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2. Molecular simulation of different types of polysilsesquioxane doped cellulose insulating paper: A guide for special cellulose insulating paper.
- Author
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Zeng, Zhenglin, Tan, Weimin, Deng, Yanhe, Cheng, Quan, Fu, Liuyue, and Tang, Chao
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CELLULOSE fibers , *CELLULOSE , *GLASS transition temperature , *MODULUS of rigidity , *BULK modulus , *ELASTIC modulus , *DIELECTRIC properties - Abstract
To develop special insulating paper is of great significance to promote the service life of transformers. Using molecular simulation to guide the development of special insulating paper can greatly reduce the trial-and-error rate and waste of resources in traditional experiments. The effect of different types of polysilsesquioxane (POSS) on cellulose insulating paper was investigated by using molecular simulation. This paper investigated the thermal stability and mechanical properties and electrical characteristics of caged POSS, semi-caged POSS, and ladder-like POSS doped cellulose insulating paper. The results show that POSS with all types can enhance the performance of cellulose insulating paper, and ladder-like POSS possess the best modification effect. The glass transition temperature was increased by 58 K, and the bulk modulus, shear modulus, and elastic modulus of cellulose insulating paper doped with ladder-like POSS can improve up to 27.07%, 45.67%, and 41.28%, respectively. Meanwhile, the dielectric properties of ladder-like POSS modified insulating paper are also significantly improved. The findings of this paper propose a method for the preparation of ladder-like POSS modified insulating paper, which provides theoretical guidance for the experimental preparation of special insulating paper. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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3. Fabrication of negative magnetostrictive Japanese traditional paper (washi) with cobalt ferrite particles.
- Author
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Kurita, Hiroki, Rova, Lovisa, Keino, Takumi, and Narita, Fumio
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MAGNETOSTRICTION , *FERRITES , *COBALT , *JAPANESE language , *WOOD-pulp , *CELLULOSE fibers , *MAGNETIC particles - Abstract
The cellulose fibers that form washi are longer than those of regular paper made from wood pulp. Hence, the mechanical properties of washi can be higher than those of conventional paper. This study evaluated the magnetic, magnetostrictive, and tensile properties of negative magnetostrictive cobalt ferrite (CoFe2O4) particle dispersed handmade washi (washi−CoFe2O4). The CoFe2O4 additives magnetized the washi, which displayed negative magnetostriction with the fiber direction perpendicular to the magnetic field and in the parallel fiber direction. Concerning the mechanical properties, the washi−CoFe2O4 displayed an elongation of up to 77% after yielding. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
4. Study of pulp and paper making characteristic produces from sago fiber waste.
- Author
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Maurila, Talita Dara, Rahmayanti, Handika Dany, Ardiani, Septia, Hastuti, Novitri, and Indrawani, Dian Anggraini
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PAPER pulp , *PAPERMAKING , *FIBERS , *TENSILE strength , *CHEMICAL properties - Abstract
This study is about the characterization of pulp and paper from sago fiber waste. The process has several stages: preparing a solution, sago fiber analysis, pulping process, and printing process. The required solutions are NaOH solution (technical), 10% BaCl2 solution, 0.1 N HCl solution, 60% ethanol solution, phenolphthalein indicator solution, 1% starch indicator solution, sindur methyl indicator solution of NaOH titration, borax solution, Na₂S solution (technical), and THIO solution (1 N; 0.1 N). The pulping process is carried out by inserting sago fiber and solutions into a rotary digester machine for 4 hours (170oC). Then, it is removed after 24 hours and dried by a spinner machine. Characterizations on the sample include: chemical and physical properties, mechanical properties, and optical properties. The result shows that sago fiber waste can be used as raw material for paper. The value of grammage of 62 g/m2, thickness of 0.1294 mm, water absorption capacity of 627.27 g/m2, water content of 9.83%, ash content of 26.26%, pH of 7.9, tensile strength of 14.22 MD and 13.33 CD, brightness of 19.8%, and opacity 22.78. The pore diameter of the paper is 4.608 nm. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
5. Property evaluation and optimization of recycled paper composition.
- Author
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Mishra, Paritosh, Negi, Prateek, Kanojia, Ravi, Prasad, Brijesh, and Singh, Prem
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RECYCLED paper , *WASTE paper , *BOND strengths , *TENSILE strength , *ADHESIVES - Abstract
This work relates to the development of recycled paper from waste paper with the objective of optimization of the composition. The paper properties are much affected with composition like amount of waste paper, fresh paper, cotton shreds, adhesives and water. Samples were made by taking different composites and tests were performed to evaluate properties i.e. thickness, coefficient of friction, moisture content, scott bond strength, tensile strength. The testing concluded that the samples which were having cotton shreds and adhesives showed very good results closer to the fresh paper. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
6. Properties and potential use for paper pulp of four less-known hardwoods originated from natural tropical rainforest in South Sulawesi Province of Indonesia.
- Author
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Lempang, Mody and Pasaribu, Gunawan
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PAPER pulp , *HARDWOODS , *JACKFRUIT , *WOOD , *SPECIFIC gravity , *HARDWOOD forests , *BIOMASS conversion - Abstract
Wood is biomass made from lignocellulose, the main raw material for pulp production, both species of hardwood and softwood. Utilization of as much wood as possible, including less-known wood species, is widely open because the availability of good quality wood for industry raw materials is increasingly limited. In general, all wood species can be used for paper pulp. But the selection of types of lignocellulosic material with specific properties, such as physical, anatomical and chemical, play an important role in efficiently using wood as raw materials for pulp and paper. This research was carried out to examine wood properties (specific gravity, fiber quality and cellulose content) of four less-known hardwoods from natural tropical rainforest in South Sulawesi province of Indonesia and assessed their potential use for paper pulp. Those hardwood species comprised of cempedak (Artocarpus integer Merr.), jabon merah (Anthocephalus macrophyllus Hav.), saling-saling (Artocarpus teysmanii Miq.) and simpur (Dillenia serrata Thunb.). The specific gravity determined by the weight of oven dried wood and volume of air dried wood where the wood volume be measured by water immersion method, the fiber dimensions measured through maceration preparations which was made using the Franklin procedure, while TAPPI method used for chemical analysis. In condition to paper pulp raw material, the specific gravity (0.40 – 0.69) is categorized as moderate, the fiber quality is classified as good (class II), and cellulose content (40.12% - 52.47%) is categorized as moderate to high for all those less-known hardwoods. All four less-known hardwoods studied potentially use for paper pulp raw materials. But simpur has the most potential due to long fiber and higher specific gravity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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7. Effect of fly ash and paper pulp material composition variations on papercrete products using heating method at 110°C for 6 hours.
- Author
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Amin, Muhammad, Handoko, Anton Sapto, Hendronursito, Yusuf, Suka, Ediman Ginting, Nabila, Syendy, and Rajiman
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FLY ash , *PAPER pulp - Abstract
Variation of fly ash and pulp paper composition at 110°C for 6 hours was carried out to discern the effect of fly ash and pulp paper addition in papercrete. sixth variations in paper pulp and fly ash composition were employed to perceive the characteristic that occurs in the sample. The papercrete material composition was weighed, mixed until it became homogeneous and then casted in a mold with a size of 18 x 5 x 2 cm3. Papercrete samples were allowed to stand within the mold at room temperature for 24 hours and released from the mold to stand again for the next 24 hours, after which it heated at 110°C for 6 hours. Characterization using XRF, SEM-EDX as well as Mechanical and physical tests carried out after the samples was cold. Papercrete with sample code K6 has the highest flexural strength and density value of 2.03 MPa and 2.4 gr/cm3 while papercrete with sample code K1 has the lowest flexural strength and porosity value of 0.4 MPa and 17.89%. Characterization shows that the chemical composition of the samples was dominated by the oxide compound CaO and SiO2 in papercrete. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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8. Method for using natural silk fibers for producing valuable grade paper.
- Author
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Alimova, Khalimakhon, Bulanov, I. A., Umurzakova, Khalima, and Sobirov, Kuziboy
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COTTON fibers , *PAPER pulp , *NANOFIBERS , *NATURAL fibers , *SPIDER silk , *RAW materials , *FIBERS - Abstract
The article examines the structure of silk fibers and ways of efficient use of fiber waste. Based on the analysis of the composition and structure of the fibers, it is possible to use them for paper production. The use of short staple fibers in the production of stock paper and the processes of preparing them for incorporation into paper pulp are widely covered. Information is provided on the technological process of cleaning fibers before adding them to paper pulp. The influence of the mass fraction of fibers in paper on its strength, breaking and tearing has been thoroughly analyzed and illustrated by means of graphs. For the production of high-quality paper, for example, valuable paper, for the preparation of paper used in printing, drawing, painting, etc. Fiber semi-finished products must be cut to the required length and separated into individual fibrils before crushing (grinding). The technology of preparation of natural silk waste as raw material for paper production is presented. In addition to silk fiber cotton fiber was also studied in the research work. Theoretically, the effect of fibers in tearing and breaking of paper is shown in the pictures. The use of fibers in the production of anti-counterfeiting paper and the process of adding them to the pulp are given. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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9. An optimal supply policy for time depending demand and deterioration with partial exponential backlogging.
- Author
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Arora, Ragini, Gupta, Sangeeta, and Srivastav, Sweta
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CONCAVE functions , *PAPER products , *CONVEX functions , *INVENTORIES - Abstract
We extend the inventory lot-size model in this paper to allow for products to deteriorate at variable rates, and demand is characterized by any log concave function of time that fulfils relatively mild criteria. Partial backlogging is possible with this model. The backlogging rate is a time-dependent, exponentially declining function provided by a parameter. We show that not only does the optimal replacement schedule exist, but that it is also unique. We also show that the inventory system's overall cost is a convex function of the number of replenishments. As a result, identifying a local minimum simplifies the search for the best number of replenishments. Finally, a numerical example is given to demonstrate the findings. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
10. Determination of bactericidal effect of piper betel leaf extract on bacteria by filter paper disc method to check antimicrobial efficacy.
- Author
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Mohammed Ali, S. P. and Pan, Ieshita
- Subjects
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FILTER paper , *ETHANOL , *DISTILLED water , *BACTERIAL growth , *PATHOGENIC microorganisms , *EXTRACTS - Abstract
Effect of a natural compound extracted from Piper Betel leaf by determining bactericidal and or bacteriostatic effect to check antimicrobial efficacy on the pathogenic microorganisms. Bioactive compound extracted in different solvents i.e distilled water, ethanol, and methanol, and its effectivity was determined by measuring the zone of clearance (1 group and 96 samples per group by keeping threshold 0.05 and G power 80%, coincidence interval 95%, and enrollment ratio as 1) by agar diffusion method using kanamycin (30) as a control for the different time period (24 Hrs, 48Hrs and 72Hrs) at 37°C. Promising results were found for the zone of clearance in Escherichia.coli with a significance of about P<0.001 in the ethanol extract after 72 hours of incubation. Compared to 10% extract application where growth of S.aureus was reduced to 4%, addition of 100% crude inhibits bacterial growth up to 95% approximately. For S.aureus and E.coli though ethanol extract was found effective however no significant effect was observed for inhibiting Pseudomonas. Novel bioactive compound extracted from Piper Betel leaf was found effective against pathogens and can be used as a natural component with antimicrobial efficacy in the field of medicine. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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11. Assessing the potential utilization of super teak for furniture, flooring, veneer, pulp paper and wood pellets.
- Author
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Indrawan, D. A., Damayanti, R., Ozarska, B., Illic, J., Pari, G., Krisdianto, Dewi, L. M., Pari, R., Agustiningrum, D. A., Adi, D. S., Sofianto, I. A., Djarwanto, and Rahmanto, R. G. H.
- Subjects
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WOOD pellets , *WOOD-pulp , *PAPER pulp , *WOOD floors , *TEAK , *WASTE paper , *EUCALYPTUS - Abstract
Super teak is a fast grown species of teak (Tectona grandis Linn. f) derived from several clones. This has facilitated plantation rotations as short as 5 years. The main target of conventional plantation teak was initially for high value logs. Young teak wood from plantation forest usually has a small diameter. Moreover, the wood from very young stems is unsuitable for direct utilization, but advance wood processing technology can improve the wood properties of small diameter logs. This study aimed to assess the potential utilization of young super teak for high quality products namely furniture, flooring, and veneer, and assess the possibility of the use of manufacture waste for pulp paper and wood pellets as side products. The evaluation were carried out according to the National Indonesian Standard and other international standard requirements. 18 logs from wet (Bogor) and dry (Magetan) sites representing large, medium, and small diameter classes were collected. According to SNI 01-0608-1989 Timber for Furniture, 5-year-old super teak was suitable for furniture production. Furthermore, according to SNI 7732.1: 2011: Teak Veneer, the super teak was classified as Grade C because of the presence of sapwood, pinholes, tight and lose knots. According to Australian Timber Flooring Association, 5-year-old super teak was classifiesd as soft flooring group, the same group as mature teak & radiata pine. The young super teak was classified as Class Quality/Group II with very low active alkali consumption and low Kappa Number according to Indonesian wood fibre criteria for pulp and paper materials and Association of Pulp and Paper in Brazil. Finally, based on SNI 802: 2014 Wood Pellet, the super teak was recommended as by-products for utilising the wood waste. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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12. Does watermelon rind waste (Citratus Lannatus) have the potential to be an environmentally friendly paper towel?
- Author
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Latif, Antinah, Ardiani, Septia, Rahmayanti, Handika Dany, and Situngkir, Yessy Yerta
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PAPER towels , *TENSILE strength , *WATERMELONS , *CHEMICAL properties , *MANUFACTURING processes , *OPTICAL properties - Abstract
This study aimed to evaluate the preparation and characterization of paper towels from watermelon rind waste. The paper towel manufacturing process had several stages: the drying process, pulping process, bleaching process, and printing process. There were five treatments, including paper towels use of NaOH 2.5 M with pulp recycling, paper towels use of 1 NaOH with pulp recycling, paper towels use of 1 NaOH, paper towels use of 1 NaOH with additives, and paper towels use of 1 NaOH with different drying time (110 oC for 60 minutes with ten days of the natural drying). Several characterizations have been employed, such as physical and mechanical properties and optical and chemical properties. The treatments of paper towels were tested, and the test results were compared with SNI 7891: 2017. From the FTIR test, it was observed that the functional groups formed from paper towels from watermelon rind waste. From the Microscope test, paper towels from watermelon skin should be added with materials with long fibers. Based on Physical and Mechanical Characterization, paper towels comply with the SNI. Based on optical characterization, it complies with the SNI for treatments 4 and 5. Chemical characterization is higher than standard. It can be concluded that the natural paper towels from watermelon rind waste comply with the standard of SNI ISO 7891:2017 about Basic Paper towels within the parameter of grammage and water absorption capacity, Tensile strength except for the parameter of tensile strength, pH extract, and fluorescence. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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13. Study of composition of seaweed of the genus Ulva and filter paper made with added algae by SEM-EDX, PIXE and PIGE.
- Author
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Ene, Antoaneta, Căpriță, Florina Cristiana, Pantelică, Ana, and Ceoromila, Alina
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FILTER paper , *ENERGY dispersive X-ray spectroscopy , *PAPERMAKING , *MARINE algae , *ULVA , *CERAMIALES , *TOXIC algae - Abstract
This paper presents the results obtained from the analyses performed on seaweed and paper made with algal biomass addition using different analytical techniques, such as scanning electron microscopy with energy dispersive X-ray analysis (SEM-EDX) and the ion beam analysis (IBA) techniques Particle-induced X-ray emission (PIXE) and gamma-ray emission (PIGE). The analyzed samples consisted of seaweed from the Ulva rigida C. Agardh 1823 species collected from the Black Sea coast, Romania, and filter papers with different mass addition (0.5, 1, 2, 4 and 8%) of seaweed. Seaweed introduced into the paper can dislodge some of the cellulose fibers, helping to reduce the amount of stranded seaweed that is currently not valorized in Romania. From the analysis of the results, it results that no potential toxic elements have been identified in the algae structure and the algal biomass could be used in the filter paper manufacture. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. Ultrasonic propagation characteristics of partial discharge in oil-impregnated paper traction transformer.
- Author
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Mu, Guowei, Dai, Quanmin, Chai, Shuying, and Yang, Peng
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ULTRASONIC propagation , *PARTIAL discharges , *SOUND pressure , *ULTRASONIC waves , *HEAD waves , *ACOUSTIC emission , *ACOUSTIC field - Abstract
Partial Discharges (PDs) are a significant factor in reducing the insulation life of traction transformers. In recent years, the Acoustic Emission (AE) method has become the most advanced method for detecting PD signals in transformers. The AE method utilizes AE sensors placed on the transformer tank to detect ultrasonic signals emitted by PD and determine the Time Of Arrival (TOA) of the head wave. The windings and cores of a traction transformer consist mainly of metal, which greatly affects the propagation of PD ultrasonic waves. This paper establishes a 110 kV "pressure acoustic, transient" physical field model of the traction transformer with dimensions of 4.63 × 1.48 × 2.84 m3. The model is used to carry out the PD pressure acoustic physical field simulation study of the traction transformer, to clarify the physical characteristics of the ultrasound of the PD defects, and to establish observation points on the transformer tanks to receive ultrasonic time-domain waveforms for PD detection. The simulation results indicate that PD ultrasonic waves exhibit complex propagation characteristics, including reflection, refraction, and reverberation, as they pass through the windings and cores to the observation points. The TOA of the head wave in the ultrasound time-domain waveform is indicated by the first maximum value of the wave crest line. Finally, this paper proposes a multi-level localization method based on the AE method to determine which winding generates the PD in the large-scale traction transformer using only four dynamically moving observation points. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
15. Spheroids formation in large drops suspended in superhydrophobic paper cones.
- Author
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Mohapatra, Omkar, Gopu, Maheshwar, Ashraf, Rahail, Easo George, Jijo, Patil, Saniya, Mukherjee, Raju, Kumar, Sanjay, and Mampallil, Dileep
- Subjects
- *
SUPERHYDROPHOBIC surfaces , *CELL culture , *MEDICAL screening , *DRUG development , *OVARIAN cancer , *CANCER cells - Abstract
The utilization of 3D cell culture for spheroid formation holds significant implications in cancer research, contributing to a fundamental understanding of the disease and aiding drug development. Conventional methods such as the hanging drop technique and other alternatives encounter limitations due to smaller drop volumes, leading to nutrient starvation and restricted culture duration. In this study, we present a straightforward approach to creating superhydrophobic paper cones capable of accommodating large volumes of culture media drops. These paper cones have sterility, autoclavability, and bacterial repellent properties. Leveraging these attributes, we successfully generate large spheroids of ovarian cancer cells and, as a proof of concept, conduct drug screening to assess the impact of carboplatin. Thus, our method enables the preparation of flexible superhydrophobic surfaces for laboratory applications in an expeditious manner, exemplified here through spheroid formation and drug screening demonstrations. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
16. High areal-capacitance based extremely stable flexible supercapacitors using binder-free exfoliated graphite paper electrode.
- Author
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Yadav, Jitendra Kumar, Rani, Bharti, Tiwari, Ajay, and Dixit, Ambesh
- Subjects
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SUPERCAPACITORS , *COPPER , *GRAPHITE , *ELECTRODES , *DIGITAL watches , *SUPERCAPACITOR electrodes , *GRAPHITE oxide - Abstract
The highly porous and binder-free flexible paper electrodes can enhance the specific capacitance of symmetric supercapacitors (SCs) due to their large surface and effective ion diffusion pathways. We synthesized the exfoliated graphite (ExG) by the thermal exfoliation method of chemically treated graphite flakes and compressed it into a paper-like thin sheet (binder-free) of ∼0.15 mm thickness. The coin cell SCs with copper (Cu) and stainless steel (SS) as current collectors have been fabricated for the electrochemical measurement. The cyclic voltammetry and galvanostatic charge/discharge measurements are investigated at various scan rates and current densities. The SCs with Cu foil as a current collector perform better than SS-based SCs. The Cu current collector-based SCs showed a specific capacitance of 37.08 mF cm−2, whereas it was ∼29.98 mF cm−2 for SS-based SCs at a 0.01 V s−1 scan rate across a 0–0.6 V potential window. Approximately no degradation in charge storage capacity for more than 15 000 cycles at 0.1 V s−1 shows the ultra-stability of the flexible ExG-based binder-free electrodes. A digital watch is powered using the fabricated pouch cell supercapacitor with copper-based current collectors to show the potential of SCs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
17. The impact of paper sludge waste on physical & mechanical properties of cementitious materials.
- Author
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Vaičienė, Marija, Banevičienė, Vilma, and Malaiškienė, Jurgita
- Subjects
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WASTE paper , *MECHANICAL behavior of materials , *ULTRASONIC testing , *PAPERMAKING , *LIME (Minerals) - Abstract
The global production of paper is on the rise, thus leading to increasing amounts of waste in different stages of paper manufacture. Paper sludge waste is the most abundant and there is a big potential to reuse it after appropriate processing. This research paper analyses paper sludge waste fired at 900°C temperature for 2 h in terms of mineral composition, particle density and water demand in cement-based mixtures, as well as the effect of paper sludge waste on the density, ultrasonic pulse velocity, compressive strength and mineral composition of cement-based specimens. In the cement paste mixtures 0%, 2.5%, 5%, 7.5% and 10% of cement was replaced with paper sludge waste fired at 900°C temperature for 2 h. The ratio between water and solid substances was 0.35. Gehlenite and calcium oxide were found to prevail in the mineral composition of paper sludge waste, whereas water demand of cement-based mixture incorporating paper sludge waste increased 30%. The intensity of XRD curves revealed that a higher content (more than 7.5%) of paper sludge waste fired at 900°C temperature for 2 h in the mix increases the amount of portlandite and reduces the amounts of cement minerals: alite and belite. An empirical equation was drawn on the grounds of statistical analysis to calculate the compressive strength according paper sludge waste content fired at 900°C temperature for 2 h. The correlation and determination factors more than 0.9 demonstrate that the change of compressive strength in relation to paper sludge waste content can be described by the second degree polynomial equation and the optimum content of paper sludge waste fired at 900°C temperature for 2 h in the cement matrix is 5%. The highest density and ultrasonic pulse velocity values of cement stone specimens after 28 days of curing were obtained of specimens containing 5% paper sludge waste. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
18. The impact of paper sludge waste on physical & mechanical properties of cementitious materials.
- Author
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Vaičienė, Marija, Banevičienė, Vilma, and Malaiškienė, Jurgita
- Subjects
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WASTE paper , *MECHANICAL behavior of materials , *ULTRASONIC testing , *PAPERMAKING , *LIME (Minerals) - Abstract
The global production of paper is on the rise, thus leading to increasing amounts of waste in different stages of paper manufacture. Paper sludge waste is the most abundant and there is a big potential to reuse it after appropriate processing. This research paper analyses paper sludge waste fired at 900°C temperature for 2 h in terms of mineral composition, particle density and water demand in cement-based mixtures, as well as the effect of paper sludge waste on the density, ultrasonic pulse velocity, compressive strength and mineral composition of cement-based specimens. In the cement paste mixtures 0%, 2.5%, 5%, 7.5% and 10% of cement was replaced with paper sludge waste fired at 900°C temperature for 2 h. The ratio between water and solid substances was 0.35. Gehlenite and calcium oxide were found to prevail in the mineral composition of paper sludge waste, whereas water demand of cement-based mixture incorporating paper sludge waste increased 30%. The intensity of XRD curves revealed that a higher content (more than 7.5%) of paper sludge waste fired at 900°C temperature for 2 h in the mix increases the amount of portlandite and reduces the amounts of cement minerals: alite and belite. An empirical equation was drawn on the grounds of statistical analysis to calculate the compressive strength according paper sludge waste content fired at 900°C temperature for 2 h. The correlation and determination factors more than 0.9 demonstrate that the change of compressive strength in relation to paper sludge waste content can be described by the second degree polynomial equation and the optimum content of paper sludge waste fired at 900°C temperature for 2 h in the cement matrix is 5%. The highest density and ultrasonic pulse velocity values of cement stone specimens after 28 days of curing were obtained of specimens containing 5% paper sludge waste. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
19. Water absorbency of oil palm empty fruit bunch paper.
- Author
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Susiani, Susiani, Suryadi, Gema S., Rahmayanti, Handika D., Oktavia, Evi, Ananto, Purnomo, and Sarono, Sarono
- Subjects
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OIL palm , *WOOD-pulp , *RAW materials , *FRUIT , *WATER testing , *CARDBOARD - Abstract
Paper-making raw materials are a mixture of pure wood pulp and recycled pulp. Recycled pulp is obtained from used paper imported from abroad, in addition to the development of paperless culture also has an impact on the reduced availability of raw materials. Empty bunch fiber of palm oil is one of the natural materials that have the potential to be used as an alternative to a pulp for the manufacture of cardboard paper because it has a high holocellulose content. This study has successfully developed cardboard paper developed from oil palm empty fruit bunch pulp with 6 variations of treatment, steam, no steam, NaOH 2.5%, NaOH 5% and mill duration (20 minutes and 30 minutes). The developed cardboard paper is then tested for its water absorbency. Water Absorbency value testing is done by the Cobb method (60). Based on the test results obtained the water absorption values is in the range of 500 - 600 g/m2. Cartons that received treatment, no steam, added NaOH 2.5%, and milled for 30 minutes, has the lowest water absorption value compared to others. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
20. Solvent-pumped evaporation concentration on paper in linear and radial geometries.
- Author
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Syms, Richard R. A. and Wright, Steven
- Subjects
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STAGNATION point , *CAPILLARY flow , *FILTER paper , *DIFFUSION coefficients , *PERMEABILITY , *DIFFUSION , *EVAPORATION (Chemistry) - Abstract
Solvent-pumped evaporation-driven concentration of an initial distribution of solutes on a porous substrate is considered in one and two dimensions. Approximate analytic solutions to the isotropic advection–dispersion equations are first found for a Gaussian kernel and an infinite domain, following the smoothed particle approximation. Analytic solutions for more general initial distributions are then found as sums of Gaussians, and comparison is made with numerical solutions. In each case, initial distributions are advected toward the stagnation point and concentrated. Two-dimensional analysis is then extended to describe anisotropy in permeability and diffusion, and hydrodynamic dispersion. Radial-flow experiments are performed using filter papers and water-soluble dyes. Diffusion coefficients, temperature and humidity profiles, and the evolution of spot distributions are measured. The results confirm minor anisotropy in permeability and diffusion, limited hydrodynamic dispersion, and largely uniform evaporation. Péclet numbers over 2500 are demonstrated. Evaporation-driven concentration provides a mechanism for solute transport over long timescales. Potential applications lie in the design of paper spray microanalytical devices operating by solvent pumping rather than capillary flow. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
21. Effect of binary blending of waste paper sludge ash and granite dust in fine grained soil stabilization.
- Author
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Hamzah, Khudhur Jaber and Jafer, Hassnen M.
- Subjects
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WASTE paper , *SOIL stabilization , *WASTE products , *GRANITE , *DUST - Abstract
This study aims, through experimental works, to develop a new and sustainable binder by reusing two waste materials, namely waste paper slag ash (WPSA) and granite dust (GD) to stabilize fine-grained soil and reduce the environmental impacts resulting from improper disposal in addition to reducing the use of cement and lime in soil stabilization. The soil utilized in this research was obtained from a site near 80th Street in Babylon Provence. The experimental works included sieve and hydrometer analysis, consistency limits, compaction test, and unconfined compression strength test at 3, 7, and 28 days of curing. Various binary blended binders derived from mixing of WPSA and GD at different proportions; 10:0, 7.5:2.5, 5:5, 2.5:7.5, and 0:10 were utilized. These binary blended binders were mixed with the virgin soil at 10% in the samples testing procedure. The results showed that the use of the mixture containing GD alone resulted in a reduction in the LL, PL, and PI, and when increase the percentage of WPSA in the mixture, LL and PL were increased while PI decreased. Moreover, the maximum dry density of the treated soil increased with the use of GD, however, it decreased significantly after the employing WPSA in the binder used. As per the outcomes of the compressive strength test, it was shown that the use of the mixture WPG0 that contains (100% WPSA) gave the highest compressive strength, which is equivalent to 14 times of that for the virgin soil after 28 days of curing. The strength then dropped with increasing the percentage of granite dust in the mixture. However, mixtures contained both of WPSA and GD exhibited acceptable compressive strength throughout the time of curing as the results indicated. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
22. An investigation into the strength development of cement concrete blended with hypo sludge ash.
- Author
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Ingale, Sujata and Nemade, Pravin
- Subjects
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CONCRETE , *WASTE paper , *LIME (Minerals) , *CONCRETE mixing , *MAGNESIUM oxide , *CONCRETE additives , *CEMENT admixtures - Abstract
The study aims to produce concrete using various percentages of hypo-sludge ash (HAS) in place of cement. The waste paper sludge ash is composed of magnesium oxide and calcium oxide. Therefore, it can be tested as an innovative cement replacement, providing a solution for traditional concrete. For this study, the various proportions of ash used are 5%, 10%, and 15% by weight of cement. The mixed design carried out was as per the Indian standard code. The ingredients used for concrete making are cement, aggregates, hypo sludge ash (HSA), superplasticizer, and water. A test mix was carried out to check the behaviour of a concrete mix, and its physical and hardening properties were checked. Cube samples were cured for 3, 7, 14, and 28 days to check hardening properties. Experimental analysis shows that by replacing 5% cement with HSA, the strength results obtained are close to the reference concrete. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
23. Comparison of power generation from restaurant wastewater treatment in microbial fuel cell using carbon felt electrode with carbon paper electrode.
- Author
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Chowdary, K. R. Vineela and Ethiraj, Baranitharan
- Subjects
- *
MICROBIAL fuel cells , *CARBON electrodes , *CARBON paper , *WASTEWATER treatment , *DEIONIZATION of water , *POWER density - Abstract
The major aim of this study is to compare the power generation of carbon felt electrode and carbon paper electrode operated Microbial fuel cells (MFC) using restaurant wastewater. Restaurant wastewater samples were collected from MFC with carbon felt electrode (N=13) and carbon paper electrode (N=13) operated for 10 days (G power 80%). Voltage was measured using a multimeter and current, power, power density was calculated from it for both groups. The Power generation was found to be high in MFC operated with carbon felt electrode (410 mW/m2) due to its active surface area, strong conductivity, and good biocompatibility compared to carbon paper electrode (121 mW/m2). The independent sample T-test was done which showed that the power generation of MFC operated with carbon felt electrode (p<0.001) found to be significantly higher compared with MFC operated with carbon paper electrode. The study shows that carbon felt electrode operated MFC is able to achieve higher power generation compared to carbon paper electrode. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
24. Performance study on application of electro-coagulation for pulp and paper industry effluent treatment.
- Author
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Marol, Chethan Kumar and Hugar, Guruprasad M.
- Subjects
- *
PAPER industry , *WATER purification , *PERFORMANCE theory , *PAPER mills , *IRON - Abstract
In current work, the paper mill effluent is treated with electro-coagulation used as a iron and aluminum as sacrificial materials. Various operating parameters such as pH, treatment time and applied voltage were assorted and their influence on efficiency of electro-coagulation was studied. From the experimental investigation it has been found out that at optimum operating conditions like pH 7, treatment time 60 min and applied voltage 20V, COD and Turbidity removal efficiency were highest. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
25. Transfer function approach of the debye model for estimating paper moisture in a power transformer.
- Author
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Kumar, Ritesh, Shiva, Chandan Kumar, Rangarajan, Shriram S., Jha, Shankaranand, and Vedik, B.
- Subjects
- *
TRANSFER functions , *POWER transformers , *POWER resources , *DIELECTRIC loss , *ELECTRIC power failures , *MOISTURE , *PARTIAL discharges - Abstract
In the event of a power transformer failure, the utility could experience an interruption in its power supply. Many factors, including winding deformations, insulation deterioration, transient and overloaded conditions, etc., can lead to this kind of failure. This research explores the relationship between polarisation and depolarization current (PDC) measured from the oil impregnated paper insulation of a high voltage (HV) power transformer to reveal data about the state of the insulation used in these devices. Paper insulation in a power transformer has been documented to age in a non-uniform fashion. Popular models that can model non-uniform ageing include the conventional Debye model (CDM). In the current study, we employed CDM to foresee the performance of oil-impregnated paper insulation. Further, dielectric loss tan and overall insulation conditions have been explored, with the largest magnitude of Z evaluated from the transfer function (TF) of the CDM model impacting most to the insulation condition and projected moisture present in the insulation paper. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
26. Investigation of surface free energy of palm oil-based offset printing ink on coated paper.
- Author
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Suryadi, Gema Sukmawati, Nikmatin, Siti, Susiani, Susiani, and Setyaningsih, Dwi
- Subjects
- *
OFFSET printing , *PRINTING ink , *SURFACE energy , *FREE surfaces , *LINSEED oil , *VEGETABLE oils , *FATTY acid methyl esters - Abstract
The widely use of petroleum-derived mineral oils for the production of offset printing inks has resulted in several environmental impacts. The suitable approach to develop alternative resources is palm oil fatty acid methyl ester (FAME) as a substitute for petroleum-based solvent. This study aimed to investigate the surface properties of palm oil-based offset ink on gloss-coated paper surfaces in terms of printability. The "green" varnishes were prepared with palm oil FAME as solvent, rosin-modified phenolic resin, and different vegetable oils linseed oil (FAME-LO) and soybean oil (FAME-SO) have been used as drying oils. The FAME-based Cyan offset printing inks have been prepared their properties compared with standard conventional inks. Printing tests were carried out using the IGT-A2 printability tester. Contact angles of water, methanol, and hexane on the surface of printed ink were measured using Contact Angle Analyzer. The surface free energy (SFE) and its components were calculated using Girifalco-Good-Fowkes-Young, Owens-Wendt, and van Oss-Chaudhury-Good methods. The results showed that as the liquid contact angle increased, the surface energy decreased. The surface energy of FAME-SO ink printed samples 36.36 mJ/m2 was higher than the unprinted paper 35.84 mJ/m2. Since high surface energy will affect the bond strength of the ink to the substrate, this will be an advantage for multicolor prints requiring good ink adhesion, which will enlarge the acceptance of other colors to be printed on the previous color. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
27. Review paper of two-phase flow boiling pressure drop in propane refrigeration system.
- Author
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Virgian, Edo Widi and Pamitran, Agus S.
- Subjects
- *
MICROCHANNEL flow , *PRESSURE drop (Fluid dynamics) , *TWO-phase flow , *ANNULAR flow , *HEAT transfer coefficient , *REYNOLDS number , *HEAT exchanger equipment - Abstract
This paper is about paper or journal review of two-phase flow boiling pressure drop in propane (R290) refrigeration system and summarized several researches that will useful in terms of HVAC-R equipment especially in heat exchanger i.e., evaporator design. Early researcher has been conducted research with respect to the channel dimension (diameter and aspect ratio) as in Coleman (2000). Recent research of flow boiling with combined parameters such as heat transfer coefficient (HTC) and pressure drop shown that some parameters affected pressure drop inside unconventional channel (mini and microchannel) such as superficial vapor velocity, mass quality, mass flux, heat flux, saturation temperature (and pressure), and Reynolds number where flow regime of the pressure drop are mostly annular flow, intermittent flow, slug and churn flow but less or few of them found a relation of channel dimension i.e. diameter and aspect ratio towards two-phase flow pressure drop (as in Coleman (2000)). It is recommended that for further study and research, study of two-phase flow boiling pressure drop must conduct in the unconventional channel such as minichannel or microchannel i.e., capillary tube and incorporate Reynolds number of the flow (both vapor and liquid), channel dimension (diameter and aspect ratio), surface tension, and shear stress influence from two-phase flow fluid and then plot the data to the recent and or existed flow pattern map of any flow regimes especially to the refrigerants ones. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
28. An experimental study on utilization of paper pulp and crushed marble dust in M35 grade concrete.
- Author
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Sargunan, K. and Suvarna, M.
- Subjects
- *
PAPER pulp , *INCINERATION , *WASTE paper , *INDUSTRIAL wastes , *CRUSHED stone , *GREENHOUSE gases , *AIR pollution , *INDUSTRIAL pollution - Abstract
The demand for cement has grown due to the rapid growth of the building sector. Cement manufacture, on the other hand, produces more greenhouse gases and carbon dioxide. As a result, different construction materials must be sought. Paper pulp is made from waste from the paper industry. Every year, the paper industry consumed a significant amount of land in the surrounding area. Some wastes are thrown on land as a disposal method, while some businesses burn their industrial waste in incinerators, causing serious air pollution issues. The impact of employing paper pulp and crushed stone dust as partial replacements in concrete is discussed in this study. The advantages of using paper pulp with crushed stone are explored in this study. Furthermore, this research presents the findings of an experimental inquiry for M35 grade concrete employing wastepaper as an extra ingredient in concrete mixes for housing projects. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
29. Solute imbibition in paper strip: Pore-scale insights into the concentration-dependent permeability.
- Author
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Behera, Prateechee Padma, Mehta, Sumit Kumar, Arun, Ravi Kumar, and Mondal, Pranab Kumar
- Subjects
- *
PERMEABILITY , *MICROFLUIDICS , *COMPUTER simulation - Abstract
Capillary wicking in a thicker gel blot microfluidics paper has been investigated through a combination of an analytical framework, experiments, and numerical simulations. The primary objectives of this work are to investigate the concentration-dependent wicking process inside thicker microfluidic paper and to estimate the concentration-dependent permeability using both theoretical models and experimental data. An additional goal is to estimate the parameters for saturation-dependent flow modeling in thicker microfluidic paper. To comprehend the wicking phenomenon on thicker gel blot paper, a series of experiments employing aqueous food dye solutions at varying concentrations has been conducted. In order to calculate the temporal wicking length analytically, the Brinkman-extended Darcy equation is implemented. By modifying the permeability expression for a simple rectangular unidirectional fiber cell and pure liquid, the expression of effective permeability for the analytical framework has also been introduced. The concentrations of the food dye solutions appear to have a substantial influence on the wicking phenomenon. Effective permeability and wicking length have been found to follow a decreasing pattern at lower concentrations while both increase at higher values. Intriguingly, employing a microfluidics paper with a relatively greater thickness facilitates the visualization of the fluid front. This phenomenon is identified by the formation of an acute angle at intermediate time instants, while the fluid front angle assumes an angle nearly ∼90° during smaller and higher time instants. In order to evaluate the saturation-dependent capillary pressure and permeability, the empirical correlation of concentration-dependent Brooks and Corey parameters is additionally determined experimentally. These parameters are subsequently employed in numerical simulations to illustrate the saturation-dependent flow field using Richards' equation. Furthermore, numerical simulations based on these estimated model parameters have been conducted, and it turns out that the saturation field has an excellent agreement with the experimental results. The results of the current study can be used to design low-cost paper-based diagnostic devices for usage in healthcare and environmental applications. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
30. A simple and low-cost paper-based device for simultaneous determination of hematocrit and hemoglobin levels in point-of-care settings.
- Author
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Ram, Rishi, Kumar, Dharmendra, Paik, Pradip, and Sarkar, Arnab
- Subjects
- *
HEMATOCRIT , *HEMOGLOBINS , *ETHYLENEDIAMINETETRAACETIC acid , *BLOOD testing , *POINT-of-care testing - Abstract
Hematocrit and hemoglobin levels are common blood tests used to assess the overall health status of patients as well as the oxygen-carrying capacity of the blood. The gold-standard technologies to determine the hematocrit and hemoglobin levels are precise and fast, but they are not pragmatic in extreme point-of-care settings due to the prohibitive cost, process complexity, and sophisticated facilities. Therefore, here, we report the development of a microfluidic paper-based analytical device to determine hematocrit and hemoglobin levels simultaneously. This device exploits the area of the stain formed by a spreading drop of 20 μl of whole blood on Whatman filter paper immobilized with sodium chloride and ethylenediaminetetraacetic acid for hematocrit level, whereas for hemoglobin concentration, it utilizes the gray color intensity of a 20 μl droplet of a mixture of blood and de-ionized water. The performance of the device is verified by comparing with gold-standard results of the automated hematology analyzer, showing a high degree of correlation (R2) of 0.9651 and 0.9701 for hematocrit and hemoglobin levels, respectively. The bias and standard deviation of the differences between the two measurements for hematocrit determination are 0.002 and 1.005, respectively, while the bias and standard deviation of differences between the two methods for hemoglobin determination are 0.065 and 0.398, respectively. This device is likely to provide a simple, fast, disposable, and inexpensive tool to determine the hematocrit and hemoglobin levels in resource-constraint settings. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
31. The effect of spent coffee grounds in increasing the calorific value of waste paper briquettes.
- Author
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Kamal, Dianta Mustofa, Susanto, Iwan, Zainuri, Fuad, Nufus, Tatun H., and Maulidya, Galuh Ineza
- Subjects
- *
BRIQUETS , *WASTE paper , *COFFEE grounds , *WOOD waste , *CHARCOAL - Abstract
Briquettes produced from scrap paper are known for their low calorific value. The calorific value of briquettes from waste paper is in the fourth rank after waste wood, charcoal, and sawdust. Therefore, the correct ratio of composition mixture to create a higher calorific value is required. Spent Coffee Ground (SCG) has been selected as an added material in the composition of biomass mixture since SCG has a high calorific value and is easily found. The purpose of the study is to find the correct ratio that may increase the calorific value of the bio-briquettes made of scrap paper, based on comparative testing and analysis. There are four composition mixture samples used in the study. The first composition mixture is 90% of scrap paper and 10% adhesive; the second one is 70% of scrap paper, 20% of SCG, and 10% adhesive; the third composition mixture is 50% of scrap paper, 40% of SCG, 10% of adhesive; and the fourth composition mixture includes 30% of scrap paper, 60% of SCG and 10% of adhesive. The study shows that the greater ratio of SCG used in the composition will result in a higher calorific value. The research concludes that briquettes achieve their best performances in the composition mixture of 40% of SCG. In the proposed ratio, briquettes are not brittle and produce 5.366 kcal/kg of calorific value; 6.58% of water content; 5.37% of ash content; 28.28% of volatile matter; and 8.91% of shatter index. Therefore, the studied composition can be considered to produce the most efficient biomass briquettes made from scrap paper [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
32. The performances of cationic starch (CS) and sodium carboxymethyl celluloses (CMC-Na) as a dry strength additives (DSA) on A4 wastepaper.
- Author
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Main, Nor Mazlana, Hishamuddin, Nurfarhani, Marsi, Noraini, Esa, Mohd Faizal, and Masrol, Shaiful Rizal
- Subjects
- *
SODIUM carboxymethyl cellulose , *WASTE paper , *STARCH - Abstract
This study aims to identify the performances of cationic starch (CS) and sodium carboxymethyl celluloses (CMC-Na) as dry strength additives (DSA). The CS and CMC-Na were incorporated with to pulp slurry in different dosages (0.5%-2.0%) during stock preparation. The basic weight of 80 g/m2 was made for each treatment. The results showed that the utilization of CMC-Na had better mechanical properties compared to the CS for all treatments. In general, apparent density and mechanical properties were significantly affected by the addition of DSA. However, through the observation of the experiment, the enhancing effect of CMC-Na on mechanical properties of wastepaper was much higher than using CS except for tear strength. The FESEM imaging results can also help prove the best DSA used in wastepaper production. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
33. Digital skills to enhance engineering.
- Author
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Irons, Alastair
- Subjects
- *
CAREER development , *ELECTRONIC paper , *ENGINEERS , *EDUCATIONAL accreditation , *REQUIREMENTS engineering - Abstract
The professional skills required to be a successful engineer continue to grow and expand as the engineering disciplines evolve. In the United Kingdom, the Engineering Council has released the latest version of the Accreditation of Higher Education Programmes (AHEP). AHEP4 as it has become known covers a wide range of topics central to engineering disciplines. As well as traditional core professional and subject requirements for engineering this document introduces challenges for the future such as sustainability, EDI, and cybersecurity. In addition, there is an expectation that appropriate digital skills for engineers form part of the toolkit for engineers as they move towards chartered engineering status. This paper discusses the digital skills that will enable engineers to develop their skill set as engineering professionals, enhance their employability by developing digital skills in the context of their engineering specialism and ensure that they have the digital skills to enable their activities to contribute to the betterment of society. In the paper the work done to embed digital skills in the engineering curriculum will be discussed. We will then go on to discuss the work done with engineering employers to identify the digital skills expectations for graduates entering employment and finally how the continued professional development process for digital skills can be embraced as engineers move through their careers. The session will conclude with a discussion on how colleagues from the UK and from Malaysia can work together to develop a framework to support engineers in developing their digital skills. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
34. A mathematical formulation and reduction of cutting stocks problems in paper-mill industries.
- Author
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Vaishali, Kumari and Pal, Ashok
- Subjects
- *
CUTTING stock problem , *LITERATURE reviews , *PATTERNS (Mathematics) , *PAPER industry - Abstract
The "Trim loss issue" (TLP) perhaps uttermost intriguing issues with regards to structure of advancement research It targets to determine the best cutting example of several things of varying lengths from a load of regular size measurable to meet the clients' wants while reducing waste due to trim misfortune. The subsequent numerical pattern is exceptionally nonconvex in nature went with a few imperatives with additional limitations of paired factors. This evades the utilization of straight advancement techniques. In this review work we utilize synergetic differential advancement (SDE) for the arrangement of this sort of issues. Four theoretical yet significant instances of trim misfortune issue emerging are used in the paper industry the test. The exploratory outcomes contrasted and those of different procedures show the capability of the SDE to take care of the issue. This paper includes introduction which explains a complete terminologies related to cutting stock problem, in literature review section we discuss various mathematical model which already exist in literature, in next section we discuss about mathematical formulation to reduce wastage. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
35. Environmental and socio-economic benefits of recycling of waste papers generated by educational institutes.
- Author
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Gupta, Shipra, Kumar, Vijay, Dhyani, Archana, and Singh, Yashvir
- Subjects
- *
PAPER recycling , *WASTE paper , *PAPER mills , *COLLEGE students - Abstract
The understudies of schools and universities devour many papers as note pads, books, assessments, answer books and so forth. After utilizing these papers and advancing in the new class, new requests for scratchpad and books were delivered. The new paper creation by paper factories cause the cut of more trees and timberlands and become the explanation of water, air contamination. Reusing paper squander paper is probably ideal for the supportable turn of events and zero waste targets. Since squander paper reusing supplies critical commitments to the supportability of ranger service assets, to energy-saving endeavours, to decrease ecological contamination levels and viable usage of crude materials. The financial commitment of waste paper reusing can be a lot more prominent if these squanders are gathered at the source. It is essential to distinguish the areas that devour generally higher measure of paper; thus, raise their mindfulness, and give answers for on-source-partition rehearses in such areas. Generally, it realizes that the understudies of universities/schools burnthrough bigger measures of paper contrasted with other shopper units. The current investigation plans to ascertain the worth of financial advantage made by squandering papers gathered usingthe students of College/school. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
36. Effects of Karnaphuli paper mill effluents on the Karnaphuli river water.
- Author
-
Hassan, Md. Mehedi, Ali, Md. Hazrat, Ratul, Shahariar Mahmud, and Kabir, Z. M. Mahin
- Subjects
- *
PAPER mills , *SEWAGE disposal plants , *COLIFORMS , *WATER quality , *WATER testing - Abstract
Karnaphuli Paper Mill (KPM) is the country's largest and state-owned paper mill, located at Chandraghona, Chattogram, alongside the Karnaphuli River. At present, 10 to 12 tonnes of paper are being produced daily, resulting in approximately 1000 to 1200 tonnes of waste effluents every day. The water of the Karnaphuli River is being polluting due to untreated effluents discharged from KPM outlets, posing a threat to the Karnaphuli River's aquatic lives. Thus, this research is carried out to test the raw effluents of KPM and the Karnaphuli River water, to compare the water quality with the World Health Organization (WHO) and Bangladesh Environmental Conservative Rules (BECR, 1997) standards to find out the effects of this water on aquatic lives and to suggest remedial measures. Raw effluents were collected from three points of outlets of KPM, and the river water were collected from ten points at upstream and ten points at downstream of outlet at an interval of 100 m each to test the water quality parameters, such as, pH, BOD, COD, total dissolved solids (TDS), Alkalinity, Hardness, Chloride, Turbidity, Fecal coliform, Al, Sn, and Co. The test results were found to be satisfactory, except a few parameters at few locations, which might have negative impacts on river water and aquatic lives. To mitigate the unacceptable concentrations, it is suggested to set up an effluent treatment plant (ETP) to treat the KPM effluents before discharging into the Karnaphuli River. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
37. Cellulase production by Actinomycetes ID07–278 from grass and sugarcane bagasse for paper industry applications.
- Author
-
Rachmayati, Rike, Rizkia, Firda, Agustriana, Eva, Nuryati, Yulianti, Siti Eka, Sutrisno, Aji, and Rahmani, Nanik
- Subjects
- *
BAGASSE , *SUGARCANE , *CELLULASE , *PAPER industry , *ACTINOBACTERIA , *ENERGY industries , *INDUSTRIAL costs - Abstract
Cellulase enzymes in the refining process in paper making are known to reduce energy and grinding costs. The industry requires large amounts of cellulases related to the low activity of cellulases produced. The optimization process is known to increase the value of cellulase activity produced. In the process of cellulase production, carbon sources based on cellulose waste, such as grass and bagasse, can reduce production costs. The purpose of this study is to find out the optimum fermentation carbon source that produces the highest cellulase activity between grass and bagasse by actinomycetes ID07–287. It also aims to increase the value of cellulase activity by optimizing the concentration of selected carbon sources and the pH of the fermentation media. This research includes the preparation of grass biomass and bagasse, the production of cellulase enzymes for the selection of the optimum carbon source, and the optimization of the production of carbon source concentrations and the pH of the fermentation media. Based on the research results, it is known that grass is the best fermentation carbon source, with an activity value of 0.086 U/mL. The results of optimization of production, at a concentration of 2%, is the optimum concentration with an activity value of 0.099 U / mL and the pH of the fermentation media 9 produces an optimum activity value of 0.107 U/mL. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
38. A systematic literature review on augmented reality in smart campus research.
- Author
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Rahman, Eka Fitrajaya, Rasim, and Erlangga
- Subjects
- *
AUGMENTED reality , *ELECTRONIC paper , *RESEARCH questions , *TOUR guides (Persons) - Abstract
Notwithstanding the developing interest and conversations on Augmented Reality (AR) on smart campus, we don't yet know methodicallly, the information that has been worked from scholarly papers on AR in smart campus; if furthermore the way in which AR research meet, the approaches used to explore AR in tourism, and the emerging contexts AR has appeared smart campus research. By directing a deliberate writing survey on AR research in smart campus, this work looks to reply four importantly research questions: (1) Where AR technology research emerged in?; (2) Which Role of the Mobile Augmented Reality System (MARS) stand out enough to be noticed in smart campus research?; or (3) Comparison of Features in The Campus Tour Guide Application utilised to research AR in smart campus?; Overall, the findings show that smart campus arisen as the most well-known settings. Notwithstanding, issues with heterogeneity showed up in phrasing use close by an absence of hypothesis based exploration in AR. Likewise, holes were distinguished where difficulties recognized rotated around consciousness of the innovation, convenience, and time responsibility. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
39. The effect of waste paper fiber on the volumetric and mechanical properties of open graded friction course mixtures.
- Author
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Ghanimi, Nashwan AL, Al-Busaltan, Shakir, and Kadhim, Mustafa Amoori
- Subjects
- *
WASTE paper , *SKID resistance , *ASPHALT modifiers , *MIXTURES , *ASPHALT , *FRICTION - Abstract
Open graded friction course (OGFC) mixtures are generally utilised as an overlay layer on existing pavement layers at thicknesses of up to 50 mm. They are designed with open aggregate skeletons to mitigate noise impact, reduce spray and splash, and minimise night glare. They have also gained widespread popularity worldwide as a result of features such as slip resistance, water permeability, and urban heat reduction. However, despite these advantages, their design structure is somewhat weak due to the high proportion of large gradient gravel content with a lack of smaller particle gradations. In addition to creating air voids of up to 22%, these can cause bitumen and filler to drain down, which is considered one of the main problems of such mixtures. Several researchers have thus attempted to modify the properties of such mixtures by using additives to strengthen the asphalt bond, with improvement sought by adding polymer materials, fiber, or similar additives as additional soft materials. In this study, waste paper fiber (W-PF) was added after being picked to a small size, as this additive has not been used in previous research, in this area and offers both environmental and economic advantages. This was added to the binder at percentages of 0.3%, 0.5% and 0.7% by weight, and the performance of each mix was checked with respect to volumetric properties (air voids, bulk density, porosity and permeability) and mechanical properties (Cantabro wear loss (CL), skid resistance and indirect tensile strength (ITS)). The results show that incorporating W-PF into the asphalt binder generally improves the mixture's performance. With respect to volumetric scales, it leads to higher values of porosity, air voids, and permeability, with improvements of around 14%, 10%, and 31%, respectively, at 0.7% W-PF by weight of binder. As the paper dose increases, the bulk density decreases, and the mechanical characteristics such as skid resistance and ITS increase, by roughly 38% and 24%, respectively, at 0.7% W-PF. Using W-PF in the right proportions to stabilise neat asphalt for OGFC mixes thus appears promising as a long-term solution to several issues. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
40. Investigation on the potential use of waste paper to produce papercrete bricks.
- Author
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Niyomukiza, John Bosco, Odeke, Bernard Joseph, Owori, David, Tiboti, Paul, Kiwanuka, Moses, and Mbujje, Joel Webster
- Subjects
- *
WASTE paper , *BRICKS , *CONSTRUCTION materials , *LOAD-bearing walls , *BUILDING materials industry , *COMPRESSIVE strength - Abstract
A significant demand has been placed on the building material industry, especially in the last decade due to the increasing population, which causes a chronic shortage of building materials. The current study aims at utilizing waste paper to produce papercrete bricks and study their engineering properties, a step towards sustainable development. Papercrete is rapidly gaining popularity in the building construction industry worldwide because of its environmental friendliness, low-cost and lightweight. The study considered literature and related ideas up to conceptualization and design of the trial ratio used in testing. Trial mixes of paper sludge, sand, and cement at different proportions made papercrete bricks of dimensions 220×110×102 mm. The tests conducted included compressive strength and water absorption. The mixes of paper sludge, sand, and cement in the ratio of 50, 35, and 15%, respectively, gave the best results. The compressive strength increased with the increase in the curing period. The rate at which the papercrete bricks absorbed water reduced as the curing period increased for all the papercrete trial mixes. It was concluded that percentages of paper sludge less than 50% are recommended for non-load bearing walls such as parapet walls and partition walls. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
41. Effect of papaya latex bio-activators on the morphological changes of recycled pulp fiber and paper properties: A progress towards green technology.
- Author
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Anisa, Nurfa, Darmadi, Djarot B., Sugiono, Ngafwan, Waluyo, Budi, and Wardana, I. N. G.
- Subjects
- *
PAPER pulp , *GREEN technology , *PAPAYA , *NANOFIBERS , *LATEX , *LIQUID waste , *WATER storage - Abstract
It is essential to use enzymes as a substituting chemical to enhance the properties of pulp and paper. However, there is a limited match between the material and the enzymes applied. Therefore, this research aims to increase pulp and paper properties enzymatically by adding papaya latex bio-activator in the recycled pulp process using the hydrolyzing method. The results showed that this bio-activator made the fiber bulky due to the storage of more water in the pulp, thereby expanding the fiber surface, which facilitated tearing and increasing fibrillation in the refining process. This process led to changes in the surface morphology of fiber and structure of pulp fibers, which were determined from the Scanning Electron Microscopy (SEM) test. It also increased fiber fibrillation, which led to a rise in bond strength between fibers capable of raising paper properties. In conclusion, papaya latex bio-activator reduces the use of chemical hydrogen peroxide (H2O2), increases fibrillation in the refining process and reduces environmental liquid waste pollution. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
42. Paper-based evaporation concentrators: Comparison of linear and radial geometries.
- Author
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Syms, Richard R. A. and Wright, Steven
- Subjects
- *
BEER-Lambert law , *LIGHT transmission , *PAPER chromatography , *FILTER paper , *SQUARE root , *ADVECTION-diffusion equations - Abstract
Paper-based evaporation concentrators with linear and radial geometries are compared. A new method of finding approximate analytic solutions of the advection–dispersion equation is proposed, based on the behavior of concentrators with infinite sources. Analytic approximations are compared with numerical solutions, and the advantage of radial concentration is highlighted: linear concentration rates scale with the square root of the Péclet number Pe while radial rates scale with Pe itself, leading to faster radial concentration beyond a critical value. Experiments are performed with Brilliant Blue FCF dye, using optical transmission and the Beer–Lambert law for quantitation. Dye concentrations are chosen for operation in the linear absorbance regime. Radial concentration is demonstrated under ambient conditions on filter paper disks with 60 mm diameter evaporation areas fed from a perimeter source, in a reverse of the well-known "coffee stain" experiment. Airflow enhanced concentration in strips and wedges is compared directly, using laser-patterned chromatography paper. The advantage of radial concentration is confirmed (and enhanced by diversion of concentrate to the corners of strips) and concentration factors greater than ∼ 500 (the dynamic range of measurement) are obtained in ∼2 h using 30 mm long columns. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
43. Determination of insecticide vector distribution on local production filter paper non-gradient.
- Author
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Meilyanawati, Debora, Sutresno, Adita, Shanti, Made Ray Suci, Setiawan, Andreas, and Setiyaningsih, Riyani
- Subjects
- *
FILTER paper , *INSECTICIDE application , *INSECTICIDE-treated mosquito nets , *INSECTICIDE resistance , *INSECTICIDES , *CYHALOTHRIN , *PAPER products , *DATA quality - Abstract
The application of insecticides on local product filter paper can be made in three ways: droplet use pipette, manual spray, and printing spray. Insecticides play an essential role in a paper, mainly used for testing susceptibility. The way the insecticide is applied affects the distribution on the paper surface. The purpose of calculating the distribution of insecticides on local filter paper is to determine the amount of insecticide in the cavity volume of ordinary paper. The research aims to get the data quality of impregnated paper local production with various spray techniques. To determine the volume of voids on paper and determine the distribution of insecticides can be using ImageJ software. The type of paper used is locally produced filter paper with insecticide lambda cyhalothrin with a predetermined concentration. The study results showed that with the spray machine method, the distribution of insecticides was more evenly distributed than the standard spray method. The range of paper cavity volumes with a spray machine is shorter than the volume range of paper cavities sprayed manually (0.005113), while those with ordinary sprays are (0.007349). These differences indicate that the spray machine is better than the manual spray method. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
44. A study on properties of ceiling board made from waste paper with urea-formaldehyde glue.
- Author
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Hamid, Nor Baizura, Ngadiman, Norhayati, Kaamin, Masiri, Mokhtar, Mardiha, Azmi, Mohamad Azim Mohammad, Abdullah, Noorul Hudai, and Ramli, Mohd Zakwan
- Subjects
- *
WASTE paper , *PAPER pulp , *CEILINGS , *CARDBOARD , *DRYWALL - Abstract
Asbestos and gypsum ceiling board, which recently used, possess certain health risks to humans other than being environmentally-unfriendly. This project aims to investigate the potential use of waste paper in the production of ceiling material to meet the aim of producing an eco-friendly and cost-effective product. The idea of replacing the raw materials to manufacture ceiling boards with the waste paper is to carry out to ascertain its suitability as ceiling board material. The waste paper pulp was sun-dried before mixed with UF adhesive and is compressed under pressure 204 kg/m2 under a temperature of 105°C. The tests conducted include density test, moisture content test, and water absorption test. Tabulated results have shown that the material is more lightweight and comparable moisture content compared to the asbestos and gypsum board material. With the same thickness, 500g of waste paper pulp compressed into a mold with a size 450 mm x 450 mm is more suitable to be commercialized. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
45. Development of a paper shearing machine using geneva mechanism.
- Author
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Kumar, Ranjith S., Kaushik, Nitish, Kumar, Sangeeth M., Dhananjayan, T., and Vigneshwar, Raj T.
- Subjects
- *
SHEARS (Machine tools) , *PAPER arts , *CUTTING machines , *PRODUCTION planning , *MANUAL labor , *EXERCISE equipment , *PAPER industry - Abstract
The target of this idea is to plan the paper cutting machine utilizing Geneva component. This machine is utilized to decrease the manual work of paper cutting, and furthermore efficient. This machine is exceptionally valuable for paper fabricating industry likewise we can keep away from the human blunders and it can be used in schools, collages stationary shops, paper stores, etc. This project is designed by chain drive, Geneva mechanism, paper cutter, hinge joint and spring. This machine will minimize the errors occurred while cutting papers using hands and it will also reduce the risk of paper cutting.Thisventures is fixated on the plan and manufacture of an Automatic paper cutting machine utilizing some privately discovered materials. Paper is one of the significantly utilized material in our everyday exercises in bringing data's down essential data's, it is vital that there is a machine that can deal with it at a homegrown level to give the ideal structure for different use.The machine is tried and the yield is assessed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
46. Semantic citation for paper correlation using recurrent neural networks.
- Author
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Abdillah, Gunawan and Ilyas, Ridwan
- Subjects
- *
RECURRENT neural networks , *NATURAL language processing - Abstract
Paper Correlation is the study of creating an automated machine to assess the relationship between two or more papers. This study continues to develop in the natural language processing field. In this paper, we begin to enter into this study by conducting research to find the relationship between two citation sentences. The citation sentences contained in the paper can be used as a basis for assessing the relationship between two papers. In this research, the semantic similarity between citation sentences is included in.8 semantic classes. We use the Recurrent Neural Networks method and its variations and use SMOTE to deal with imbalanced data. The data representation that we use is word2vec to convert the sentence into a vector. We develop this research by adding data to see the algorithm's capabilities from previous research. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
47. Analysis of the content of lead compounds (Pb) on typed paper as wrapping Sala Bulek on body health.
- Author
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Asman, Aulia, Barlian, Eri, Fatimah, Siti, Dewata, Indang, Hermon, Dedi, Razak, Abdul, Sari, Serly Mutia, Asman, Auzia, and Zamil, Ilham
- Subjects
- *
LEAD , *LEAD compounds , *CONTENT analysis , *ENVIRONMENTAL engineering , *HUMAN body - Abstract
Lead is a heavy metal that can have a negative effect on human health. Lead enters the human body through the respiratory tract, gastrointestinal tract, and skin. Food can be contaminated with lead if the packaging is not proper, for example, salabulek wrapped in typed paper can enter the body. This study aims to prove the presence of lead content in salabulek sold at Pasar Kota Pariaman due to the use of typed paper as wrapping. This research method is descriptive and was conducted at the Water Laboratory, Faculty of Environmental Engineering, Andalas University. The number of samples was 24 samples consisting of 12 samples of salalauak wrapped in typed paper and 12 samples not wrapped in typed paper using total sampling technique. Sample examination using ICP (Inductively Coupled Plasma). The results showed that all salabulek sold by traders at Pasar Kota Pariaman were positive for lead, both wrapped in typed paper and unwrapped. The average lead content in packaged salalauak was 0.172 ppm and unwrapped salabulek was 0.167 ppm. Conclusion. All samples of salabulek contained lead metal and there was an increase in lead levels due to packaging. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
48. Thermal and mechanical behavior of used food backing paper – Epoxy recycling materials.
- Author
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Issa, Tarik T., Dawood, Abdul Salam Tawfeeq, Naoum, Fatin Emad, Joseph, Ghenwa Gassan, Ali, Rania Hussien, Nadhir, Rania Duraid, Radam, Sarah Monieer, and Farooq, Mariam Wissam
- Subjects
- *
EPOXY resins , *VALUES (Ethics) , *SURFACE roughness - Abstract
Used food paper in strips shape were mixed in a different weight percentage 1,2,3,4 respectively with epoxy resin. Discs of 10 cm diameter and 0.8 cm thickness were prepared in a hard shape. The thermal conductivity were tested for each combination showing that the maximum value of 0.989 w/m.°c signed at the combination (Epoxy 6 – Paper 4) Wt.%. And the mechanical properties representative by the hardness reflect the same behavior and recorded the maximum value of 80.21, meanwhile the surface roughness follow the other values in same manor with maximum value 0.50 µm. The increasing in used paper content showing that this increasing will lead clearly to improve the thermal and some mechanical properties of epoxy resin. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
49. Assessing the effect of size and content of shredded paper fiber on the properties of asphalt binder.
- Author
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Al-Zerejawy, Hussein K. and Al-Humeidawi, Basim H.
- Subjects
- *
ASPHALT , *ASPHALT pavements , *ROAD construction , *MANUFACTURING processes , *WASTE products , *FIBERS - Abstract
The construction of a new road has many environmental consequences, as it consumes a significant amount of materials and energy. Additionally, the price of crude oil, which is the primary source of the bituminous binder has climbed dramatically in recent years. These factors have caused a rise in the overall cost of asphalt pavement. An effective way to increase the asphalt mixture industry's long-term viability while also decreasing costs is to develop new materials and technologies that use recycled and environmentally friendly resources in the manufacturing process. The primary goal of employing waste materials as modifiers such as Shredded Paper Fibers "SPF" is to improve performance, save resources, protect the environment from pollution and study the influence of content and sizes on the properties of pure bitumen. The "SPF" was individually mixed with pure bitumen binder at a proportion of (0.25, 0.5, and 0.75) % from the weight of bitumen using two different sizes (14×6×1) mm and (7×3×1) mm. Several tests were conducted to assess the properties of the developed binder such as penetration, ductility, softening point, penetration index, and viscosity. The results showed that the modified asphalt binder has fewer values of penetration and ductility by 50 % and 51% respectively compared with pure bitumen for the smallest size of "SPF". The use of these modifiers leads to an increase in the penetration index to 0.47 and viscosity to 2.5 times when used smallest size and percent of 0.75%. The use of these modifiers leads to an increase in the penetration index to 0.47 and viscosity to 1.8 times when used smallest size and percent of 0.75%. The knowledge gap in this study suggests an alternative for cellulose fibber from waste recourse, however, the shredded paper is suggested as a stabilizer to asphalt used for Semi-Flexible Pavement "SFP", and where drain down is recognized obviously with neat asphalt. The results also demonstrated that enhanced asphalt binders might significantly alter the characteristics and performance of asphalt mixtures. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
50. The effect of electric field on the pyrolysis of transformer insulation oil–paper based on molecular dynamics.
- Author
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Zhang, Xiaoxing, Cai, Fujin, Jin, Shuo, Lin, Hui, Fang, Rui, and Wu, Yunjian
- Subjects
- *
TRANSFORMER insulation , *ELECTRIC field effects , *MOLECULAR dynamics , *INSULATING oils , *ELECTRIC fields - Abstract
The regular operation of transformers is significantly impacted by the insulation effectiveness of the transformer insulation oil–paper. In order to explore the mechanism of the influence of an electric field on the thermal decomposition performance of insulating oil–paper, this paper simulated the process of electrothermal coupling decomposition of insulating oil–paper from the micro-level based on molecular dynamics. It was determined that the insulating oil is made up of three 16-carbon hydrocarbon molecules, while the insulating paper is made up of 30 fibrous disaccharide molecules. Using the molecular dynamics simulation approach, the pyrolysis of the insulating oil and insulating paper under various electric field strengths was simulated, and the lysis of reactants and the distribution of products were statistically examined. This paper also studied how the electric field affected the microscopic process of the insulating oil–paper pyrolysis. The findings demonstrate that under the influence of electrothermal coupling, the big molecules of the insulating oil and insulating paper are pyrolyzed to produce a variety of tiny molecules. For the insulating oil, it is easily subject to electron displacement polarization under the influence of an external electric field since it contains non-polar molecules, especially impacted by an electric field of 100 V/m. For the insulating paper, its polar nature, on the other hand, makes itself a good candidate for guiding polarization when exposed to an external electric field. So, the greater the electric field strength is, the greater the impact on the thermal decomposition of the insulating paper is. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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