Showing total 424,118 results

51. 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

52. To Stand the Test of Time: Long-Term Stewardship of Digital Data Sets in Science and Engineering. A Report to the National Science Foundation from the ARL Workshop on New Collaborative Relationships--The Role of Academic Libraries in the Digital Data Universe (Arlington, Virginia, September 26-27, 2006)

Author

Association of Research Libraries, Friedlander, Amy, and Adler, Prudence

Abstract

The rapid adoption of information technology and ubiquitous networking has transformed the research and education landscape. Central to this transformation are scientific and engineering digital data collections. The life cycle management challenges associated with these intellectual assets are substantial. This is a report of a two-day workshop that examined the role of research and academic libraries with other partners in the stewardship of scientific and engineering digital data. Workshop participants explored issues concerning the need for new partnerships and collaborations among domain scientists, librarians, and data scientists to better manage digital data collections; necessary infrastructure development to support digital data; and the need for sustainable economic models to support long-term stewardship of scientific and engineering digital data for the nation's cyberinfrastructure. The workshop builds on prior studies supported by the National Science Foundation (NSF), engaging numerous research communities. It reflects the recognition, voiced in many NSF workshop reports, that digital data stewardship is fundamental to the future of scientific and engineering research and the education enterprise, and hence to innovation and competitiveness. Overall, it is clear that an ecology of institutional arrangements among individuals and organizations, sharing an infrastructure, will be required to address the particularities of heterogeneous digital data and diverse scholarly and professional cultures. The background of the workshop is described in Chapter I. Descriptions of the discussions of the three major topics from the three breakout groups and in plenary sessions are provided in Chapters II, III, and IV, and Chapter V discusses additional topics raised in the plenary sessions and final recommendations. Appended are: (1) List of Participants; (2) Agenda; (3) Plenary Papers; (4) Breakout Session Reports; (5) Position Papers; and (6) Examples of Scientific Community Archives. (Contains 11 figures, 2 boxes, 20 footnotes and 5 endnotes.)

Published

2006

53. 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

54. Building a Framework for Engineering Design Experiences in STEM: A Synthesis

Author

National Center for Engineering and Technology Education (NCETE) and Denson, Cameron D.

Abstract

Since the inception of the National Center for Engineering and Technology Education in 2004, educators and researchers have struggled to identify the necessary components of a "good" engineering design challenge for high school students. In reading and analyzing the position papers on engineering design many themes emerged that may begin to form a narrative for engineering design in a high school setting. Before educators can provide a framework for engineering design in STEM courses, four questions need to be answered: (a) To what degree should engineering design challenges be open-ended or well-structured? (b) What are the relationships between engineering design experiences and standards-based instruction in STEM courses? (c) What is an effective sequencing of age-appropriate engineering design challenges? and (d) To what extent should engineering habits of thought and action be employed in resolving the challenges? Collectively, the six position papers (Carr & Strobel, 2011; Eisenkraft, 2011; Hynes et al, 2011; Jonassen, 2011, Schunn, 2011; Sneider, 2011) provide an intriguing foundation for answering these questions and forming a framework for engineering design in high school STEM courses. This synthesis paper discusses the most pervasive themes of the papers and provides a narrative for answering the question, "What are the requirements for a good engineering design challenge?" The following emergent themes provide some guidance to finding answers for that question: (1) engineering design in the science curriculum; (2) assessing the engineering design experience; (3) sequencing the engineering design experiences; and (4) choosing engineering design challenges. By addressing these areas of contention, the education community can begin to lay the curricular and pedagogical groundwork needed to provide successful engineering experiences for high school students.

Published

2011

55. 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

56. 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

57. 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

58. 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

59. 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

60. 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

61. 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

62. 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

63. Reliability Optimization Design of Constrained Metamorphic Mechanism Based on the Augmented Assur Groups.

Author

Yang, Qiang, Zhang, Hongxiang, Sun, Benqi, Gao, Yuan, and Zhao, Xin

Subjects

PAPER arts, CONSTRAINED optimization, SENSITIVITY analysis, EVALUATION methodology, ENGINEERING

Abstract

In order to obtain stable and reliable configuration transformation ability, reliability optimization design is regarded as an effective way to reduce the probability of kinematic function failure for the constrained metamorphic mechanism. Based on the structural composition principle of multi-configuration source metamorphic mechanism that can operate in an under-actuated state, the modularized calculation methods are established for the force analysis of augmented Assur groups including metamorphic kinematic joints. According to the equivalent resistance gradient model of metamorphic mechanisms, with considering the uncertainties in the link dimensions, masses, and compliance parameters et al., a probabilistic evaluation method for describing the configuration transformation ability of the constrained metamorphic mechanism is established. Based on reliability evaluation and reliability sensitivity analysis, a reliability optimization design method for improving the configuration transformation ability is proposed, and then the optimization design is carried out for tolerances of random variables focusing on those structural parameters with higher reliability sensitivity, so that the optimized results can satisfy the requirements of both reliability and economic simultaneously. Finally, the feasibility and effectiveness of the proposed method is verified by the illustration of a paper folding metamorphic mechanism. The research provides the foundation of reliability design of metamorphic mechanisms to obtain the high-probability repeated execution ability of configuration transformation, it also has theoretical and practical significance to promote the engineering application of metamorphic mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

64. 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

65. Integrated intravascular ultrasound and optical coherence tomography technology: a promising tool to identify vulnerable plaques [INVITED PAPER]

Author

Li, Jiawen and Chen, Zhongping

Subjects

Fluid Mechanics and Thermal Engineering, Engineering, Biomedical Engineering, Bioengineering, Heart Disease - Coronary Heart Disease, Cardiovascular, Biomedical Imaging, Heart Disease, Atherosclerosis, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, IVUS, Optical coherence tomography, cardiology, integraged IVUS/OCT, intravascular OCT, intravascular imaging, multi-modality imaging, ultrasound, vulnerable plaques

Abstract

Heart attack is mainly caused by the rupture of a vulnerable plaque. IVUS-OCT is a novel medical imaging modality that provides opportunities for accurate assessment of vulnerable plaques in vivo in patients. IVUS provides deep penetration to image the whole necrotic core while OCT enables accurate measurement of the fibrous cap of a plaque owing to its high resolution. In this paper, the authors describe the fundamentals, the technical designs and the applications of IVUS-OCT technology. Results from cadaver specimens are summarized, which indicated the complementary nature of OCT and IVUS for assessment of vulnerable plaques, plaque composition, and stent-tissue interactions. Furthermore, previously reported in vivo animal experiments are reviewed to assess the clinical adaptability of IVUS-OCT. Future directions for this technology are also discussed in this review.

Published

2015

66. Infusing Engineering Design into High School STEM Courses

Author

National Center for Engineering and Technology Education (NCETE), Hynes, Morgan, Portsmore, Merredith, Dare, Emily, Milto, Elissa, Rogers, Chris, Hammer, David, and Carberry, Adam

Abstract

The Tufts University Center for Engineering Education and Outreach (CEEO) strives to improve STEM education through engineering and believes every student should have the chance to engineer. Situated in Massachusetts, the first state to adopt engineering education at all levels in public schools (Massachusetts DOE, 2001), the CEEO supports the belief that engineering education starts in kindergarten and continues to develop throughout their K-12 schooling. The authors also believe that at the core of K-12 engineering is the Engineering Design Process (EDP). The purpose of introducing students to the EDP is to teach students that engineering is about organizing thoughts to improve decision making for the purpose of developing high quality solutions and/or products to problems. Three key concepts in successful implementation of the EDP are: (1) students are engineers; (2) teachers need to listen to their students; and (3) classroom environments need to change to properly enable learning through the EDP. Recently, the authors worked with the Massachusetts State Department of Education to produce a revised engineering design document that describes a learning progression for the EDP from kindergarten through high school. This white paper describes the high school portion of that document geared toward the activities or skills they associate with the EDP as defined by the current Massachusetts curriculum frameworks. This depiction of the EDP implies a cyclical, stepwise process that is rarely the case in solving real-world engineering problems. Oftentimes the task requires some jumping around from step to step. By adopting this slightly adjusted paradigm, students will recognize that the EDP does not rely upon rigid thinking, but provokes creative and outside-the-box thinking. (Contains 1 figure.)

Published

2011

67. 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

68. 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

69. 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

70. 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

71. 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

72. 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

73. 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

74. Application of modified cellulose nanofibrils as coating suspension on recycled paper using size press

Author

Tamer Sözbir, Ahmet Tutuş, Recai Arslan, Ufuk Killi, Bayram Poyraz, Selva Sertkaya, Ayhan Tozluoğlu, Hakan Fidan, and [Belirlenecek]

Subjects

0106 biological sciences, Materials science, size press, Pulp, 02 engineering and technology, mechanical properties, engineering.material, Modified cellulose, 01 natural sciences, Nano-Fibrillated Cellulose, Coating, 010608 biotechnology, Cationic Starch, General Materials Science, Barrier Properties, Suspension (vehicle), cellulose nanofibers, Nanocellulose, Eucalyptus, coating, Forestry, 021001 nanoscience & nanotechnology, Microfibrillated Cellulose, Chemical engineering, Improve, recycled paper, engineering, Strength, 0210 nano-technology

Abstract

Cellulose based nanomaterials have the great potential to be applied to paper as bulk additive or coating material to improve overall final properties, especially in secondary fiber. In the present work, the effect of applying different kinds of cellulose nanofibrils (CNF) to papers obtained from recycled fibers using size press on physical, mechanical and barrier properties was investigated and compared with the sole use of starch as coating material. The coating process of CNF was carried out by the addition of size press grade starch to coating suspension. As a cellulose source, wheat straw was evaluated and CNF was obtained through oxidative and enzymatic pretreatments. Results indicate that starch/CNF suspension improves the overall paper properties. As a result of the deposition of coating suspension contains of 4 % wt. periodate-oxidized CNF onto paper surface, tensile and burst indices of papersheets increased as 52.2 % and 194.4 %. Significant decreases were observed in air permeability as 69.8 %. Compression tests also have been conducted to evaluate papersheets end-use properties. In comparison to the other pretreated CNF, due to is lower viscosity, applying periodate-oxidized CNF as size press significantly increased the mechanical properties of the papers fabricated from the recycled pulps. TUBITAK-TEYDEBTurkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [1505]; Scientific and Technological Research Council of Turkey, Technology and Innovation Funding Programs Directorate [1505, 5180044] This work was supported by TUBITAK-TEYDEB 1505 (The Scientific and Technological Research Council of Turkey, Technology and Innovation Funding Programs Directorate 1505), Project No. 5180044. WOS:000703585400013 2-s2.0-85108063350

Published

2021

75. Chemical and morphological evaluation of the suitability of banana pseudo-stem waste for pulp and paper production

Author

ERSOY KALYONCU, Evren and ONDARAL, Meryem

Subjects

tarımsal atık, banana pseudo-stem, pulp and paper production, morfolojik özellikler, Mühendislik, food and beverages, Forestry, SD1-669.5, Banana pseudo-stem,Chemical properties,Morphological properties,Pulp and paper production,Agricultural waste, Engineering, morphological properties, Muz yalancı gövde,Kimyasal özellikler,Morfolojik özellikler,Kağıt hamuru ve kağıt üretimi,Tarımsal atık, muz yalancı gövde, kimyasal özellikler, agricultural waste, kağıt hamuru ve kağıt üretimi, chemical properties

Abstract

In this study, it was aimed to investigate the chemical and morphological suitability of using pseudo-stem which are formed in large amounts during the fruit harvesting of the banana plant (Musa sapientum) with a widespread agricultural area in the world, as raw material in the paper industry. The main chemical constituents of banana pseudo-stem holocellulose, α-cellulose and lignin were determined as %77.5, %51.0 and %12.7, respectively. Hot water solubility was 17.3%, cold water solubility 13.0%, alcohol and 1% NaOH solubility values were 9.2% and 33.3%, respectively. It has been determined that banana pseudo-stem waste fibers, which are similar to softwood fibers in terms of fiber length and hardwood fibers in terms of fiber width, have high slenderness and flexibility ratios with low Runkel ratio, rigidity coefficient and Mühlstep ratio. The results obtained from chemical and morphological analyzes indicated that banana pseudo stem waste is a suitable raw material for pulp and paper production., Bu çalışmada dünyada yaygın bir tarım alanına sahip muz bitkisinin (Musa sapientum) meyve hasadı sırasında oldukça fazla miktarda oluşan gövde atıklarının, kağıt endüstrisinde hammadde olarak kullanılabilirliğinin kimyasal ve morfolojik açıdan uygunluğunun araştırılması amaçlanmıştır. Muz yalancı gövdesinin başlıca kimyasal bileşenleri holoselüloz, α-selüloz ve lignin sırasıyla %77.5, %51.0 ve %12.7 olarak tespit edilmiştir. Sıcak su çözünürlüğü %17.3, soğuk su çözünürlüğü %13.0, alkol ve %1 NaOH çözünürlük değerleri ise sırasıyla %9.2 ve %33.3 olarak bulunmuştur. Lif uzunluğu bakımından iğne yapraklı ağaç odunu liflerine, lif genişliği bakımından ise yapraklı ağaç odunu liflerine benzeyen muz yalancı gövde atığı liflerinin düşük Runkel oranı, rijitlik katsayısı ve Mühlstep oranı ile yüksek narinlik ve esneklik oranlarına sahip olduğu tespit edilmiştir. Kimyasal ve morfolojik analizlerden elde edilen sonuçlar, muz yalancı gövde atıklarının kağıt hamuru ve kağıt üretimi için uygun bir hammadde olduğunu göstermiştir.

Published

2021

76. Magnetic Separation of Micro Beads and Cells on a Paper-Based Lateral Flow System

Author

FAROOQİ, Muhammad Fuad and İÇÖZ, Kutay

Subjects

History, Engineering, Multidisciplinary, Image processing, Magnetophoresis, Cancer cells, Bright-field optical microscope, Polymers and Plastics, Mühendislik, General Engineering, Business and International Management, Paper based lateral assay, Industrial and Manufacturing Engineering

Abstract

Paper based lateral flow systems are widely used biosensor platforms to detect biomolecules in a liquid sample. Proteins, bacteria, oligonucleotides, and nanoparticles were investigated in the literature. In this work we designed a magnetic platform including dual magnets and tested the flow of micron size immunomagnetic particles alone and when loaded with cells on two different types of papers. The wetting conditions of the paper and the applied external magnetic field are the two dominant factors affecting the particle and cell transport in paper. The images recorded with a cell phone, or with a bright field optical microscope were analyzed to measure the flow of particles and cells. The effect of wetting conditions and magnetic force were measured, and it was shown that in the worst case 90% of the introduced cells reached to the edge of the paper. The paper based magnetophoretic lateral flow systems can be used for cell assays.

Published

2022

77. Implementation of lean tools and techniques in an ethical papers production industry

Author

Bhuvanesh Kumar M and Kukhan S

Subjects

Engineering, Engineering management, 5S, Kaizen, business.industry, Lean manufacturing, Production (economics), Continuous production process, Paper manufacturing industry, business

Abstract

Lean manufacturing (LM) is established as a best practice to improve the performance of manufacturing industries. Not all the manufacturing industries realize the benefits of LM practices specifically continuous process industries. The present research work is intended to study the advantages of implementing LM practices in an ethical paper industry which is a continuous production industry. Presently, the industry suffers with the problems such as lack of productivity, raw material wastes, underutilized resources, and lack of standard practices in the production. Gemba technique is adapted to record the information related to the present manufacturing environment. Based on the current state analysis, the feasible lean tools are selected and implemented such as 5S, Kaizen, and Total Productive Maintenance (TPM). The improvements have been noted as reduced tool change over time, reduced material wastes, effective utilization of resources and provide safety guidelines to workers and operations. The implications of these improvements increased the productivity also.

Published

2021

78. COMPOSITE SORBENTS BASED ON DIATOMITE-BENTONITE AND PAPER-PULP FOR THE REMOVAL OF HEAVY METALS

Author

Hambardzum H. Khachatryan, Martin S. Hayrapetyan, Hranoush H. Darbinyan, Armen I. Martiryan, and S. S. Hayrapetyan

Subjects

Materials science, Pulp (paper), Bentonite, Composite number, engineering, Heavy metals, General Medicine, engineering.material, Pulp and paper industry

Abstract

The sorption properties of organomineral composite sorbents have been investigated by ICP-MS method. The diatomite of the Jradzor deposit and bentonite of the Sarigyuh deposit (Armenia) were used as inorganic constituents. Diatomite serves as a structure-forming component and provides mass transfer due to its high porosity (V = 2.0 cm3/g) and large pore sizes (150–200 nm). Bentonite is responsible for the functionality of the sorbents. The organic component is also responsible for the functionality of the obtained sorbents. Paper pretreated with acids (nitric and phosphoric) was used as an organic component. A synthetic solution containing cations of heavy metals was used as an object of study. The experiments were carried out in static mode on a Jar-Test device.

Published

2021

79. In situ formation of zinc oxide on bamboo bleached pulp in preparation of antibacterial paper: Effect of precursors addition

Author

Zakiah Sobri, Norzita Yacob, Luqman Chuah Abdullah, Paik San H'ng, Ainun Zuriyati Mohamed Asa’ari, and Edi Syams Zainudin

Subjects

In situ, Environmental Engineering, Materials science, Scanning electron microscope, Pulp (paper), chemistry.chemical_element, Bioengineering, Zinc, engineering.material, Amorphous solid, Field emission microscopy, Crystallinity, chemistry, engineering, Dispersion (chemistry), Waste Management and Disposal, Nuclear chemistry

Abstract

An approach of green in situ synthesis single-step method was applied to produce antibacterial paper. The objective was to investigate the effect of precursor addition on the formation of zinc oxide particles using an in situ single-step method. Zinc chloride concentrations of 0.1, 0.3, 0.5, and 0.7 M were prepared and added into a solution of algae extract and bamboo pulp. The prepared pulps were tested and made into handsheets using a papermaking machine based on TAPPI T205 (2006). Morphological observation of treated papers was conducted using a field emission scanning electron microscope (FESEM). An average of 400 to 570 nm zinc oxide spherical-shaped particle was observed on the fibers of paper. The percentage of element composition of the treated paper were 15.08% to 34.08% of zinc and 17.45% to 32.59% of oxygen captured via scanning electron microscopy with energy dispersive X-ray (SEM-EDX) analysis. The crystallinity test was performed using X-ray dispersion (XRD). A higher percentage of precursors exhibited a more amorphous structure. A measurement of more than 30% increment of inhibition zone was obtained from 10.00 to 25.00 mm against S. aureus, S. choleraesuis, and E. coli. Precursors addition of more than 0.3 M would have the most potential to enhance the growth of zinc oxide via in situ preparation, hence providing better antibacterial properties of the prepared papers.

Published

2021

80. Effects of yellow natural dyes on handmade Daqian paper

Author

Yanbing Luo and Xiujuan Zhang

Subjects

Archeology, Thermogravimetric analysis, Materials science, Fine Arts, Conservation, Cork, engineering.material, 01 natural sciences, 0103 physical sciences, Ultimate tensile strength, Conservation treatment, QD71-142, 010304 chemical physics, 010401 analytical chemistry, Thermal decomposition, Historical paper, Microstructure, Folding endurance, 0104 chemical sciences, Chemical engineering, engineering, Yellow natural dyes, Property changes, Analytical chemistry, After treatment

Abstract

Natural yellow plant dyes and traditional medicines were used widely on historical papers in ancient China for religious reasons and conservation considerations. This study aims to evaluate some traditional yellow botanical sources of dyes that contain different chemical colorant compositions in order to understand their effects on the properties of traditional handmade paper. The physical and chemical changes in paper specimens treated with plant dyes were studied by examining properties such as the color, pH, thermogravimetric (TG) characteristics, tensile strength, folding endurance and microstructure by scanning electron microscopy (SEM). The results indicated that different colorants had different toning effects and that the main components, including carboxyl and ketone groups, could affect the paper stability at high temperatures. The results also revealed that the mechanical properties of paper specimens were improved after treatment with plant dyes. The significant improvements in the tensile strength and folding endurance and the slightly higher decomposition temperature of Amur cork tree-dyed paper could be ascribed to the strong interaction between the colorants’ main components and the fibers. The scientific evaluation of the property changes is therefore valuable information for weighing the advantages and disadvantages of the various yellow toning materials for paper conservation treatment.

Published

2021

81. A comparative study of the effect of cellulose-based deep coating and pulp refining on the structural and mechanical properties of paper

Author

Elzbieta Sasiadek, Konrad Olejnik, Marta Krysztof, Aleksandra Erdman, and Piotr Kulpinski

Subjects

Tear resistance, Environmental Engineering, Materials science, Pulp (paper), Regenerated cellulose, Bioengineering, engineering.material, Cellulose fiber, chemistry.chemical_compound, Coating, chemistry, Air permeability specific surface, Ultimate tensile strength, engineering, Cellulose, Composite material, Waste Management and Disposal

Abstract

A new coating method was developed, based on cellulose regenerated from an N-methylmorpholine N-oxide (NMMO) solution applied to paper. In particular, the purpose of this study was to compare the effectiveness of the “deep coating” method using cellulose regenerated from NMMO solution and the classic pulp refining process as methods to improve paper mechanical properties and overall quality. The “deep coating” name comes from the fact that the coating process is combined with subsequent heating of the coating before its final solidification. As a result of this operation, deep penetration of the cellulosic solution into the paper structure occurs. This increases the contact surface of the solution with the cellulosic fibers, which increases the strength properties of the paper structure. It was found that the cellulosic coating increased the apparent density of the paper, the tensile strength, the elongation, the resistance to bursting, and the double fold number. However, the coating also decreased the air permeability and the tear resistance of the paper samples. Despite some technological difficulties, this method could be an attractive solution in the case of a need for additional functionalization of a paper structure.

Published

2021

82. High-strength reduced graphene oxide paper prepared by a simple and efficient method

Author

Wenzhong Yang, Liming Shen, Ningzhong Bao, Chengjie Weng, and Wen Li

Subjects

Materials science, Graphene, Mechanical Engineering, Oxide, Graphite oxide, Conductivity, engineering.material, Exfoliation joint, law.invention, chemistry.chemical_compound, chemistry, Coating, Mechanics of Materials, law, Ultimate tensile strength, engineering, General Materials Science, Composite material, Graphene oxide paper

Abstract

Excellent mechanical and electrical properties of graphene-based paper-like materials are essential for applications in flexible conductors, energy-storage devices, etc. The graphene oxide (GO) supernatant separated by centrifugation and ultrasonication has been used to prepare graphene oxide paper and reduced graphene oxide paper (rGOP) with high strength and conductivity. However, this method has cumbersome steps and low supernatant concentration, which greatly increases time and energy consumption, and is not suitable for rapid batch preparation of high-strength and high-thickness rGOP. Herein, a high-speed mechanical shearing method has been used to efficiently exfoliate graphite oxide suspension into high-concentration GO slurry with large lateral size, and rGOP has been further prepared by blade coating and HI acid chemical reduction. Compared with the product prepared by ultrasonic exfoliation method, the average area of GO sheets obtained via the mechanical shear exfoliation method can reach around 16.31 μm2. As a result, the mechanical properties and conductivity of the prepared rGOP have been increased by 30% and 23.5%, respectively, with the tensile strength and electrical conductivity of 478.2 MPa and 208.4 S/cm being obtained. The developed method is of great significance for the large-scale production and emerging applications of lightweight and high-performance rGOP.

Published

2021

83. Bioremoval capacity of phenol by some selected endophytic fungi isolated from Hibiscus sabdariffa and batch biodegradation of phenol in paper and pulp effluents

Author

Doaa Montaser Ahmed Khalil, Mohamed Salah Massoud, Magdi A. El-Sayed, and Soad A. El-Zayat

Subjects

Microbiology (medical), Fusarium, aspergillus, biodegradation, biology, Pulp (paper), Hibiscus sabdariffa, engineering.material, Biodegradation, biology.organism_classification, Hibiscus, hibiscus, Microbiology, Plant use of endophytic fungi in defense, QR1-502, chemistry.chemical_compound, phenol, chemistry, endophytes, engineering, Phenol, Food science, biodiversity, Effluent

Abstract

Background and Objectives: The use of endophytic fungi for management of phenol residue in paper and pulp industries has been shown as cost-effective and eco-friendly approach. In this study, isolation of endophytic fungi from roots, stems, and leaves of Hibiscus sabdariffa was conducted. Additionally, the isolated fungi were examined for their ability to degrade phenol and its derivatives in paper and pulp industrial samples, using different growth conditions. Materials and Methods: Out of 35 isolated endophyitc fungi, 31 were examined for their phenol biodegradation capacity using Czapek Dox broth medium containing Catechol and Resorcinol as a sole carbon source at final concentrations of 0.4, 0.6 and 0.8%. Results: A total of 35 fungal species belonging to 18 fungal genera were isolated and identified from different parts of H. sabdariffa plants. All strains have the capability for degrading phenol and their derivatives with variable extents. The optimum condition of degrading phenol in paper and pulp effluent samples by Fusarium poae11r7 were at pH 3-5, temperature at 28-35°C, good agitation speed at no agitation and 100 rpm. Conclusion: All endophytic fungal species can utilize phenol and its derivatives as a carbon source and be the potential to degrade phenol in industrial contaminants.

Published

2021

84. How Naunyn-Schmiedeberg’s Archives of Pharmacology deals with fraudulent papers from paper mills

Author

Roland Seifert

Subjects

0301 basic medicine, Engineering, Biomedical Research, Pharmacology toxicology, Scientific fraud, Scientific Misconduct, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Scientific integrity, Fake data, 03 medical and health sciences, 0302 clinical medicine, Raw data, Scientific misconduct, Pharmacology, business.industry, Paper mills, General Medicine, 030104 developmental biology, Editorial, 030220 oncology & carcinogenesis, Engineering ethics, Periodicals as Topic, business

Abstract

Fraudulent papers from paper mills are a serious threat to the entire scientific community. Naunyn-Schmiedeberg’s Archives of Pharmacology has become the target of a massive attack of fraudulent papers originating from paper mills. This editorial highlights 20 important features we observed with paper mills and explains how the journal is responding to this serious threat to restore the integrity of science. Hopefully, this editorial is also helpful for editors of other scientific journals.

Published

2021

85. CHARACTERISATION OF MORINGA OLEIFERA (DRUMSTICK) WOOD FOR PULP AND PAPER MAKING

Author

Ravi D. Godiyal, Arvind Kumar Sharma, Gunjan Dhiman, Bipin Prakash Thapliyal, and Priti Shivhare Lal

Subjects

0106 biological sciences, Moringa, Chemistry, 010608 biotechnology, Pulp (paper), Organic Chemistry, Materials Chemistry, engineering, engineering.material, Pulp and paper industry, 01 natural sciences

Abstract

"Moringa oleifera (drumstick) wood was evaluated in terms of its chemical composition, morphological features, Kraft pulping behavior, ECF bleaching and mechanical strength properties – important parameters for pulp and paper making – in comparison with Acacia mangium. Moringa oleifera was found to have the following composition: holocellulose 65.5%, lignin 20.5%, pentosan 11.6%, -cellulose 40.5% and extractives content of 5.15%, which made it comparable with the Acacia mangium wood sample. The alkali prehydrolysis of Moringa oleifera was carried out using 2% NaOH at 150 °C. The prehydrolysis liquor (PHL) was found to contain 50.9 mg/kg of calcium, 5140 mg/kg of potassium and 312 mg/kg of iron content. The prehydrolysis step was followed by Kraft pulping in order to obtain chemical grade pulp of kappa number 15-16 under optimized conditions. The Moringa oleifera pulp was bleached using the DEpD bleaching sequence to reach 85% brightness (ISO). The bleached pulp had an average fiber length of 1.21 mm, which was higher than that of Acacia mangium – 0.782 mm. The mechanical strength properties of the unbleached and bleached pulps, such as tear, tensile and burst indices, were also determined to show their suitability for pulp and paper production."

Published

2021

86. Pulp and paper mill wastes: utilizations and prospects for high value-added biomaterials

Author

Wassie Mengie, Amare Abuhay, Gemeda Gebino Gelebo, Derseh Yilie Limeneh, Adane Haile, Million Ayele Mebrate, and Tamrat Tesfaye

Subjects

Technology, 020209 energy, Biomedical Engineering, Biomass, 02 engineering and technology, TP1-1185, 010501 environmental sciences, engineering.material, 01 natural sciences, Bioplastic, Biomaterials, 0202 electrical engineering, electronic engineering, information engineering, Viscose, 0105 earth and related environmental sciences, Pulping waste, Renewable Energy, Sustainability and the Environment, business.industry, Pulp (paper), Chemical technology, Paper mill, Biorefinery, Pulp and paper industry, Cellulosic ethanol, engineering, Environmental science, business, High value-added, Black liquor, TP248.13-248.65, Food Science, Biotechnology

Abstract

A wide variety of biomass is available all around the world. Most of the biomass exists as a by-product from manufacturing industries. Pulp and paper mills contribute to a higher amount of these biomasses mostly discarded in the landfills creating an environmental burden. Biomasses from other sources have been used to produce different kinds and grades of biomaterials such as those used in industrial and medical applications. The present review aims to investigate the availability of biomass from pulp and paper mills and show sustainable routes for the production of high value-added biomaterials. The study reveals that using conventional and integrated biorefinery technology the ample variety and quantity of waste generated from pulp and paper mills can be converted into wealth. As per the findings of the current review, it is shown that high-performance carbon fiber and bioplastic can be manufactured from black liquor of pulping waste; the cellulosic waste from sawdust and sludge can be utilized for the synthesis of CNC and regenerated fibers such as viscose rayon and acetate; the mineral-based pulping wastes and fly ash can be used for manufacturing of different kinds of biocomposites. The different biomaterials obtained from the pulp and paper mill biomass can be used for versatile applications including conventional, high performance, and smart materials. Through customization and optimization of the conversion techniques and product manufacturing schemes, a variety of engineering materials can be obtained from pulp and paper mill wastes realizing the current global waste to wealth developmental approach.

Published

2021

87. Replacement of imported long fiber kraft pulp with lignocellulosic nanofibers and cationic materials in the production of durable paper

Author

Jafar Ebrahimpour Kasmani, Hassan Mohammadpour, and Ahmad Samariha

Subjects

Environmental Engineering, Materials science, Starch, Pulp (paper), Cationic polymerization, Bioengineering, engineering.material, Folding endurance, chemistry.chemical_compound, Kraft process, Chemical engineering, chemistry, Ultimate tensile strength, engineering, Cellulose, Waste Management and Disposal, Kraft paper

Abstract

Usage of cellulosic nanofibers, starch-nanocellulose, and polyacrylamide-nanocellulose hybrid systems were investigated for the replacement of imported long bleached kraft fibers in the production of durable papers. In this study, imported softwood kraft pulp was added to cotton pulp at four levels. Nanofibrillated cellulose (NFC) prepared from chemimechanical pulp was added to cotton pulp at a 5% level with optional 1% cationic starch or 0.1% cationic polyacrylamide. Comparative tests were done without NFC at three levels of either cationic starch or cationic polyacrylamide. For each condition, 80 gm-2 handsheets were made, and the physical, mechanical, and optical properties of the paper were compared. The results showed that increases of NFC yielded higher surface smoothness, tensile strength, resistance to bursting, tearing energy, folding endurance, yellowness, and opacity. It also reduced brightness and porosity whether added singly or in combination with cationic starch or polyacrylamide. Increasing cationic starch also increased surface smoothness, tensile strength, resistance to bursting, and folding endurance, but paper opacity was reduced. The field emission-scanning electron microscopy results showed that increased NFC reduced porosity, the paper surface became smoother, and the pores were relatively filled. Finally, the combined treatment of 5% NFC and 1% cationic starch is introduced as a suitable combination.

Published

2021

88. A comparative fiber morphological analysis of major agricultural residues (used or investigated) as feedstock in the pulp and paper industry

Author

Zoltán Börcsök, Levente Csóka, Vladimír Gryc, Kyriaki Giagli, Zoltán Pásztory, and Dimitrios Tsalagkas

Subjects

Environmental Engineering, biology, Chemistry, Pulp (paper), Bioengineering, Miscanthus, engineering.material, biology.organism_classification, Sunflower, Husk, Animal science, Stalk, Hardwood, engineering, Fiber, Bagasse, Waste Management and Disposal

Abstract

The suitabilities of major agricultural residues were assessed as papermaking feedstocks. All the examined agricultural residues were assumed as potential candidates for substituting hardwood fibers in mixed pulp blends from a fiber morphological perspective. Wheat, barley, rice, rapeseed, maize, sunflower, sugarcane bagasse, coconut husk, and two genotypes of miscanthus grass underwent identical maceration. The fiber length, fiber width, cell wall thickness, and lumen diameter were measured to calculate the slenderness ratio, flexibility coefficient, and Runkel ratio. The average fiber length ranged from 0.50 mm ± 0.32 mm (MG-S-02-V) to 1.15 mm mm ± 0.58 mm (sugarcane bagasse). The fiber width ranged from 10.77 μm ± 3.28 μm (rice straw) to 22.99 mm ± 5.20 mm (sunflower stalk). The lumen diameter ranged from 4.52 μm ± 2.52 μm (rice straw) to 13.23 μm ± 4.87 μm (sunflower stalk). The cell wall thickness ranged from 3.02 μm ± 0.95 μm (rice straw) to 4.80 μm ± 1.48 μm (sunflower stalk). The slenderness ratio, flexibility coefficient, and Runkel ratio values ranged between 28.08 to 58.11, 37.97 to 60.8, and 0.62 to 1.68, respectively. Wheat, maize, rapeseed, sugarcane bagasse, and coconut husk were found to be appropriate residue sources for papermaking feedstocks.

Published

2021

89. Characteristics of calcium lignin from pulping waste liquor and application for the treatment middle-stage wastewater of paper making

Author

Hao Yang, Guangzai Nong, Yijing Li, and Tian Zhu

Subjects

Sodium, chemistry.chemical_element, macromolecular substances, engineering.material, Calcium, complex mixtures, law.invention, chemistry.chemical_compound, symbols.namesake, Adsorption, law, Environmental Chemistry, Lignin, Calcination, Waste Management and Disposal, Water Science and Technology, Lime, fungi, technology, industry, and agriculture, food and beverages, Langmuir adsorption model, General Medicine, Pulp and paper industry, chemistry, Wastewater, engineering, symbols

Abstract

In order to obtain a lignin-based adsorbent with low cost, simple operation and no further modification, a calcium lignin adsorbent was prepared from chemical mechanical pulping (CMP) waste liquor by directly calcification from lime. The calcium lignin was characterized by BET, SEM, TEM, FT-IR and solid-state NMR analyses. The results showed that the molecular structure of the calcium lignin particles did not change when compared to sodium lignin, the formation mechanism of calcium lignin was revealed. The initial COD and lignin contents of CMP waste liquid were 54858 mg/L and 24.39 g/L, the conversion rate of lignin can reach 71.36% when was deal with lime. Thus, most of the lignin resources in the waste liquid were recovered. The middle-stage wastewater (MSWW) of pulping and papermaking was dealt with calcium lignin, the COD removal rate was up to 85.83%. The adsorption isotherms and kinetics were well fitted by the Langmuir model and pseudo-second-order kinetic model, respectively. Lime was regenerated from the used calcium lignin with high-temperature calcination, the conversion rate of calcium ions can reach 83.56%. Overall, the calcium lignin prepared by the one-step method exhibited great potential for effectively removing COD from middle-stage wastewater.

Published

2021

90. Nanocrystalline Cellulose and Polyvinyl Alcohol Coating Application to Cardboard Packaging Papers and Investigation of the Effects on Paper Properties

Author

Semiha Yenidoğan and Yenidogan, Semiha

Subjects

nanocryslalline, lcsh:TN1-997, Materials science, 020209 energy, 02 engineering and technology, engineering.material, Polyvinyl alcohol, Nanocellulose, Contact angle, chemistry.chemical_compound, 0203 mechanical engineering, Coating, COMPOSITES, 0202 electrical engineering, electronic engineering, information engineering, WATER, cardboard coating, General Materials Science, Composite material, Fourier transform infrared spectroscopy, lcsh:Mining engineering. Metallurgy, nanocellulose, NCC, Coated paper, coating, cardboard, MECHANICAL-PROPERTIES, Nanocrystalline material, 020303 mechanical engineering & transports, chemistry, visual_art, PVA, engineering, visual_art.visual_art_medium, packaging paper, nanocrystalline

Abstract

In the packaging sector of the printing industry, different coating applications are tried and investigated in order to increase the surface appearance and performance characteristics of paper and cardboard. The printability, water and ink absorption capacity, frictional resistance, light sensitivity of the visual graphical design that are going to be printed on the packaging papers are some of them. In this study, different types of cardboards that are used as a packaging material were chosen and coated with nanocrystalline cellulose (NCC)/PVA at different rates (%). In order to determine effective and economical usage conditions, the coating solutions, at three different concentrations as 3 wt.%, 5 wt. %, 7 wt.%, were prepared. The coating was applied on the test papers, which were at the same weights (350 g/m2) and had different surface properties as matte glossy, bright glossy, American Bristol. NCC/PVA existence on the coated paper surface was confirmed with Fourier Transform Infrared Spectroscopy (ATR-FTIR). The impact of the coating, which was prepared at different concentrations, on the packaging materials was studied with respect to thickness, stiffness, water absorbability, contact angle and surface tension.

Published

2020

91. Sustainable use of paper sludge from the Colombian paper industry

Author

Mauricio Cote-Alarcon and Lesly Mayive Latorre Malaver

Subjects

global warming potential (gwp), carbon footprint, life cycle analysis, engineering.material, complex mixtures, Industrial waste, industrial waste, Soil pH, lcsh:Environmental sciences, paper mud, General Environmental Science, lcsh:GE1-350, Compost, business.industry, cardboard, fertilizer, Pulp and paper industry, visual_art, Sustainability, composting, engineering, visual_art.visual_art_medium, Carbon footprint, Food processing, Environmental science, Chicken manure, business

Abstract

The paper industry is an important component in the Colombian economy, the need for the continuous use of paper and cardboard in different activities results in the generation of paper sludge, for this reason there is an imminent need to generate alternatives for the use of these industrial wastes. which have been on the rise in recent years. This study is divided into two stages, the first is the evaluation through experimental analysis of the demonstration of the effectiveness of paper mud as an important source of carbon in composting processes, the second is the life cycle analysis (LCA) of the Alternative replacement of Composting vs. Synthetic Fertilizers. The product obtained from the evaluation corresponds to a stabilized compost with chicken manure, which is an important source of Carbon, Nitrogen and Calcium Carbonate, resulting in an environmentally sustainable alternative compared to the use of synthetic fertilizers. In the future, an increase in the use of fertilizers is expected, due to the growth of the world population, which generates an expansion of food production and an imminent need to attend to it. The ALC provides a better understanding of the process and its environmental impacts, the results will allow us to conclude on the most appropriate management option by showing the advantages and disadvantages associated with the use of compost. Organic fertilizers, unlike synthetic fertilizers, improve the fertility, texture and structure of the soil in the long term, promoting good drainage, aeration, water retention and root penetration, in addition to contributing to the stabilization of pH in acidic soils. The main challenges in integrating composting from paper sludge and chicken manure is to balance the C / N ratio, making a balance of the nutrient mixture and thus improving composting times, the loss of humidity, temperature gain, microbiological control and porosity.

Published

2020

92. Model-free visual servoing based on active disturbance rejection control and adaptive estimator for robotic manipulation without calibration

Author

Tian, Jun, Zhong, Xungao, Peng, Xiafu, Hu, Huosheng, and Liu, Qiang

Published

2024

93. Movement and binding control strategy based on a new type of rebar-binding robot

Author

Shen, Dong Huan, Guo, Shuai, Duan, Hao, Ji, Kehao, and Jiang, Haili

Published

2024

94. 3D-AMM: a 3D artificial moment method for path planning of manipulator in multiple obstacles scenario

Author

Liu, Andong, Zhang, Yawen, Fu, Jiayun, Yan, Yuankun, and Zhang, Wen-An

Published

2024

95. Thermal error modeling method of truss robot based on GA-LSTM

Author

Li, Long, Chen, Binyang, and Yu, Jiangli

Published

2024

96. Impedance-based null-space control of redundant torque-controlled robot

Author

Zhang, Leigang, Yu, Hongliu, and Cui, Xilong

Published

2024

97. Contact localization from soft tactile array sensor using tactile image

Author

Tu, Baoxu, Zhang, Yuanfei, Min, Kang, Ni, Fenglei, and Jin, Minghe

Published

2024

98. PREPARATION OF BACTERICADAL FILLERS FROM GEORGIAN HEULANDITE-CLINOPTILOLITE AND THEIR APPLICATION FOR PAPER PRODUCTION. I. BACTERICADAL FILLERS

Author

Nato Mirdzveli, Vladimer Tsitsishvili, Manana Nijaradze, Zurab Amiridze, and Nanuli Dolaberidze

Subjects

Georgian, Clinoptilolite, Materials science, Metallurgy, language, Paper production, engineering, engineering.material, Heulandite, language.human_language

Abstract

The purpose of present work was to obtain bactericidal materials using heulandite-clinoptilolite from the Rkoni plot of the Tedzami deposit, Eastern Georgia, to study their properties and use them as a filler for the production of bactericidal paper. Silver-, copper-, and zinc-containing microporous materials have been prepared using ion-exchange reactions between preliminary acid-treated zeolite microcrystals and a salt of a corresponding bioactive metal in the solid phase followed by washing with distilled water. Synthesized in such way adsorbent-ion-exchangers are characterized by X-ray energy dispersion spectra, powder X-ray diffraction patterns, and Fourier transform infra-red spectra. Obtained materials remain the zeolite crystal structure and contain over 130 mg/g of silver, 70 mg/g of copper, and 55 mg/g of zinc. Prepared materials show bacteriostatic activity towards gram-negative bacterium Escherichia coli, gram-positive bacteria Staphylococcus aureus and Bacillus subtilis, fungal pathogenic yeast Candida albicans, and a fungus Aspergilus niger. It was found that the mixtures of various forms exhibit a synergistic effect, and the silver form with additives of copper and zinc forms is most active against staphylococcus, and against other microorganisms, mixtures of copper and zinc forms are most effective.

Published

2021

99. A STATISTICAL ANALYSIS OF QUALITY CONTROL PROCESS ON PAPER PRODUCTION: A Case Study of Bel Papyrus Limited, Ogba, Lagos State

Author

Hassana Oseiwu Ali and Seth Obafemi Orumbe

Subjects

Process (engineering), Papyrus, media_common.quotation_subject, Control (management), Paper production, engineering.material, Standard deviation, Statistics, engineering, Production (economics), Statistical analysis, Quality (business), Mathematics, media_common

Abstract

This research is an analysis of quality control process on paper production on the soft roll production process of Bel Papyrus Ltd located in Ogba, Lagos State, Nigeria. The research was done with the aim of determining the conformity of the industry’s product to quality standard, identifying and eliminating the possible causes of variation in their production process, with reference to Percentage Elongation. The researchers used primary data in form of periodic laboratory test result done on soft rolls.Data presentations were made using simple statistical tools like Mean, Ranges, Standard Deviations, and Tables reflecting the primary data obtained at equal interval of production. The researchers made use of variable control charts for the purpose of analysis. The

Published

2021

100. Recycling of Waste MDF by Steam Refining: Evaluation of Fiber and Paper Strength Properties

Author

Bodo Saake, Sebastian Hagel, Jesan Joy, and Gianluca Cicala

Subjects

0106 biological sciences, Paperboard, Environmental Engineering, Softwood, Materials science, Renewable Energy, Sustainability and the Environment, Pulp (paper), 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Pulp and paper industry, 01 natural sciences, Incineration, Compressive strength, 010608 biotechnology, visual_art, Ultimate tensile strength, visual_art.visual_art_medium, engineering, Fiber, 0210 nano-technology, Waste Management and Disposal, Refining (metallurgy)

Abstract

Currently, most of the collected waste medium-density fiberboards (MDF) is incinerated or landfilled, as economically viable recycling methods are yet to be developed. By steam refining waste medium-density fiberboards (MDF), it is possible to hydrolyze the incorporated resins and isolate a high yield fiber fraction. Further refining of the steam treated fibers might enable the fibers to be utilized in applications such as paper packaging, facilitating a cascading use of the waste material stream. To this end, intimate knowledge of the material is needed. In this study, the steam refined fibers of two waste MDF samples containing differing amounts of softwood and hardwood underwent refining and beating. The resulting fibers were characterized regarding their morphology and paper test sheets were produced to evaluate their strength (compression-, tensile- and tear-strength). Distinct differences in response to refining between the MDF samples were apparent. For the sample with the higher hardwood share an increase in strength properties with increasing steam treatment severities could be observed and it was possible to produce test sheets with comparable compression strength to recycled pulp for industrial corrugated paperboard. For the sample with a higher share of softwood, the steam treatment severity did not show any influence on fiber morphology or paper properties, and the resulting paper strength was low in comparison to the other steam refined waste MDF sample. Graphic Abstract

Published

2021