application.

Published

2021

91. Sub‐1 nm Nickel Molybdate Nanowires as Building Blocks of Flexible Paper and Electrochemical Catalyst for Water Oxidation

Author

Liu, Huiling, Li, Haoyi, He, Peilei, and Wang, Xun

Subjects

Engineering, Materials Engineering, Chemical Sciences, Nanotechnology, catalysis, oxygen evolution reaction, hierarchical assembly, sub-nanometer, ultrathin nanowires, Nanoscience & Nanotechnology

Abstract

Sub-1 nm, extremely long nickel molybdate nanowires are synthesized based on a good/poor solvent system. The ultrathin nanowires can be hierarchically assembled into flexible, free-standing films with good mechanical properties. Compared with the large-size counterpart, nickel molybdate ultrathin nanowires display promising oxygen evolution reaction catalytic performance derived from the ultrathin feature.

Published

2016

92. Energy efficiency challenges in pulp and paper manufacturing: A tutorial review

Author

Martin A. Hubbe

Subjects

Exergy, Environmental Engineering, business.industry, Computer science, Pulp (paper), Bioengineering, engineering.material, Product (business), Cellulosic ethanol, Process integration, Pinch analysis, engineering, Electricity, Process engineering, business, Waste Management and Disposal, Efficient energy use

Abstract

The pulp and paper industry is highly energy-intensive. In mills that use chemical pulping, roughly half of the higher heating value of the cellulosic material used to manufacture the product typically is incinerated to generate steam and electricity that is needed to run the processes. Additional energy, much of it non-renewable, needs to be purchased. This review considers publications describing steps that pulp and paper facilities can take to operate more efficiently. Savings can be achieved, for instance, by minimizing unnecessary losses in exergy, which can be defined as the energy content relative to a standard ambient condition. Throughout the long series of unit operations comprising the conversion of wood material to sheets of paper, there are large opportunities to more closely approach a hypothetical ideal performance by following established best-practices.

Published

2021

93. Locust bean gum adsorption onto softwood kraft pulp fibres: isotherms, kinetics and paper strength

Author

Jingqian Chen, Heather L. Trajano, and Rodger P. Beatson

Subjects

Softwood, Polymers and Plastics, Chemistry, Adsorption isotherms, Pulp (paper), Locust bean gum, Langmuir adsorption model, engineering.material, Northern bleached softwood kraft, Hemicellulose, Northern bleached softwood kraft pulp, symbols.namesake, chemistry.chemical_compound, Adsorption kinetics, Adsorption, Paper strength additive, Chemical engineering, Kraft process, Chemisorption, symbols, engineering, Original Research

Abstract

The adsorption of locust bean gum (LBG) onto Northern Bleached Softwood Kraft (NBSK) pulp improved paper tensile and burst strength and lowered refining energy by strengthening inter-fibre bonding. Adsorption kinetics and isotherms were investigated to develop a fundamental understanding of the adsorption mechanism. The adsorption rate followed pseudo-second-order kinetics and the activation energy was 99.34 kJ·mol−1, suggesting chemisorption. The adsorption rate constant increased rapidly with temperature from 25 to 45 °C (k = 1.93 to 24.03 g·mg−1·min−1), but the amount adsorbed at equilibrium decreased (qe = 1.91 to 0.48 mg·g−1 o.d. fibre). LBG adsorption to NBSK at 25 °C was consistent with the Langmuir adsorption model for LBG n = 5.00, and the equilibrium constant Kf = 2.57 mg·g−1·(mg·L−1)−1/n at 25 °C. Favorable adsorption conditions for negatively charged LBG were identified: 25 °C for 10 min, low dosage level ( 150 r.p.m.), acidic or neutral conditions (pH 2–7) without salt addition. Graphic abstract

Published

2021

94. DYNAMICS OF THE BACTERIOPLANKTON STATE IN THE SHCHUCHIY BAY OF LAKE LADOGA AFTER THE CLOSURE OF THE PRIOZERSKY PULP AND PAPER MILL

Author

L. L. Kapustina, G. G. Mitrukova, and E. A. Kurashov

Subjects

Hydrology, Ecology, business.industry, Pulp (paper), Closure (topology), Paper mill, Bacterioplankton, engineering.material, engineering, Environmental science, business, Waste Management and Disposal, Bay, Water Science and Technology

Abstract

Introduction. The Shchuchiy Bay is located in the western part of the skerry area of Lake Ladoga near the town of Priozersk. For almost 20 years, the bay has experienced an anthropogenic impact from the ingress of untreated wastewater from the Priozersk Pulp and Paper Mill (PPM). Systematic microbiological studies of the Shchuchiy Bay ecosystem were started in the middle of the 1970s by the Institute of Limnology of the Russian Academy of Sciences and continued after the PPM closure in 1986. Materials and methods. The ecosystem of the bay was studied in detail during the growing season of 2013–2014; periodic studies were carried out in 2015–2018. Retrospective data were also used for the analysis. Water samples were taken at four stations from the surface horizon. The following microbiological indicators were determined: the abundance of bacterioplankton and the percentages of various morphological types of bacterial cells. Results and discussion. A comparison of the quantitative level of development of the bacterial community in the bay in different periods showed a gradual decrease in the abundance of bacterioplankton as the anthropogenic impact weakened after the closure of the Priozersky PPM from 12.40 million cells ml–1 in 1987 to an average value of 2.62±1.03 million cells ml–1 in 2013–2018. A positive correlation was found between the concentration of bacteria and water temperature. The percentage of rod-shaped microorganisms in the water of the bay also decreased as the anthropogenic impact weakened from 73.4 % in 1987 to 53.1±7.6 % in 2013–2018, which indicated an improvement in water quality. Conclusion. A stable decrease in the abundance of bacteria from the level characteristic of highly polluted and eutrophic water bodies to the level characteristic of mesotrophic and mesotrophic-eutrophic water bodies is a reliable criterion for the restoration of the ecosystem of the Shchuchiy Bay to the state characteristic of similar bays of Lake Ladoga.

Published

2021

95. Integrated forest biorefinery network design under demand uncertainty: a case study on canadian pulp & paper industry

Author

Masoumeh Kazemi Zanjani, Mustapha Nourelfath, and Mohammad Belgasem Elaradi

Subjects

Network planning and design, Strategy and Management, Pulp (paper), engineering, Environmental science, Management Science and Operations Research, engineering.material, Biorefinery, Pulp and paper industry, Industrial and Manufacturing Engineering

Abstract

Transforming Pulp and Paper (P&P) mills into Integrated Forest Biorefineries (IFBR) is a prominent solution to save Canadian P&P industry that has been facing decline of conventional paper demand. ...

Published

2021

96. H2O2 bleaching of brown pulp with adsorbed xylan and its modifying effects on the mechanical properties of paper

Author

Li Nanhua, Li Lizi, Zuo Leigang, Junfei Tian, Xue Zhang, Yan Luming, Xianyong Du, and He Jiang

Subjects

Environmental Engineering, genetic structures, Bleach, Pulp (paper), Xylan (coating), Bioengineering, engineering.material, Pulp and paper industry, chemistry.chemical_compound, Adsorption, stomatognathic system, chemistry, Kraft process, Hardwood, engineering, Hemicellulose, sense organs, Hydrogen peroxide, Waste Management and Disposal

Abstract

Xylan is the primary hemicellulose in most hardwood species, especially in birch. Research has highlighted the exploitation of xylans as a strength-enhancing additive to paper due to the current trend for the effective utilization of biomass. In this paper, a new pulping process was proposed, which involved the extraction of xylan prior to pulping, followed by the re-adsorption of the pulp after the final stage in the digester, followed by a suitable bleaching process. The aim of this work was to bleach hardwood kraft pulp (brown pulp) with adsorbed birch xylan via hydrogen peroxide and study the effect of the bleaching parameters on the paper properties. The results showed that the optical properties of paper decreased; however, the mechanical properties increased after the brown pulp adsorbed birch xylan. During the bleaching process, better mechanical properties were obtained with shorter bleaching times and lower bleaching temperatures, initial pHs, and MgSO4 dosages. However, the optical properties were improved as the bleaching time, temperature, initial pH, and MgSO4 dosage were increased. The adsorption of birch xylan could effectively modify the mechanical properties of paper made from brown pulp under various phases.

Published

2021

97. Agricultural Residues as an Alternative Source of Fibre for the Production of Paper in Kenya-A Review

Author

Morelly Adalla, Boniface Oure, Fredrick Onyango Ogutu, John Odhiambo Otieno, and Treezer Nelly Okumu

Subjects

stomatognathic diseases, stomatognathic system, Chemistry, Agriculture, business.industry, Management of Technology and Innovation, Pulp (paper), engineering, Production (economics), engineering.material, Pulp and paper industry, business

Abstract

The pulp and paper industry is primarily dependent on fibrous wood for pulp and paper production. However, this over-dependence on fibrous wood poses serious environmental challenges such as the diminishing of the fibrous wood stocks, deforestation, emission of greenhouse gases, and global warming. Therefore, to mitigate these environmental challenges associated with its utilization for paper and pulp production, other sustainable raw material sources can also be considered for the production of paper and pulp. There are enormous benefits associated with the utilization of non-wood fibres as an alternative and sustainable raw materials source for the production of paper and pulp. These benefits have in the recent past prompted millers in China, India, Brazil, and the USA to consider the utilization of non-wood fibres in paper and pulp production. In Kenya, the pulp and paper industry is very much dependent on fibrous wood for production and the industry is yet to fully embrace the utilization of nonwood fibres for paper and pulp production. Further, the dependence on fibrous wood has contributed significantly to the decline of paper pulp and paper production, deforestation, and rise in paper importations due to insufficient raw material supplies. The importation of paper and pulp products has further led to the collapse of the paper industry in Kenya. The sector stands a chance of revival and vibrancy through the utilization of the abundant agricultural residues and feedstocks lying in the agricultural fields across the country. Similar experiences elsewhere have proved that the abundance of agricultural waste can be utilized for the production of paper and pulp due to their excellent fibre content for specialty papers, and easy pulpability. The agricultural residues are therefore considered a quintessential alternative and sustainable source of raw materials for the pulp and paper industry. Moreover, their utilization will mitigate environmental impacts such as deforestation, climate change, and pollution .

Published

2021

98. LC-HRMS screening of per- and polyfluorinated alkyl substances (PFAS) in impregnated paper samples and contaminated soils

Author

Christian Zwiener, Rebecca Bauer, Martin E. Maier, Florian Herrmann, and Boris Bugsel

Subjects

Paper, 010504 meteorology & atmospheric sciences, Soil test, PFAS, HRMS, 010501 environmental sciences, engineering.material, 01 natural sciences, Biochemistry, Perfluorinated carboxylic acids, Analytical Chemistry, Soil, chemistry.chemical_compound, Fluorotelomer, Alkyl, 0105 earth and related environmental sciences, chemistry.chemical_classification, Chemistry, Compost, Contamination, Phosphate, Environmental chemistry, Soil water, engineering, Soil horizon, Research Paper

Abstract

High per- and polyfluorinated alkyl substance (PFAS) concentrations have been detected in agricultural soils in Southwest Germany. Discharges of PFAS-contaminated paper sludge and compost are suspected to be the cause of the contamination. Perfluorinated carboxylic acids (PFCAs) have been detected also in groundwater, drinking water, and plants in this area. Recently, previously unknown compounds have been identified by high-resolution mass spectrometry (HRMS). Major contaminants were polyfluorinated dialkylated phosphate esters (diPAPs) and N-ethyl perfluorooctane sulfonamide ethanol–based phosphate diester (diSAmPAP). In this study, HRMS screening for PFAS was applied to 14 soil samples from the contaminated area and 14 impregnated paper samples which were from a similar period than the contamination. The paper samples were characterized by diPAPs (from 4:2/6:2 to 12:2/12:2), fluorotelomer mercapto alkyl phosphates (FTMAPs; 6:2/6:2 to 10:2/10:2), and diSAmPAP. In soil samples, diPAPs and their transformation products (TPs) were the major contaminants, but also FTMAPs, diSAmPAP, and their TPs occurred. The distribution patterns of the carbon chain lengths of the precursor PFAS in soil samples were shown to resemble those in paper samples. This supports the hypothesis that paper sludge is a major source of contamination. The presence of major degradation products like PFCAs, FTSAs, or PFOS and their distribution of carbon chain lengths indicate the activity of biotic or abiotic degradation processes and selective leaching processes from the upper soil horizons. Graphical abstract Supplementary Information The online version contains supplementary material available at 10.1007/s00216-021-03463-9.

Published

2021

99. Incineration of Pulp and Paper Mill Waste in Supercritical Water Using Methane as a Co-Fuel

Author

M. Ya. Sokol, A. V. Shishkin, Anatoly A. Vostrikov, D. O. Artamonov, and Oxana N. Fedyaeva

Subjects

Environmental Engineering, Waste management, business.industry, Pulp (paper), Energy Engineering and Power Technology, chemistry.chemical_element, Paper mill, engineering.material, Condensed Matter Physics, Oxygen, Supercritical fluid, Methane, Volumetric flow rate, Incineration, chemistry.chemical_compound, chemistry, Modeling and Simulation, Empirical formula, engineering, Environmental science, business

Abstract

The paper presents a research on the disposal of the toxic waste of pulp and paper mill (sludge-lignin with the empirical formula CH1.51N0.05S0.03Cl0.01O0.54through its oxidation in supercritical water-oxygen fluid, including the case of using methane as a co-fuel. The experiments were carried out with a flow reactor of original design at a pressure of 25 MPa, temperature gradient along the vertical axis (from top to bottom: 390–600°C), and variation in the flow rate of the sludge-lignin (with the addition of NaOH, 1.6 wt %), oxygen, and methane. The experiments yielded data on the content of phenols in the water and the composition of the gaseous products collected at the outlet of the reactor versus the oxygen excess ratio. From these data, as well as the time dependences of the reactor wall temperature and the power of the ohmic heaters, it follows that using distributed supply of methane to compensate for the energy for heating of the reagents is preferable as compared with local inlet of methane to the upper part of the reactor. It has been shown that the addition of methane makes it possible to reduce the oxygen excess required for complete oxidation of the organic components of sludge-lignin.

Published

2021

100. ASSESSMENT OF FIBRE CHARACTERISTICS OF SPONDIA MOMBIN L. (ANACARDIACEAE) FOR PULP AND PAPER PRODUCTION

Author

David Oriabure Ekhuemelo, B. T. Aondoaver, and Emmanuel Terzungwue Tembe

Subjects

Animal science, biology, Pulp (paper), engineering, Paper production, Anacardiaceae, engineering.material, Raw material, biology.organism_classification, Mathematics

Abstract

The fibre characteristics of five Spondia mombin stands were studied to determine their suitability for pulp and paper production. Wood slivers obtained parallel to grain at three (3) different positions along the bole were macerated in combined identical amounts of glacial acetic acid plus hydrogen peroxide under heat at between 80-100o C. Macerated fibres were washed clean of mixture and mounted on slide for microscopic examination of fibre characteristics. Completely Randomized Design (CRD) was employed for the experiment. Data were analysed using one-way Analysis of Variance (ANOVA) while, the Duncan’s Multiple Range Test (DMRT) was used to separate means of significant differences among the treatments. Results show that significant differences existed in fibre characteristic of sampled trees, however the fibre length ranged from 0.98-1.0 mm, fibre diameter (18.22-21.47 um), lumen width (10.90-12.98 um) and cell wall thickness (3.86-4.60 um). Significant differences were also observed among the derived fibre characteristics, the Runkel ratio ranged from 0.66-8.89, elasticity coefficient (57.22-60.50 %), coefficient of rigidity (19.78-22.24 %), slenderness ratio (43.27-46.5). This implied that, the fibres of S. mombin were short and elastic which make the wood species an appropriate raw material for pulp and paper making especially when blended with other long fibre species.

Published

2021