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Basic procedures for sampling and analyzing woody biomass

https://library.fpinnovations.ca/en/permalink/fpipub3318
Author
Marinescu, Marian
Volpé, Sylvain
Desrochers, Luc
Roser, Dominik
Date
January 2015
Edition
39982
Material Type
Research report
Field
Bioproducts
PDF
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and Analysis of Biomass Samples Separating Biomass Samples: Coning and Quartering Analyzing the Moisture
Author
Marinescu, Marian
Volpé, Sylvain
Desrochers, Luc
Roser, Dominik
Date
January 2015
Edition
39982
Material Type
Research report
Physical Description
15 p.
Sector
Forest Operations
Field
Bioproducts
Research Area
Building Systems
Subject
Biomass
Bioenergy
Sampling
Physical properties
Moisture content
Particle size
Bulk density
Standards
Advantage
Series Number
Advantage ; Vol. 15, No. 5
Language
English
Abstract
Biomass sampling and analysis play decisive roles in determining the characteristics and value of the woody biomass fuel used in bioenergy systems in Canada. Sampling and analysis standards help harmonize the procedures that are used to monitor biomass quality. Because there are no Canada- wide biomass sampling standards, facilities that produce and use woody biomass have developed and implemented in-house sampling procedures of varying degrees of complexity. Given that the use of woody biomass in Canada is predicted to increase, the ability to ensure the quality of biomass will become increasingly important in order to control costs and maximize system efficiency.
BIOMASS
Biofuels
Bioenergy
MOISTURE CONTENT
BULK DENSITY
Bark content
Contamination
ASH
Lignin
CARBOHYDRATES
EXTRACTIVES
Abstract
L’échantillonnage et l’analyse de la biomasse jouent un rôle décisif dans la détermination des caractéristiques et de la valeur des combustibles de biomasse ligneuse utilisés dans les systèmes de bioénergie au Canada. Les normes d’échantillonnage et d’analyse contribuent à harmoniser les méthodes utilisées pour évaluer la qualité de la biomasse. Il n’existe pas de normes d’échantillonnage pancanadiennes; les usines qui produisent ou utilisent la biomasse ligneuse ont donc élaboré et appliqué des méthodes d’échantillonnage maison de niveau de complexité variable. Comme on prévoit une augmentation de l’utilisation de la biomasse ligneuse au Canada, les compétences permettant de garantir sa qualité deviendront de plus en plus importantes pour limiter les coûts et maximiser l’efficacité des systèmes.
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Caractéristiques cruciales de la biomasse pour les applications les plus courantes en bioénergie et biocarburants

https://library.fpinnovations.ca/en/permalink/fpipub3102
Author
Marinescu, Marian
Date
September 2013
Edition
39759
Material Type
Research report
Field
Bioproducts
PDF
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Author
Marinescu, Marian
Date
September 2013
Edition
39759
Material Type
Research report
Physical Description
12 p.
Sector
Forest Operations
Field
Bioproducts
Research Area
Building Systems
Subject
Biomass
Bioenergy
Moisture content
Physical properties
Advantage
Series Number
Avantage ; Vol. 14, No. 3
Language
French
ISSN
14933381
Abstract
Le présent document décrit les caractéristiques cruciales de la biomasse comme le format et la taille, la teneur en dumidité, la densité apparente, la teneur en feuillage/écorce, la contamination, la teneur en cendres, en lignine, en dydratesde carbone et en produitsd'extraction ainsi que la valeur calorifique pour les applications les plus courantes de production de bioénergie et de biocarburants : combustions directe, gazéification, pyrolyse, torréfacgtion, fermentation et densification. Le document est distiné aux professionnels de la foresterie, de la transformation du bois, des pâtes et papiers et de la biomasse qui cherchent de l'information de base sur ces caractéristiques essentielles.
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Critical biomass attributes of the most common bioenergy and biofuel applications

https://library.fpinnovations.ca/en/permalink/fpipub39735
Author
Marinescu, Marian
Date
September 2013
Material Type
Research report
Field
Bioproducts
PDF
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common bioenergy and biofuel applications Keywords Biomass, Biofuel, Bioenergy, Moisture content
Author
Marinescu, Marian
Date
September 2013
Material Type
Research report
Physical Description
12 p.
Sector
Forest Operations
Field
Bioproducts
Research Area
Building Systems
Subject
Biomass
Bioenergy
Moisture content
Physical properties
Advantage
Series Number
Advantage ; Vol. 14, No. 3
Language
English
ISSN
14933381
Abstract
This primer presents critical attributes such as format and size; moisture content; bulk density; foliage/bark content; contamination; ash, lignin, carbohydrate, and extractive contents; and calorific value of the most common bioenergy and biofuel applications; direct combustion, gasification, pyrolysis, torrefaction, fermentation, and densification. The primer is aimed at forestry, wood processing, pulp and paper, and biomass professionals who are interested in basic information about these critical attributes.
PDF
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Méthodes de base pour l’échantillonnage et l’analyse de la biomasse ligneuse

https://library.fpinnovations.ca/en/permalink/fpipub39994
Author
Marinescu, Marian
Volpé, Sylvain
Desrochers, Luc
Roser, Dominik
Date
January 2015
Material Type
Research report
Field
Bioproducts
PDF
Ajoutez cet article à votre liste de sélections pour demander le PDF - Add this item to your selection list to request the PDF
Author
Marinescu, Marian
Volpé, Sylvain
Desrochers, Luc
Roser, Dominik
Date
January 2015
Material Type
Research report
Physical Description
15 p.
Sector
Forest Operations
Field
Bioproducts
Research Area
Building Systems
Subject
Biomass
Bioenergy
Sampling
Physical properties
Moisture content
Particle size
Bulk density
Standards
Advantage
Series Number
Avantage ; Vol. 15, No. 5
Language
English
Abstract
Biomass sampling and analysis play decisive roles in determining the characteristics and value of the woody biomass fuel used in bioenergy systems in Canada. Sampling and analysis standards help harmonize the procedures that are used to monitor biomass quality. Because there are no Canada- wide biomass sampling standards, facilities that produce and use woody biomass have developed and implemented in-house sampling procedures of varying degrees of complexity. Given that the use of woody biomass in Canada is predicted to increase, the ability to ensure the quality of biomass will become increasingly important in order to control costs and maximize system efficiency.
BIOMASS
Biofuels
Bioenergy
MOISTURE CONTENT
BULK DENSITY
Bark content
Contamination
ASH
Lignin
CARBOHYDRATES
EXTRACTIVES
Abstract
L’échantillonnage et l’analyse de la biomasse jouent un rôle décisif dans la détermination des caractéristiques et de la valeur des combustibles de biomasse ligneuse utilisés dans les systèmes de bioénergie au Canada. Les normes d’échantillonnage et d’analyse contribuent à harmoniser les méthodes utilisées pour évaluer la qualité de la biomasse. Il n’existe pas de normes d’échantillonnage pancanadiennes; les usines qui produisent ou utilisent la biomasse ligneuse ont donc élaboré et appliqué des méthodes d’échantillonnage maison de niveau de complexité variable. Comme on prévoit une augmentation de l’utilisation de la biomasse ligneuse au Canada, les compétences permettant de garantir sa qualité deviendront de plus en plus importantes pour limiter les coûts et maximiser l’efficacité des systèmes.
PDF
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Vertical movement in wood platform frame structures : basics

https://library.fpinnovations.ca/en/permalink/fpipub6026
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Date
October 2013
Edition
42995
Material Type
Research report
Field
Sustainable Construction
D P L A T F O R M F R A M E S T R U C T U R E S: B a si c s Wood moisture content
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Contributor
Canadian Wood Council
Date
October 2013
Edition
42995
Material Type
Research report
Physical Description
10 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Building construction
Residential construction
Design
Moisture content
Series Number
W-3076
Language
English
Abstract
Movement in structures due to environmental condition changes and loads must be considered in design. Temperature changes will cause movement in concrete, steel and masonry structures. For wood materials, movement is primarily related to shrinkage or swelling caused by moisture loss or gain when the moisture content is below 28% (wood fiber saturation point). Other movement in wood structures may also include: settlement (bedding-in movement) due to closing of gaps between members and deformation due to compression loads, including instantaneous elastic deformation and creep. Differential movement can occur where wood frame is connected to rigid components such as masonry cladding, concrete elevator shafts, mechanical services and plumbing, and where mixed wood products such as lumber, timbers, and engineered wood products are used. Evidence from long-term wood frame construction practices shows that for typical light frame construction up to three storeys high, differential movement can be relatively easily accommodated such as through specifying “S-Dry” lumber. However, differential movement over the height of wood-frame buildings becomes a very important consideration for taller buildings due to its cumulative effect. The APEGBC Technical and Practice Bulletin provides general design guidance and recommends the use of engineered wood products and dimension lumber with 12% moisture content for floor joists to reduce and accommodate differential movement in 5 and 6-storey wood frame buildings. Examples of differential movement concerns and solutions in wood-frame buildings can also be found in the Best Practice Guide published by the Canadian Mortgage and Housing Corporation and the Building Enclosure Design Guide –Wood Frame Multi-Unit Residential Buildings published by the Homeowner Protection Office of BC Housing. This document illustrates the causes and other basic information related to vertical movement in wood platform frame buildings and recommendations on material handling and construction sequencing to protect wood from rain and reduce the vertical movement.
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Vertical movement in wood platform frame structures : design and detailing solutions

https://library.fpinnovations.ca/en/permalink/fpipub6025
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Date
October 2013
Edition
42994
Material Type
Research report
Field
Sustainable Construction
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Contributor
Canadian Wood Council
Date
October 2013
Edition
42994
Material Type
Research report
Physical Description
13 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Building construction
Residential construction
Design
Moisture content
Series Number
W-3075
Language
English
Abstract
Most buildings are designed to accommodate a certain range of movement. In design, it is important for designers to identify locations where potential differential movement could affect structural integrity and serviceability, predict the amount of differential movement and develop proper detailing to accommodate it. To allow non-structural materials to be appropriately constructed, an estimate of anticipated differential movement should be provided in the design drawings. Simply specifying wood materials with lower MC at time of delivery does not guarantee that the wood will not get wet on construction sites and will deliver lower shrinkage amounts as anticipated. It is therefore important to ensure that wood does not experience unexpected wetting during storage, transportation and construction. Good construction sequencing also plays an important role in reducing wetting, the consequent wood shrinkage and other moisture-related issues. Existing documents such as the APEGBC Technical and Practice Bulletin on 5- and 6-Storey Wood Frame Residential Building Projects, the Best Practice Guide published by the Canadian Mortgage and Housing Corporation (CMHC), the Building Enclosure Design Guide –Wood Frame Multi-Unit Residential Buildings published by the BC Housing- Homeowner Protection Office (HPO) provide general design guidance on how to reduce and accommodate differential movement in platform frame construction.
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Vertical movement in wood platform frame structures : movement prediction

https://library.fpinnovations.ca/en/permalink/fpipub6027
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Date
October 2013
Edition
42996
Material Type
Research report
Field
Sustainable Construction
Author
Doudak, Ghasan
Lepper, P.
Ni, Chun
Wang, Jasmine
Contributor
Canadian Wood Council
Date
October 2013
Edition
42996
Material Type
Research report
Physical Description
9 p.
Sector
Wood Products
Field
Sustainable Construction
Research Area
Building Systems
Subject
Building construction
Residential construction
Design
Moisture content
Series Number
W-3077
Language
English
Abstract
It is not possible or practical to precisely predict the vertical movement of wood structures due to the many factors involved in construction. It is, however, possible to obtain a good estimate of the vertical movement to avoid structural, serviceability, and building envelope problems over the life of the structure. Typically “S-Dry” and “S-Grn” lumber will continue to lose moisture during storage, transportation and construction as the wood is kept away from liquid water sources and adapts to different atmospheric conditions. For the purpose of shrinkage prediction, it is usually customary to assume an initial moisture content (MC) of 28% for “S-Green” lumber and 19% for “S-Dry” lumber. “KD” lumber is assumed to have an initial MC of 15% in this series of fact sheets. Different from solid sawn wood products, Engineered Wood Products (EWP) are usually manufactured with MC levels close to or even lower than the equilibrium moisture content (EMC) in service. Plywood, Oriented Strand Board (OSB), Laminated Veneer Lumber (LVL), Laminated Strand Lumber (LSL), and Parallel Strand Lumber (PSL) are usually manufactured at MC levels ranging from 6% to 12%. Engineered wood I-joists are made using kiln dried lumber (usually with moisture content below 15%) or structural composite lumber (such as LVL) flanges and plywood or OSB webs, therefore they are usually drier and have lower shrinkage than typical “S-Dry” lumber floor joists. Glued-laminated timbers (Glulam) are manufactured at MC levels from 11% to 15%, so are the recently-developed Cross-laminated Timbers (CLT). For all these products, low shrinkage can be achieved and sometimes small amounts of swelling can be expected in service if their MC at manufacturing is lower than the service EMC. In order to fully benefit from using these dried products including “S-Dry” lumber and EWP products, care must be taken to prevent them from wetting such as by rain during shipment, storage and construction. EWPs may also have lower shrinkage coefficients than solid wood due to the adhesives used during manufacturing and the more mixed grain orientations in the products, including the use of cross-lamination of veneers (plywood) or lumber (CLT). The APEGBC Technical and Practice Bulletin emphasizes the use of EWP and dimension lumber with 12% moisture content for the critical horizontal members to reduce differential movement in 5 and 6-storey wood frame buildings.
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7 records – page 1 of 1.