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Relevant bibliographies by topics / Papermaking potential

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Academic literature on the topic 'Papermaking potential'

Author: Grafiati

Published: 10 September 2021

Last updated: 13 February 2022

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Journal articles on the topic "Papermaking potential"

1

Reverdy-Bruas, N., J. M. Serra-Tosio, and Y. Chave. "Characteristics of Pulps and Their Papermaking Potential." Drying Technology 25, no. 2 (February 2007): 279–90. http://dx.doi.org/10.1080/07373930601119409.

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Miyanishi, Takanori. "Theory and Application of Zeta Potential in Papermaking." JAPAN TAPPI JOURNAL 52, no. 12 (1998): 1667–77. http://dx.doi.org/10.2524/jtappij.52.1667.

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Ferreira, Paulo J. T., José A. F. Gamelas, Maria G. V. S. Carvalho, Gustavo V. Duarte, Jorge M. P. L. Canhoto, and Raphael Passas. "Evaluation of the papermaking potential of Ailanthus altissima." Industrial Crops and Products 42 (March 2013): 538–42. http://dx.doi.org/10.1016/j.indcrop.2012.06.030.

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4

Han, Ya Fen. "Research on the Potential of Resource Saving and Emission Reducing of Papermaking Industry in China: Based on Environment Learning Curve." Advanced Materials Research 361-363 (October 2011): 1013–17. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.1013.

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This paper uses sectional data to analyse the structure of papermaking industry and its environmental influence. In the other hand, this paper uses statistical data in 1992-2010, and takes the energy and water consumption, waste gas, SO2, mist and dust, waste water, COD, the solid waste discharge per 104 RMB Yuan as indexes. The relation between these indexes and economical development is analyzed with the technical advancement and the environmental protection consciousness enhancement, and the statistical model of papermaking industry is established. According to these models, the potentials of saving resources and reducing pollution are calculated. The results are showed that: with economic development, each index is falling by power model, and the relevance presents is high. The environmental loads of different periods gradually drop, because the technical is progressing and the people’s environmental protection consciousness is enhancing. The potentials of saving resources and reducing pollution are falling in papermaking industry, but the potential of present stage is high. This provides scientific foundation for the realization of paper-making industry clean production and envitronmental friendly economy.

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Hibino, Yoshihiko. "The Relationship of .ZETA.-potential to Retention in Papermaking." JAPAN TAPPI JOURNAL 53, no. 2 (1999): 147–51. http://dx.doi.org/10.2524/jtappij.53.147.

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Reis, Alisson Rodrigo Souza, Sineire Maria Silva Araújo, and Paulo Ricardo Rodrigues Piovesan. "The potential use of Fabaceae lianas fibers in papermaking." European Journal of Wood and Wood Products 76, no. 6 (September 3, 2018): 1761–63. http://dx.doi.org/10.1007/s00107-018-1347-3.

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Zhou, Yan Ming, Ji Geng Li, and Huan Bin Liu. "The Abstract Device Models and the General Mathematical Models for Energy and Exergy Analyse in Papermaking Mill." Advanced Materials Research 499 (April 2012): 160–64. http://dx.doi.org/10.4028/www.scientific.net/amr.499.160.

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There are huge potential energy-saving in the papermaking mill. However the modelling and simulation of papermaking mills currently mainly focus on the material flow in the papermaking process, there are few energy analyses of the whole papermaking mill and even fewer exergy analyses. In order to achieve the goals of energy-saving, this paper presents the basic works before establish the general framework of modelling and online simulation in papermaking mill, which are how to abstract the specific device and construct their corresponding mathematics models, not only for material analyze, but also for energy and exergy analyze, and at the same time, for different materials’ energy and exergy analyze, this paper gives the general mathematics models respectively. Use these models, it can do the energy and exergy analysis of the flux material, such as coal, diesel oil, natural gas, liquefied petroleum gas, water, condensate, dry atmosphere, wet atmosphere, steam, dope, slurry, wet and dry paper etc,. Base on those models, it can establish the specific device mathematical models to diagnose, analyze, optimize and simulate online the energy system of the papermaking factory. For calculating energy and exergy automatically, this paper established the property database of the water, water vapor, dry and wet atmosphere, flue gas, boiler heat dissipation and ash.

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Wang, Mei, Ming Yang, Ke Wu Pi, and Lin Xia Gao. "Analysis and Practice of Cleaner Production in a Wastepaper Papermaking Enterprise." Applied Mechanics and Materials 535 (February 2014): 237–40. http://dx.doi.org/10.4028/www.scientific.net/amm.535.237.

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Cleaner production is one of sustainable development approaches for wastepaper papermaking industry. Current situation of a wastepaper papermaking enterprise was analyzed, and it showed that the unit product energy consumption, pollutant generation had large cleaner production potential. 16 cleaner production solutions were generated through material balance analysis, advanced technologies collection, experts consultation and other ways. After the plans were carried out, 7.83% of pollutants were cut down, 7.62% of energy was saved, 1.57% of waste paper was reduced, 1.68% of dry fiber raw material was decreased, and 8.80% of reused industrial water increased equally. Cleaner production was an effective way for wastepaper papermaking industry to save energy, reduce energy consumption, reduce pollution, and increase benefit.

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9

Huang, Guang Hua, Yong Qiang Zhu, Wei Hong Xia, Ping Cao, and Zhan Jun Zhang. "Effects of Cleaner Papermaking Additives WEC on Sizing Degrees in Neutral Papermaking with Mechanical Pulp." Advanced Materials Research 1073-1076 (December 2014): 332–35. http://dx.doi.org/10.4028/www.scientific.net/amr.1073-1076.332.

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Influences of self-developed additives WEC02/WEC03 on sizing of mechanical pulp are analyzed in this study. The results indicated that the optimal dosage for paper sizing were 0.2% (w/w) for WEC02, with sizing degree of 33 s, and 0.8% for WEC03, with sizing degree of 52 s. In addition, the combined usage of WEC02 (0.2%) and WEC03 (0.6%) at pH7.0 could get better sizing performance than single application of WEC02 or WEC03 with sizing value of 77 s. It is obvious that WEC02/WEC03 have great potential to improve sizing efficiency in neutral paperrmaking, leading to saving the sizes dosage and cutting down the production cost.

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Ashori, Alireza. "Nonwood Fibers—A Potential Source of Raw Material in Papermaking." Polymer-Plastics Technology and Engineering 45, no. 10 (October 2006): 1133–36. http://dx.doi.org/10.1080/03602550600728976.

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Dissertations / Theses on the topic "Papermaking potential"

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Miller, Charles E. "An investigation of the effects of polymer partitioning on fines retention." Diss., Available online, Georgia Institute of Technology, 1989:, 1989. http://etd.gatech.edu/theses/available/ipstetd-9/miller%5Fce.pdf.

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Hoto, N. A. (Nceba Antony). "Bugweed, a short fibre source of high potential." Thesis, Stellenbosch : Stellenbosch University, 2003. http://hdl.handle.net/10019.1/53315.

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Thesis (MFor ) -- University of Stellenbosch, 2003.
ENGLISH ABSTRACT: The bulk of paper grades destined for the printing industry are produced on modern paper machines which continuously become wider and faster. In order to improve printability, print quality and dimensional stability, such papers contain a large percentage of mineral pigments either in the form of internal loading or external coatings. Although mineral pigments exercise a substantial beneficial effect on paper surface quality, unfortunately these minerals do not contribute towards sheet strength and machine runnability. Today's papermakers are faced with the dilemma of producing highly filled and coated printing papers with low grammages on faster running paper machines, but often lacking the required quality of fibre resources to secure a smooth runnability of such at high speeds. Standard fibre furnishes will have to be upgraded with special types of reinforcing fibres in order to meet the demands of sheet strength and machine runnability. The investigation had succeeded to identify a new suitable fibre resource, which would satisfy the demand of a reinforcing type natural material.
AFRIKAANSE OPSOMMING: Die oorgrootte meerderheid tipes papier wat vir die drukkersbedryf bestem is, word op moderne papiermasjiene vervaardig wat steeds breër en vinniger word. Om die drukbaarheid, drukkwaliteit en dimensionele stabiliteit te verbeter, bevat sulke papiere groot hoeveelhede minerale pigmente wat in die vorm van interne ladings of as eksterne bestrykings teenwoordig is. Alhoewel minerale pigmente -n merkbare voordelige effek op die papier oppervlakte-kwaliteit uittoefen, dra sulke pigmente ongelukkig nie by tot die sterkte en loopvermoë van die papier nie. Die hedendaagse papiervervaardiger word konfronteer met die dilemma om swaar gevuldeen bestrykte drukpapiere met lae oppervlaktegewig op vinniger lopende papiermasjiene te vervaardig. Dit gebeur dikwels sonder die beskikbaarheid van die nodige hoëkwaliteit veselbronne om te verseker dat die loopvermoë van die papier teen hoë spoed nie benadeel word nie. Standaard veselsamestellings salopgegradeer moet word met spesiale tipe versterkingsvesels om aan die uitdaging van hoë velsterkte en masjien-Ioopvermoë te voldoen. Hierdie ondersoek het daarin geslaag om 'n nuwe geskikte veselbron te dentifiseer en wat aandie behoeftes van 'n versterkingsvesel sal voldoen.

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Santos, António José Alves. "Estudo da aptidão da Acacia melanoxylon R. Br. para a produção de pasta e da aplicação de espectroscopia de infravermelho próximo." Doctoral thesis, ISA/UTL, 2012. http://hdl.handle.net/10400.5/5213.

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O presente trabalho foi realizado no âmbito do projecto nacional – Valorização do lenho de acácia produzido em Portugal. Potenciais utilizações (POCTI/42594/AGR/2001), e do projecto GEMINI - Genetic determination of maritime pine pulp and paper properties. Comissão das Comunidades Europeias, Projecto GEMINI – QLK5-CT-1999-00942. Bolsa de doutoramento (SFRH/BD/42073/2007) atribuída pela Fundação para a Ciência e Tecnologia (FCT) co-financiada pelo programa POCI 2010 – Formação Avançada para a Ciência – Medida IV.3 e pelo FSE.

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Books on the topic "Papermaking potential"

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Klofta, Jacqueline Lelito. Effects of deinking on the recycle potential of papermaking fibers. 1994.

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Mabee, Stuart W. Development of a procedure for the investigation of cationic polymer diffusion into fiber pores and lumens. 1993.

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Book chapters on the topic "Papermaking potential"

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Okayama, Takayuki, Yoko Kibatani, Kohei Nakayama, Yasuo Kojima, and Toshihiro Ona. "Fiber Properties and Papermaking Potential of Recycled Acacia Pulp." In Improvement of Forest Resources for Recyclable Forest Products, 52–59. Tokyo: Springer Japan, 2004. http://dx.doi.org/10.1007/978-4-431-53963-6_9.

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Setiati, Rini, Aqlyna Fatahanissa, Shabrina Sri Riswati, Septoratno Siregar, and Deana Wahyuningrum. "Potential of Bagasse as Raw Material for Lignosulfonate Surfactant." In Sugarcane [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.96373.

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Anionic surfactants are generally used in surfactant injections because they are good, resistant in storage and stable. Furthermore, Commercially, anions are produced in the form of carboxylates, sulfates, sulfonates, phosphates, or phosphonates. The surfactants used in the process of implementing Enhanced Oil Recovery (EOR) are generally petroleum-based, such as Petroleum Sulfonate. Therefore, an increase in oil price, leads to an increase in the price of surfactant and the operational costs becomes relatively expensive. Lignosulfonate is a type of anionic surfactant which is made with lignin as raw material. This lignin is found in many plants, including wood stalks, plant leaves, peanut shells, corn cobs, bagasse, empty bunches of oil palm and wheat straw. Based on the results of previous studies, 25% of lignin component was discovered in bagasse. This may be a consideration that there is enough lignin in bagasse to be used as raw material in the production of lignosulfonate vegetable surfactants. Furthermore, lignin from bagasse is used because bagasse is easy to obtain, cheap and an environmental friendly vegetable waste. Currently, bagasse is only used as fuel in steam boilers and papermaking, cement and brick reinforcement, a source of animal feed, bioethanol, activated charcoal as adsorbent and compost fertilizer. This is a consideration to optimize the use of bagasse to become lignosulfonate as an alternative for surfactants in the petroleum sector. The purpose of this study is to show that lignin from bagasse has the potential of becoming a lignosulfonate surfactant. There are several studies that have processed bagasse into sodium lignosulfonate. The component test on the results showed that the surfactant component of sodium lignosulfonate from bagasse was almost the same as the commercial standard lignosulfonate component. Furthermore, the results of the HLB (Hydrophilic–Lipophilic Balance) value test show that the sodium lignosulfonate surfactant from bagasse can function as an emulsion form which is a required parameter for the surfactant injection mechanism. Based on the discussion of the study results, bagasse has the potential as a raw material to be processed into lignosulfonates.

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Conference papers on the topic "Papermaking potential"

1

Zhang, Yuanyuan, and Jiaoyan Ai. "Zeta Potential Modeling of Papermaking Wastewater on Neural Network." In 2012 Second International Conference on Instrumentation, Measurement, Computer, Communication and Control (IMCCC). IEEE, 2012. http://dx.doi.org/10.1109/imccc.2012.21.

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Jamal, Siti Noorashikin, Wan Aizan Wan Abdul Rahman, Noor Aishatun Majid, and Sharifah Nafisah Syed Ismail. "PALF/skin extracted pineapple juice: New potential as pulping and bleaching agent in papermaking and its effect on mechanical and physical properties." In 3RD INTERNATIONAL SCIENCES, TECHNOLOGY & ENGINEERING CONFERENCE (ISTEC) 2018 - MATERIAL CHEMISTRY. Author(s), 2018. http://dx.doi.org/10.1063/1.5066979.

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