chapter 10 material properties of plant - ga.a.u-tokyo.ac.jp . general difference of herbal plants...
TRANSCRIPT
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Yukie Saito
微視的に見た植物体のマテリアル利用
Chapter 10 Material Properties of Plant
From Microscopic Views
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1 Classification of plants Wood , Herb 木本と草本
2 Assembly of Microscopic and macroscopic structure of wood formation of wood
3 Components of plant cell wall as chemical resources
3.1 Cellulose
3.2 Hemicellulose
3.3 Lignin
4 Plants as a carbon resource
4.1 Peat
4.2 Natural modification of biomass into energy
4.3 Artificial modification of biomass into energy and materials
biodegradation生物分解・coal
Thickning growth肥大生長・annual ring年輪・heart wood 心材化・lignification木化
糖鎖Sugar chain ・水素結合hydrogen bondings
Paper 紙・nano fiber ナノファイバー・saccharification糖化・bioethanolバイオエタノール
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1 Classification of Plants
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「木材の構造」文永堂出版より
Wood
Vascular
Hard wood
Soft wood
Hard woods and soft woods are from very different origin.
Dimensional change
Herb
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General difference of herbal plants and woody plants
Thickening growth
Lignin contents
Durability Dimension Mechanical strength
Woody plants
Yes More ≒25%
High Large High
Herbal plants
No Less ≒14 %
Low Small Low
Bamboo, Palm
Higher importance as resource
Biological definition
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2. Microscopic and macroscopic features of woody plants
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What differs from artificial materials?
Degradability, Reproducibility, High diversity, Heterogeneity, Complexity of structure…
Points to remember:
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データ出所:日本住宅・木材技術センター「木と日本の住まい」
0
500
1000
1500
2000
2500 Tensile stress (kg/cm2)
0 100 200 300 400 500 600 700 800 900
1000 Compression stress (kg/cm2)
0
500
1000
1500
2000
2500
3000 Bending stress (kg/cm2)
1/ 4.4 1/225
1/ 2.1 1/9.5
1/ 15.4 1/400
compression force is applied to column
Column Beam
Bending force is applied to beam
Wood construction
Specific strength (standardized by weight)
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Cross section of Cryptomeria japonica (高部木材保存」
outer bark Inner bark phloem cambium xylem
0.1-0.2 μm thick
phloem
xylem
Cambium
Thickening growth
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Dead cells after lignification
Cambium
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木部 Xylem
(1)「Timber」木材
Green wood 生材
(2)「NonWood Forest Product」非木材林産物
樹皮 Bark
Heart wood 心材
Sap wood 辺材
alive 100%Dead
形成層 Cambium
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Conical storage of xylem
Mature
Cambium cell
Year 1st 2nd 3rd 4th …..
Straight growth伸長成長: @apical meristem頂端分裂組織
Thickening growth肥大成長: @eustele and collateral vascular cambium
真正中心柱・並立維管束形成層
Immature
(15-20years old)
Imm
atu
re w
oo
d
未成
熟材
Mature wood 成熟材
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Earl
y w
oo
d
Late
wo
od
Heterogeneity Anisotropy
Larix sp.
Apr May Jun Jul Aug Sep Oct
Accumulation of number of cells Frequency of tangential division
Indoleacidic acid etc.
Activity of photonic synthesis →hormonal-induced
One year
Earl
y w
oo
d
Late
wo
od
Less
de
nse
Annual rings
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木部 Xylem
(1)「Timber」木材
Green wood 生材
(2)「NonWood Forest Product」非木材林産物
樹皮 Bark
Heart wood 心材
Sap wood 辺材
alive 100%Dead
形成層 Cambium
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Sap wood 辺材 (whitish)
Some cells (as Parenchyma cells) alive.
Heart wood Sap wood
移行材
Heart wood 心材 (darkly colored:characteristic to the species)
All cells dead. High durability due to the characteristic components.
physiological、water conduction lost
Intermediate wood (移行材「白線帯」) :Generating polyphenol and flavonoid
High enzyme activity
☆ decay durability
☆ difficulty of chemical impregnation
Heart wood and sap wood
Heterogeneity
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Do trees in tropical forests have annual rings ?
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Do herbs, bamboos and palms have annual rings ?
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タケ類:単子葉植物イネ目イネ科
不斉中心柱(atacrostele) :並立維管束が不規則に散在する. 蛇腹状の節間生長
生長期間 2か月
伸長速度 37-120cm・日
寿命 ~20年
ヤシ類:単子葉植物ヤシ目ヤシ科
☆サトウキビ類:イネ目イネ科サトウキビ属
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What is the difference between hard wood and soft wood in point of view to use as materials ?
広葉樹 針葉樹
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Find what is apparent difference between hard wood and soft wood ?
Soft wood針葉樹 Hard wood広葉樹 クリ chestnut
Castanea crenata ヒノキ japanese cypress
Chamecyparis obtusa
スギ japanese cedar Cryptomeria japonica
カヤ japanese nutmeg Torrea Nucifera
ベイスギ Western red cedar Thuja plicata
ベイマツ Douglas fir Pseudetsuga menziesii
Special: イチョウ Ginkgo Gingko biloba
チーク teak Tectoba spp.
サクラ cherry Prunus spp.
カシ oak Quercuss spp.
ケヤキ japanese zelkova Zelkova serrata
キリ empress tree Paulownia tomentosa
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Opitical micrograms of separated cells
Soft wood針葉樹 Hard wood広葉樹
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Soft wood針葉樹 Hard wood広葉樹
森林総研木材データベース
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Hagen-Poiseuille law
Q=(πa4)/8 ・(p1-p2)ηl ↑ Diameter
↑ Flow rate ↑
Pressure gradiant of the both side of the tube
↑ Length of the tube
Viscosity coefficient ↓
If the diameter becomes twice, the flow rate will be…
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Let’s take a look at tree microscopically
×500 ×500,000
10 μm 10 nm
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20 μm
S3
S2
S1
P
Cell wall structure and cellulose microfibrils
A fracture section under SEM. Layers are peeled and micrrofibril texture clearly observed.
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「植物細胞壁に学ぶ材料の設計」30May2010五月祭
Basic structure of multilayer composite
Multilayer composite of cell wall
Cf. Fiber-Reinforced Plastic (FRP) :tolerable for various force direction :light but strong
Space ship・air plane・automotive body ski・fishing rod etc.
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リグニン
セルロース
ヘミセルロース
Cell wall as “reinforced concrete structure” schematical drawing on the molecular level
Hard wood: glucomannnann Soft wood: 4-o-methy glucuronoxylan
Hard wood: guaiacyl lignin Soft wood; guaiacyl lingnin+syringyl lignin
Lignin
Cellulose
hemiCellulose
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「
0.1 nm
×50 , 000 , 000
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3 Components and structure of plant cell wall and application
3.1 Cellulose
3.2 Hemicellulose 3.3 Lignin
Major 3 components common for almost all of plant cell walls
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3.1 Cellulose
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Cellulose • 40~60% in dried wood cell wall
・structural biopolymer
・most abundant and reproducible
・ produced by almost of all plants and a certain animals.
Ascidian ホヤ Halocynthia sp. Acetic bacteriums酢酸菌 Acetobacter xylinum
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D-glucose residue β-1,4-glucoside bond Linear →crystal structure no-branch Hydrophilic & Hydrophobic hydrogen bonding
cellulose
c.F amylose
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Hyd
rop
hili
c 親
水性
-OH H
ydro
ph
ob
ic 疎
水性
HC-
Cellulose chain
Hydrophilic
スライド木材の組織構造(写真杉山淳司)
Cellulose nano fibril
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Hydrogen-bonding stabilizing crystal structure of cellulose Plant material → -OH・・・O- A kind of molecular attractions.
O H
:O
H
-δ
-δ
H atom covalently bonded to electronegative atom
lone pair electrons
+δ +δ
Wikipedia
Double helical structure of DNA due largely to hydrogen bondings.
Hydrogen-bonding stabilizing crystal structure of cellulose
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Paper/Pulp
Nanofiber
Fermentative products
cello-oligo-sugers and the derivatives
Functional derivertives from cellulose
Cellulo-chemicals
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paper/pulp
Removing lignin →Beating
Raveled out and interwoven microfibrils and Hydrogen bondings between them forms a sheet of a paper.
Pulp : refined plant fiber for paper.
Before
Kraft pulp
After
1979 山内龍男
Hydrogen bondings
Mechanical pulp (MP)
Chemical pulp (CP)
Kraft Pulp Sulfide Pulp Alkaline Pulp
High strength paper ←only cellulose “black liquor”= lignin, resin+ added chemicals
Breach
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Various derivatives from cellullose ウッドケミカルス(磯貝)
Functional derivatives from cellulose
Esterification →cellulose-tri-acetate (CTA) fibres and film base Etherification →carboxyl methyl cellulose (cellulose gum, CMC) food science viscosity modifier
thikener stabilize emulsions
TCA: Tobacco filter
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charged surface was formed by sulfate ester group. This enabled the nano-dispersion.
OilPalmEmptyFruitB unch coconut husk sugar palm fibers
Cellulose single nanofiber
Fahma Farah (2011)
Elastic modulus 138GPa Tensile strength 3 Gpa →5 times of steel Linear thermal expansion coefficient 0.1 ppm/K →<1/50 of glass Transparent
Application: automobile, construction, electronics, package etc.
AFM image of OPEFB
Nanofiber
How to nano-disperse
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3.2 Hemicellulose
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Hemicellulose • Collective term for polysaccharides included
in wood except for cellulose
• Soft wood 20~30%、hard wood 15~25%
• Intermediary between cellulose and lignin
O
OH
OH
CH2OH
OH
OH,H
O
OH
OH
CH2OHOH
OH,H
O
OH
OH
OH
OH,H
O
OH
CH2OH
OH
OH OH,H
O
OH
OH
CH2OH
OH,H
O
OH
OH
COOH
OCH3
OH,H
D-グルコース D-キシロース D-ガラクトース L-アラビノース D-マンノース 4-O-メチル-
D-グルクロン酸
Main constituent monomers
D-glucose D- mannose D-xylose D-galactose L-arabinose, 4-o-methyl-D-
glucuronic acid 図出典「木質の形成」(海青社)
Cellulose↑
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arabinoglucurono-xylan
4-O- methylglucurono xylan
feruloylated arabinoxylan
glucomannan
Examples of hemicellulose
xyloglucan
☆Hetero polysaccharide ☆branching
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Chemical structure of typical hemicelluloses
(A)
広葉樹
キシラン
(B)
針葉樹
グルコマンナン O
O
OH O
O
OH O
O
OH
OH O
O
OAc O
O
OH O
O
OH
OH
CH2OH CH2CH2OH CH2OH CH2OH CH2OH
OH OH OH OH
O
OH
OH
CH2OHOH
O
O
O
OAc
OH O
O
OH
OH O
O
O
OH O
O
OH
OH O
O
OAc
OH O
O
OH
OH
O
OH
OH
COOH
OCH3
→
Xylan Hard wood
Gluco-mannnan Soft wood
xylose residue is bonded as β1,4-bonding.
←Branch: approximately every 10 residues
↑ acetylated
Difference of hemicellulose
D-mannose: D-glucose 3~4:1
↑ Partially acetylated
Branch D-galactose
History of evolving Affects on properties (biological durability)
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• Hetero polysaccharide
• Branching / acetylation
↓
• Amorphous
• Hydrophilic
• Degradable chemically and billogically
Structural properties of hemicellulose
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Application • Hardwood xylan
→furfural
---usable as raw material for 6,6 nylon and fran-resin
→xylose
--- sweetener, artificial color by Maillard reaction
• Biological active agents (antitumor、dietaly fiber)
Reproductive, abundant next to cellulose, but scarcely extracted nor used.
Exceptional case: Xylitol is produced by sulfuric acid-hydlysis of white birch .
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3.3 Lignin
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lignin
• Structural unit: phenylpropane (C6-C3)
• Hard wood: guaiacyl lignin
• Soft wood; guaiacyl lingnin+syringyl lignin
• 25~35% in soft wood 、20~25% in hard wood
p-ヒドロキシフェニル
C
C
C
OH
OCH3
C
C
C
OH
OCH3H3CO
グアイアシル構造 シリンギル構造 guaiacyl syringyl P-hydroxyphenyl
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CH
HC
CH2OH
O
CHOH
CH
CH2OH
O
HC
CH
CH2OH
O
OCH3
HC
HC
CH2OH
O
H3CO
H3CO
CHOH
CH
CH2OH
O
HC
HC
H2C
O
OCH3
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
O
CHOH
CH
CH2OH
O
H3CO
H3CO
C
HC
CH2OH
O
OCH3
O
HO
H3CO
H3CO
O
CH
CH
CH2
O
OH
OCH3
O
H3CO
CH
HOH2C CHO
O
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
OCH3
OH
H3CO
CH
HC
CH2OH
O
H3CO O
A schematical drawing of soft
wood lignin
C-C or ether (C-O-C)bondings
3D-net work structure
Chemical structure has not been elucidated
biosynthesis: Polymerization of random radical coupling of various resonant-structures of radicalized phenyl propane residues
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Properties • hydrophobic ・ various type of bondings
Industrial Application • monomerization alkilphenol derivatives etc.
• Functionalization Water reducing admixture (for concrete
construction)
~lignin sulphonic acid ///despersion、air-entrainment
Used with lead battery electrode
・ Resin miscible in phenol → addhesives
• Carbon fiber (1960-)
Practical utilization is difficult so far: Lignin sulfonic acid is from Sulfate Pulp production←SP is not produced so much due to its cost. Kraft lignin ←Black liquor is mainly used for fuel.
High bio-resistance
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Refining technology of biomass
1 chemical pulp 2 Biomass saccharification (chemically) 3 Biomass saccharification (enzymatically) 4 High pressure high temperature treatment 5 low-boiling solvent 6 high-boiling solvent
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• Constituent element C:H:O
weight ratio 50:6:44 (N0.05~0.4)
mol ratio 32:46:22
・ major component
cellulose:hemicellulose:lignin
weight ratio 50:25:25
Wood cell wall
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4. Plants as a carbon resource
Organism as a carbon concentrating system on the planet
4.1 Peat 4.2 Natural modification of biomass into energy (Peat → Fossile fule?) 4.3 Artificial modification of biomass into energy and materials (Biomass → Artificial fossile fule & Carbon materials)
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Biodegradation/Pyrolisis C
O
H
Material & Energy
Plants
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樹木1本が固定する炭素の量
林業白書H21
Amount of Carbon stocked by a tree
Total carbon amount stocked by the tree
Tree in japanese cedar forest (diameter 20cm, tree hight 18 m, timber volume 0.28m3 averagely)
An typical japanese ceder tree stocks 68 kg of carbon.
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Biomass conversion in nature (wood degradation)
white rot白色腐朽菌 brown rot 褐色腐朽菌
soft rot軟腐腐朽菌 white rot
brown rot
lignin
cellulose
hemicellulose
Mass loss (%) degradation: mainly by basidiomycete(⊂fungi)
Mass loss (%)
Co
nte
nt
loss
(%
) C
on
ten
t lo
ss (
%)
Degradability largely depends on species. Generally hard woods is more easily degraded than hard woods. Because of 1 less amount of heart wood extracts 2 syringyl-rich lignin 3 hemicellulose including more pentosan 4 Easier moisture penetration
lignin cellulose
hemicellulose
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Degradation of cellulose (Biomass saccharification)
Yeast 酵母 Saccharomyces spp.
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Cellulose decomposer organism Mainly by yeasts, but other efficient species are being explored
among ascomycetes子嚢菌 or digestive tracts消化管 of animals and insects・・・
・Biodegradation by cellulase (enzyme)
・Around room temperature
・Previous treatment for removal of lignin is indispensable.
Inorganic acid
・Acid hydrolysis and cleavage of glycosidic bond
・Susceptibility depends on kinds of polysaccharide.
・Coexistent lignin does not matter for the reaction.
(1) Chemical saccharification
(2) Biological saccharification
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Cellobiohydrolase Cel7A (CBH I) Improving High-Performance Molecular Dynamics Codes For Biology, Renewable Energy: Bioethanol, Michael Crowley et. al.
Core domain Active center
Linker
Cellulose binding domain
Tyrosine (Y)
Cellulose microfibril
microfibril surface
Previous removal of lignin is indispensable. Adsorption of enzyme to cellulose surface is rate-controlling.
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Hyd
rop
hili
c 親
水性
-OH H
ydro
ph
ob
ic 疎
水性
HC-
Cellulose chain
Hydrophilic
スライド木材の組織構造(写真杉山淳司)
Cellulose nano fibril
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4.1 Peat 泥炭
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Peat ―an accumulation of partially decayed vegetation. commonly moss or plants contributes. Variety of peats – species, carbonization… Provides records of past vegetation and climates of thousands of years, sometimes.
Cultivation soil for orchids蘭、peat-smell of scotch whisky, “peat-layer” in construction field
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Necessary condition: Favorable geography for accumulation of water and plant
residue Proper decomposition rate by microbes ・peat generated cool/temperature zone ・tropical peat
Peat soil formation and the distribution
図 大崎満・岩熊敏夫編著「ボルネオ―燃える大地から水の森へ」
Distribution of peat in southeastern asia
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Formation of coal 400 million years ago, Paleozoic era, Carboniferous 古生代「石炭紀」 exuberant forests accumulated C from primitive atmosphere →converted to peat by anaerobic bacteria →converted to coal by heat and pressur
Petrol and natural gas ?00 million years ago, at ancient ocean accumulated organic remains → degraded by bacteria →liquid/gaseous hydrocarbons by heat and pressure →long-range migration via spongy layers
Peat …→ coal, petrol and natural gas ?
Both of them are from Biomass, originated from solar energy.
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Lignin, coal, graphitic carbon リグニン、石炭、黒鉛質炭素
CH
HC
CH2OH
O
CHOH
CH
CH2OH
O
HC
CH
CH2OH
O
OCH3
HC
HC
CH2OH
O
H3CO
H3CO
CHOH
CH
CH2OH
O
HC
HC
H2C
O
OCH3
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
O
CHOH
CH
CH2OH
O
H3CO
H3CO
C
HC
CH2OH
O
OCH3
O
HO
H3CO
H3CO
O
CH
CH
CH2
O
OH
OCH3
O
H3CO
CH
HOH2C CHO
O
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
OCH3
OH
H3CO
CH
HC
CH2OH
O
H3CO O
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4.2 Natural modification of biomass into energy
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Coal Petrol Methane Wood
fuel
Atomic ratio Weight CO2 generation
Amount of heat
Characteristic of fuels
Schematic drawing of black pitch Wikipedia
Ramage and Scurlock, 1996
CH
HC
CH2OH
O
CHOH
CH
CH2OH
O
HC
CH
CH2OH
O
OCH3
HC
HC
CH2OH
O
H3CO
H3CO
CHOH
CH
CH2OH
O
HC
HC
H2C
O
OCH3
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
O
CHOH
CH
CH2OH
O
H3CO
H3CO
C
HC
CH2OH
O
OCH3
O
HO
H3CO
H3CO
O
CH
CH
CH2
O
OH
OCH3
O
H3CO
CH
HOH2C CHO
O
CHOH
HC
CH2OH
O
OCH3
CHOH
CH
CH2OH
OCH3
OH
H3CO
CH
HC
CH2OH
O
H3CO O
Lignin
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(熊崎実、2000)
Requisite for energy High energy efficiency Homogeneous Long storage Long distance transportable Accumulable
Wood is difficult energy for handling:
Fossil fuels
Trials of mankind for conversing biomass into energy corresponds to be
“artificial fossilization” .
Practically, open fire needs the 50 times
of fulewood at least.
To boil 1ℓ of water, 0.4GJ is needed =40cm3of wood enough?
1m3 of air-dried wood (m.c. 20%) has 10 GJ.
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4.3 Artificial modification of biomass into energy and materials
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Biomass conversion technology (「バイオエネルギーの技術と応用」(柳下)改)
Biomass Thermo-chemical conversion
Direct combustion
Bio-chemical conversion
heat/ electlicity
Gasification at high temperature >800℃、0.1-0.5MPa
Synthetic gas
Gasification at low temperature 350-450℃、10 -20MPa
Hydro carbon /H2
Cabonization >400℃、10 -0.1MPa
Solid fuel
Liquid fuel /chemical resource
Transportation fuel
pyrolysis 300-600℃、 0.1-0.5MPa
Liquefaction directly 250-350℃、 6-18MPa
fluidization 100-200℃、 3-5MPa
Anaerobic digestion
Aerobic digestion
Hydrolysis/ethanol fermentation
Methane
Fertilizer
Liquid fuel
+methanol+catalyst → fatty acid methyl ester Diesel oil
Chemical conversion