Timber bamboo pulp

Fast-growing biomass, such as bamboo, has the potential to serve an important future role in the pulp and paper industry with potential to both lower resource costs and improve a product’s sustainability. Moso bamboo is particularly interesting due to its fast growth and size, which allows it to be handled and chipped similarly to wood resources. In this study, we will share results of the chip preparation, kraft cooking, and ECF bleaching of this bamboo species and compare its pulpability, bleachability, and physical properties to a fast growing hybrid poplar tree. Results indicate that the bamboo chips cooked and bleached similarly to the poplar hardwood, allowing for co-cooking. The resulting pulps had superior tensile properties at low refining, but did have higher fines that lowered drainability as measured by Canadian Standard Freeness. The bamboo fiber morphology was also measured, indicating the fiber to have length weighted average fiber lengths and coarseness values to be greater than the poplar wood studied, which should allow this material to be used in many paper grades.

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The Quest for Raw Materials in the British Paper Trade: The Development of the Bamboo Pulp and Paper Industry in British India up to 1939

World Forests - Technological Transformation in the Global Pulp and Paper Industry 1800–2018 ◽

10.1007/978-3-319-94962-8_11 ◽

2018 ◽

pp. 237-259

Author(s):

Timo Särkkä

Keyword(s):

Raw Materials ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Pulp And Paper ◽

British India ◽

Bamboo Pulp

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Burned wood in the pulp and paper industry: A literature review

The Forestry Chronicle ◽

10.5558/tfc80473-4 ◽

2004 ◽

Vol 80 (4) ◽

pp. 473-477 ◽

Cited By ~ 6

Author(s):

Paul Watson ◽

Simon Potter

Keyword(s):

Moisture Content ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Pulp And Paper ◽

Wood Chemistry ◽

Mechanical Pulp ◽

Kraft Cooking ◽

Pre Treatment ◽

One Year ◽

Forest Architecture

Fires play an integral part in Canadian forest architecture. Low-value wood, from burned stems, is an important source of fibre for the pulp and paper industry. Although wood chemistry changes induced by fire are substantial, burned stems exhibit a demarcation layer between the char and undamaged wood which is only a few cells thick. The loss of stem moisture content requires that burned wood is processed within one year. Aggressive debarking will minimize charcoal contamination and careful metering of chips from burned wood into any pulping process is essential. Chips with low moisture content must be pre-steamed prior to kraft cooking, and chemical pre-treatment may improve mechanical pulp quality. Key words: burn intensity, wood chemistry, charring, stem moisture content, charcoal contamination, chip metering

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Fiber Morphology of Different Bamboo Species and Age

Materials Science Forum ◽

10.4028/www.scientific.net/msf.1025.312 ◽

2021 ◽

Vol 1025 ◽

pp. 312-318

Author(s):

Nur Musfirah Suhaimi ◽

Nurul Husna Mohd Hassan ◽

Rushdan Ibrahim ◽

Latifah Jasmani

Keyword(s):

Cell Wall ◽

Fiber Length ◽

Fiber Diameter ◽

Raw Materials ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Pulp And Paper ◽

Lumen Diameter ◽

Bamboo Species ◽

Fiber Morphology

Fiber morphology of 3 species of bamboo namely Bambusa vulgaris, Gigantochloa levis, and Gigantochloa scortechinii at age of 1, 3, and 5 years, was evaluated. It shows that different species of bamboo have different properties in terms of their fiber morphology that consist of fiber length, fiber diameter, and lumen diameter. Fiber diameter, fiber length, and cell wall thickness increased with the increasing of the bamboo age but the lumen diameter decreased when the bamboo gets older. G. levis at age 1 to 3 and G. scortechinii at age 1 have high potential to be the raw materials for the pulp and paper industry.

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Identification of Extractives from Various Poplar Species

Forests ◽

10.3390/f12050647 ◽

2021 ◽

Vol 12 (5) ◽

pp. 647

Author(s):

Dominika Szadkowska ◽

Janusz Zawadzki ◽

Paweł Kozakiewicz ◽

Andrzej Radomski

Keyword(s):

Fatty Acids ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Pulp And Paper ◽

Raw Material ◽

Chemical Processing ◽

Populus Alba ◽

Poplar Wood ◽

Poplar Trees ◽

Detailed Chemical

Fast-growing poplar trees from plantations are the source of inexpensive wood that is intended mainly for chemical processing in the pulp and paper industry. Their potential as raw material for biofuel manufacturing is widely discussed as well. The detailed chemical composition of this raw material is therefore an important question. Five species of poplars were investigated: Populus alba, P. maximowiczii, P. trichocarpa, P. nigra, andP. tremula. Wood is a material consisting mainly of lignocellulose, but there are also many extractives. In temperate zone climate they typically represent up to 5% of wood mass. Their identification is difficult, due to various classes of compounds and great number of individual ones. These compounds can affect the properties of wood—its resistance to biotic agents and suitability to enzymatic treatment towards biofuels. Gas chromatography coupled with mass spectrometer (GC-MS) was used to analysis of extractives in various species of poplar wood. Compounds from several classes were identified like phenols, fatty acids, and their derivatives, sterols. Their identification was discussed along with estimation of their content in wood of investigated species.

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Co-cooking nonwoods with hardwoods

TAPPI Journal ◽

10.32964/tj13.6.19 ◽

2014 ◽

Vol 13 (6) ◽

pp. 19-24

Author(s):

TROY RUNGE ◽

CHUNHUI ZHANG

Keyword(s):

High Performance Liquid Chromatography ◽

High Performance ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Strength Properties ◽

Agricultural Residues ◽

Kraft Pulping ◽

Pulp And Paper ◽

Strength Increase ◽

Xylan Content

Agricultural residues and energy crops are promising resources that can be utilized in the pulp and paper industry. This study examines the potential of co-cooking nonwood materials with hardwoods as means to incorporate nonwood material into a paper furnish. Specifically, miscanthus, switchgrass, and corn stover were substituted for poplar hardwood chips in the amounts of 10 wt %, 20 wt %, and 30 wt %, and the blends were subjected to kraft pulping experiments. The pulps were then bleached with an OD(EP)D sequence and then refined and formed into handsheets to characterize their physical properties. Surprisingly, all three co-cooked pulps showed improved strength properties (up to 35%). Sugar measurement of the pulps by high-performance liquid chromatography suggested that the strength increase correlated with enriched xylan content.

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Does the kappa number method accurately reflect lignin content in nonwood pulps?

TAPPI Journal ◽

10.32964/tj17.11.611 ◽

2018 ◽

Vol 17 (11) ◽

pp. 611-617

Author(s):

Sabrina Burkhardt

Keyword(s):

Lignin Content ◽

Paper Industry ◽

Pulp And Paper Industry ◽

Original Data ◽

Kappa Number ◽

Klason Lignin ◽

Organic Functional Groups ◽

Pulp Properties ◽

Wood Pulps ◽

Hexenuronic Acid

The traditional kappa number method was developed in 1960 as a way to more quickly determine the level of lignin remaining in a completed or in-progress pulp. A significantly faster approach than the Klason lignin procedure, the kappa number method is based on the reaction of a strong oxidizing agent (KMnO4) with lignin and small amounts of other organic functional groups present in the pulp, such as hexenuronic acid. While the usefulness of the kappa number for providing information about bleaching requirements and pulp properties has arguably transformed the pulp and paper industry, it has been mostly developed for kraft, sulfite, and soda wood pulps. Nonwood species have a different chemical makeup than hardwood or softwood sources. These chemical differ-ences can influence kappa and Klason measurements on the pulp and lead to wide ranges of error. Both original data from Sustainable Fiber Technologies’ sulfur and chlorine-free pulping process and kappa and Klason data from various nonwood pulp literature sources will be presented to challenge the assumption that the kappa number accurately represents lignin content in nonwood pulps.

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