Transcript Slide 1

PyNe -- Glasgow
WP 2H Biorefinery
Tony Bridgwater and Doug Elliott
September 20, 2006
Presentation Organization
Biorefinery basics
Biorefinery concepts
TEA for Biorefineries
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An Example of a Current Biorefinery
Corn Wet Mill
corn gluten
feed
corn gluten
meal
starch
corn oil
hydrolysis
food oils
feed oils
food & industrial
starches
glucose
industrial oils
glycerol
hydrogenation
fermentation
sorbitol
• foodstuffs
• pharma.
polyols
deicers
solvents
coatings
isosorbide
citric acid
lysine
xanthan gums
itaconic acid
& other
fermentation
products
lactic acid
fuel
ethanol
High fructose
corn syrup
Other
sweeteners
PLA
polymers
•resins & plastics
applications
•polyesters
•surfactants
•pharmaceuticals
T.A. Werpy, Biorefineries, ACS Mtg, Washington, DC August 31, 2005
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Current Ethanol Process
Corn
Dry Grind
Fermentation
Primary
Distillation
Liquefaction
50%
EtOH
Distillation
Rectifier
Scarification
95%
EtOH
Molecular
Sieves
Solids
100%
EtOH
Centrifuge
DDG
Dryer
Liquids
Triple Effect
Evaporator
DDG
Animal Feed
Ethanol
Solids
Water Recycle
T.A. Werpy, Biorefineries, ACS Mtg, Washington, DC August 31, 2005
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Strategies for Creating Additional Value
Modify dry mills to include a quick steeping
process that allows germ recovery
Add an intermediate filtration process to recovery
non-starch derived sugars (hemicellulose)
Develop new fermentations for utilization of five
carbon sugars (itaconic acid, succinic acid, etc)
Develop new chemistry to produce value added
products from hemi-cellulose (sugar alcohols,
polyols)
Include an energy component-pyrolyze “DDG
or modified DDG” to produce bio-oil
T.A. Werpy, Biorefineries, ACS Mtg, Washington, DC August 31, 2005
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The Holistic Ethanol Facility
Oil
Corn
Filtration
“Fiber”
Quick Steep
Starch
Fermentation EtOH
Hydrolysis
Germ
Separation
Ethanol
Recovery
New DDG
Animal Feed
Pyrolysis
Fermentation
Itaconic
Succinic, Etc
Fuel/Power
Catalytic
Conversions
EG, PG
Glycerol, Etc
T.A. Werpy, Biorefineries, ACS Mtg, Washington, DC August 31, 2005
Scarification
95%
EtOH
Molecular
Sieves
100%
EtOH
Ethanol
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Possible Future Biorefinery
Lignocellulosic
Biomass
Hydrolysis
lignin
Products
sugars
Fermentation
Heat, electricity
Pyrolysis
bio-oil
Distillation
Upgrading
Ethanol
Fuel
Motor Fuel
Additional
Biomass
D.J. Stevens, PyNe, 2005
Products
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The Potential Role of Pyrolysis
Part of a Petroleum Refinery
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Biomass first would be converted to bio-oil, possibly at
distributed locations at small scale
Bio-oil can be partially upgraded by catalytic
hydrotreatment at larger scale in proximity of a
petroleum refinery
Upgraded bio-oil then would be co-fed with petroleum
feedstocks through a catalytic process to produce
conventional refinery product slate
The global petroleum industry is showing more interest
From the Department of Energy perspective, this is a
medium-term approach
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Pyrolysis/Petroleum Biorefinery
Distributed
Lignocellulosic
Biomass
Fast Pyrolysis
bio-oil transport
Products
Upgrading and Refining
with Petroleum
Motor Fuel
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Overall Biorefining Concept
Hydrocarbon-rich fraction
Biomass
residues
Primary
fractionation
and
liquefaction
Lignin-rich fraction
Co-processing in
conventional
petroleum refinery
Conventional fuels
and chemicals
De-oxygenation
(blending)
Derivatives of hemicelluloses
and celluloses
Conversion
Oxygenated products
Process
residues
Energy
production
Yrjö Solantausta, 14.3.2006, VTT
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The Potential Role of Pyrolysis
Stand-alone facilities
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Small size makes economics of fuel production difficult
May be more appropriate for heat and power
applications
High-value specialty chemicals may provide the
economic driver
Unlikely to gain strong support from Department of
Energy in the U.S. because of current focus on
petroleum displacement, but Department of Agriculture is
interested
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Concept of a Biorefinery
Biomass
Anhydrosugars
NH
3
Pyrolyzer
Hydrolysis &
Fermentation
Reaction
Slow Release
Fertilizers
(N, Ca, Zn, Fe ...)
Noxolene™
Bio-oil
(NOx reduction)
lime
Reaction
alcohol
Reaction
water
BioLime™
(NOx/SOx reduction)
Fuel Gas
Char
Converter
Ethanol
Separation
Fuel Enhancers
Flavor Chemicals
Chemicals
Flavors
Adhesives
Ash
Activated
carbon
Separation
Diesel/boiler Fuel
Specialty
Catalytic
Reforming
Synthesis Gas
Hydrogen
D. Radlein, Fast Pyrolysis Handbook, 1999
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Biomass Refinery Concept
D. Meier
Biomass
Fractionation
Fibers
Cellulose
alcohols
water (NCW, steam)
Lignin
direct use
Hemicellulose
direct use
•in situ treatment
•post treatment
PHENOLS
Biomass Refinery Concept
D. Meier
Biomass
Fractionation
Fibers
Cellulose
alcohols
water (NCW, steam)
Lignin
direct use
Hemicellulose
direct use
•in situ treatment
•post treatment
PHENOLS
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BIOREFINERY CONCEPT
Steam
activation
Char
Optional
Woody biomass
waste wood,
Acacia bark, agrobiomasses, constr.
wood
Process energy
Solvent
hydrolysis
Wet fuels
Mixed fuels
Activated carbon
Extractives
extraction
Biodiesel
Aqueous phase
Steam
reformation
H2 for fuel cells
Fast
pyrolysis
Hydrolysis,
fermentation
Lignin phase
Bio-ethanol for
fuel cells
Alcohol addition,
solids removal
Thermal cracking/
Catalytic
hydrotreatment
Anja Oasmaa, 2005, VTT
Fuel oils,
Diesel fuels
Lignans
Forschungszentrum Karlsruhe
in der Helmholtz-Gemeinschaft
Different biomass and carbon feedstocks
fossil
fuel:
other
biomass:
coal ...
lignocellulosic biomass:
wood, straw, hay ....
starch, oil ...
organic waste:
paper, plastics, dung ...
biomass preparation
fast pyrolysis
special
chemicals
bio-oil/char -slurry
rail transport from many pyrolysis plants
to large, central plant for syngas generation and use
pulverised coal
coal/water slurry
O2
entrained flow gasification
CO2
gas cleaning
liquid fuel synthesis
synthesis products:
synfuel, chemicals, H2
electricity generation
low T
heat
electricity
FW
FW
ITC-CPV HE
Summary
Numerous opportunities involving:
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incorporation into sugar biorefinery
incorporation into a petroleum refinery
stand-alone with chemical, fuel, and power production
incorporation into a gasification and synthesis plant
Pyrolysis demonstration will lead to biorefinery
Product separation and recovery is a major hurdle
Finding the right niche is key
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PyNe -- Glasgow
Progress in Biorefinery
Case studies
Max Lauer and Doug Elliott
September 20, 2006
The Potential Role of Pyrolysis
Part of a sugars-based biorefinery based on residue
pyrolysis for fuel and, perhaps, products
Part of a Petroleum Refinery with distributed production and
centralized processing
Stand-alone facilities with distributed production and
centralized processing and refining or true stand-alone with
or without fractionation and product processing
Incorporation into a gasification and chemical/fuel synthesis
plant
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TEA of Pyrolysis Biorefinery
What process concept (or concepts?)
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Single concept in depth, or
Comparison of several concepts
Technical or Technoeconomic
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Detailed mass and energy balance only, or
M&E balance to allow capital & operating cost estimate
What methods?
What level of detail?
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Biorefinery Concepts to be Evaluated
The following institutions agreed to provide the relevant information for the
concepts listed below, and these would form the basis of an evaluation
exercise.
USDA - compare pyrolysis to combustion in ethanol plants
IWC – pre-separation concept and pyrolyse products (lignin), maximise
by-products and chemicals from the process, particularly phenols
FZK – bio-slurry gasification + synthesis
PNNL - Distributed pyrolysis to central refinery for upgrading and
integration
BTG – direct gasification of bio-oil in existing gasifier + synthesis
Aston – Speciality chemicals and fuels
Rodim – Chemicals and animal pharmaceuticals and fertiliser
JR - Pyrolysis + CHP stand-alone
ECN – comparison with biomass gasification routes
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Biorefinery Concepts to be Evaluated
Chemicals as primary product
IWC – pre-separation concept and pyrolyse products (lignin), maximise
by-products and chemicals from the process, particularly phenols
Aston – Speciality chemicals and fuels
Rodim – Chemicals and animal pharmaceuticals and fertiliser
Fuels as primary product
FZK – bio-slurry gasification + synthesis
BTG – direct gasification of bio-oil in existing gasifier + synthesis
ECN – comparison with biomass gasification routes
PNNL - Distributed pyrolysis to central refinery for upgrading and
integration
USDA - compare pyrolysis to combustion in ethanol plants
JR - Pyrolysis + CHP stand-alone
Template
Block flowsheet starting with biomass input – maybe as bio-oil, using all
products in some way and minimising waste production
Outline mass balance through „blocks“
Capital costs
Product costs
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Biorefinery Concepts to be Evaluated
Chemicals as primary product
1.
Speciality chemicals and/or separation of biomass
components
Transport fuels as primary product
2.
Bio-oil for transport fuels via gasification and FT and/or
methanol
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Bio-oil (hydro) de-oxygenation for transport fuels
Reference case
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Power and heat
Process
a.
Template for specifications and bio-oil costs
b.
Block flowsheet starting with biomass (industrial sawmill
waste ISW) input, using all products in some way and
minimising waste production, to give end products
c.
Outline mass balance through „blocks“. Size
d.
Capital costs
e.
Product costs
How and when?
Small working groups, Email, Draft (a) & (b) & (c) by end 2006 to
DCE
Small meetings if needed
(d) & (e) TBD but NOT after next TNet meeting
Group meeting 2007
FT 20,000bbl/d=3000t/d
Biomass 2,000t/d = 660,000t/y
AU, IWC, UN, USDA
ECN, FZK, BTG, VUT,
PNNL, VTT, UT, AU, CF
JR, NTNU, UF, USDA
@ JR
Define ISW @ JR
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Biorefinery Concepts to be Evaluated
FACTS
FT single train 20,000bbl/d = 3000t/d diesel = ca 12,000t/d biomass
USA Biomass 2,000t/d = 660,000t/y
EU Biomass 300 t/d = 100,000 t/y
Choren planning 1,000,000 t/y for gasification + FT
SIZE OF BIOMASS PROCESSING PLANTS for consideration
Small = 200 t/d input dry biomass
Large = 2000 t/d input dry biomass = 400 MWth input = 160 MWe
SIZE OF intermediate fuel products dependent of biomass input, e.g.
partially refined product to refinery
SIZE OF FT
12,000 bbl/d output diesel production
Upgraded bio-oil hydrotreater = 6000 bbl/d diesel = 800 t/d diesel
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PyNe -- Glasgow
Round Robin on Lignin Pyrolysis
Dietrich Meier and Doug Elliott
September 20, 2006
Round Robin
Participants
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Which laboratories? list of potential participants at Lille
Feedstock requirements
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What kind? many potential sources
How much? depends on the laboratory method
Time line
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Acquire feedstock
Distribute feedstock
Perform tests
Collect data
Submit report
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Potential Round Robin Participants
Laboratory
Aston University
Forschungszentrum Karlsruhe (FZK)
ECN
University of Napoli
University of Twente
USDA-Eastern Regional Research Center
BFH-Institute for Wood Chemistry
National Renewable Energy Lab (NREL)
Pacific Northwest National Lab (PNNL)
VTT-Technical Research Centre of Finland
CIRAD-Forêt
Institut Français du Pétrole (IFP)
Process
Fluid bed, TGA, Py-GCMS
Fluid bed, screw feed
Fluid bed
Batch
Fluid bed
Fluid bed, TGA
Fluid bed, EF
Fluid bed
Analytical, TGA, Fluid bed
Py-GC-AED
Analytical
TGA, Analytical,
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Potential Round Robin Participants
Lab
Process
Aston
FZK
ECN
Napoli
Twente
USDA
Fluid bed (150, 300, 1000g/h), TGA (10mg), Py-GCMS (0.1mg)
Fluid bed, screw feed (10000g/h)
Fluid bed (
Batch, fluid bed (10g?)
Fluid bed (1000g/h)
Fluid bed (1000g/h), TGA
BFH
NREL
PNNL
VTT
CIRAD
IFP
Fluid bed (150, 5000g/h), PyGC (0.1mg), microbatch (20mg)
Fluid bed (10000g/h)
Analytical, TGA (10mg), Fluid bed (100g/h)
Py-GC-AED (0.1mg)
Analytical, fluid bed (1000g/h)
TGA (10mg), Analytical,
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Potential Lignin Sources for
Round Robin
MeadWestvaco
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Indulin AT – precipitated Kraft lignin (softwood)
Lignol (Alcell)
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Organosolve lignin
Variable biomass source potential
IOGEN
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EtOH residue (straw lignocellulosic)
International Lignin Institute
Others
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Sigma Aldrich (sulfur-free)
Borregard (kraft lignin or lignosulfonates, both with sulfur)
STFI (Swedish pulp & paper institute), kraft lignin
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Lignin Source
MeadWestvaco www.meadwestvaco.com
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pulping lignin products
several grades
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sulfonated Kraft lignins – REAX and KRAFTSPERSE
sulfonated sulfite lignin – POLYFON
unsulfonated Kraft lignin – Indulin
- AT: 5% moisture, 6.5 pH (15% aq) 3% ash, 97% lignin
- C: 5% moisture, 10.2 pH (15% aq)
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commercial products, readily available in most quantities
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Lignin Source
Lignol (Alcell process) – Bridgwater/Elliott
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organosolve hardwood lignin
Michael Rushton, Vancouver, BC, Canada
kilogram quantities available
signed agreement by each researcher
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no third party distribution
no publication without permission – source attributed
no chemical analysis without permission – data shared
inform Lignol of patenting efforts involving Lignol lignin
joint ownership of jointly developed IP
mutual confidentiality
recipient pays cost of shipping, duties, etc.
many potential biomass types in the future
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Lignin Source
Iogen – Elliott
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ligno-cellulosic EtOH residue
Ron R. Paradis, VP EtOH and Byproduct Marketing
not responsive
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Lignin Source
ENEA-Trisaia -- Chiaramonti
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steam explosion, alkali extracted, acid precipitated
Dr. Braccio and Dr. Zimbardi
1 kg lignin available for round robin tests
they would ship the lignin
they would like to know some details like what kind of
tests and who would carry them out
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Lignin Source
Abengoa – Prins
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biorefinery residue
Viorel Duma, Chesterfield, MO, USA
a few hundred kilos available at a time
start up this winter
30% dry solids (could be treated (?) to reduce moisture
for pyrolysis)
lignin content of 60%, balance fiber and ash
less interesting alternative -- dry purified lignin product
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Lignin Source
Aldrich Chemical www.sigma-aldrich.com
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Several grades, commercially available
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low sulfonate, alkali $0.30-0.40/g
hydrolytic $1.20-1.60/g
organosolve $0.60-1.00/g
100s of gram quantities
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Lignin Source
Lignoboost -- Meier/Elliott
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pulping residue lignin
Per Tomani, STFI-Packforsk AB, Stockholm
sulfur content depends on method, but typically 1-3%
several hundred kilos of product available
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they need to know more of purpose of testing
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Lignin Source
Swedish Energy Agency – Bridgwater
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organosolve
enzyme
acid
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Other Potential Lignin Sources
for Round Robin
Lignin without sulfur
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Baltic hydrolysis
ILI
Genencor enzyme hydrolysis lignin
Mondi
Sulfur containing lignin
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Kraft lignin (Borregard?)
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