Post on 16-Jul-2020
No Carbon Left Behind
2018 LanzaTech. All rights reserved.
Waste to Wing:Converting Residues to Jet Fuel2018 LanzaTech. All rights reserved.
No Carbon Left Behind
Company Profile
Corporate Headquarters and R&D in Chicago, USA
•Founded in New Zealand•Operations and Business offices in China and India•Freedom Pines Biorefinery in Georgia, USA•CEO: Dr. Jennifer Holmgren•CSO, Founder: Dr. Sean Simpson
Over 125 staffSynthetic Biology, FermentationAnalytical, Process Validation Engineering
IP Portfolio>400 Patents pending; >350 granted
Funding4 rounds: $250 M
No Carbon Left Behind
Energy can be Carbon FreeAviation Fuel needs CarbonChemicals for Everyday Products need Carbon
No Carbon Left Behind
Recycling Carbon
Industrial Off GasSteel
RefiningFerroalloy
Gas Feed
StreamCompression Fermentation Recovery Product
Tank
ProprietaryMicrobe
BiomassMSW
Waste Solids
No Carbon Left Behind
Carbon as a Lower Value Gas from Chemistry of Steel Making
Lower Value Gas Residues
Metallurgical grade
coking coal
Produce coke for blast
furnaceReducing agent to convert
iron ore into pig (crude) iron.
Drive excess carbon
out of the pig iron as
CO using oxygen
Coke Pig Iron
Coal Coke Oven Blast Furnace BOF Converter
Sized, graded
coking coal
Steel
These gases would still be produced
If all energy in steelmaking were replaced by wind and solar
No Carbon Left Behind
LanzaTech Offers the Optimal Carbon Monoxide Solution
CO
CO2
Direct Release• Highly toxic gas; regulated• Allowable quantities small• Oxidizes quickly to CO2 in
atmosphere
Flare to CO2• Contributes directly to
climate change• Increased carbon burden• No added value, only costs
Combustion • Low efficiency usage: ~30%• Significant release of CO2• C based power production
should be displaced by renewable powerCO2
Flare
Combust
Reuse
LanzaTech Conversion• High efficiency usage ~60%• Sequesters carbon into
products and low-carbon fuels
• Carbon converted to products not pollution
No Carbon Left Behind
China48k MTA2018
Belgium62k MTA2019
Industrial Off Gases
South Africa52k MTA2019
India34k MTA2019
No Carbon Left Behind
6 CO + 3 H2O EtOH + 4 CO2High CO off-gas (e.g. steel)Demonstrated at scale
CO
CO + H2
CO + H2 + CO2
4 H2 + 2 CO EtOH + H2O
Rigorous Development and Modeling Enabled Wide Range of Feedstock
CO + H2Syngas (e.g. MSW)Demonstrated at scale
5 H2 + 1 CO + 1 CO2 EtOH + 2 H2O
3 H2 + 3 CO EtOH + CO2
5:1High H2 off-gas (e.g. refinery)Demonstrated at pilot, allows CO2 fixing in products
2:1
1:1
0:1
H2:CO ratio
Any combination or interpolation of these can be used for ethanol productionwith only a change in operating conditions
No Carbon Left Behind
JapanUnsorted MSW SyngasDemonstration Scale
2013-201735k MTABiomass Syngas
2019
No Carbon Left Behind
Unsorted MSW feed
Successful demonstration of continuous ethanol from unsorted, non-recyclable, non-compostable, MSW-derived syngas
2013Proof of concept
2014Pilot commissioned near Tokyo
15 MTA Slip stream of commercial, non-plasma gasifier operated to
produce syngas for electricity production Reactor design leverages LanzaTech steel-mill experience
Carbon Recycling: Converting MSW to Ethanol
No Carbon Left Behind
Integrating Technology Platforms
11
• Plasma gasifier directly connected to LanzaTech fermentation
• 24/7 continuous production• Fully integrated
• Tested multiple feedstocks:• Orchard waste • Pine wood• Corn stover• Bagasse
• Successfully completed a 120-day demonstration run meeting the requirements of the United States Department of Agriculture loan guarantee
Biomass Gasification EthanolGas Conditioning Gas Fermentation
No Carbon Left Behind
It takes Time….It takes Data
Multiple Demo plants at various scales; >70,000 operating hours
Caofeidian, ChinaS/U: Q1 2013
300 MTA
Shanghai, ChinaS/U: Q1 2012
300 MTA
JapanS/U: Q4 2014
15 MTA
Kaohsiung, TaiwanS/U: Q1 2014
30 MTAGlenbrook Pilot
Auckland, NZS/U: 2008
15 MTA
CELEBRATING12 YEARS
Freedom PinesSoperton, GA
S/U 2015
Strain Development Lab Pilot Demo Commercial
No Carbon Left Behind
Lanzanol(Ethanol)
From Waste to Wing
Jet &Diesel
Ethanol
FractionationDehydration Oligomerization Hydrogenation
Jet range hydrocarbons (C8-C16) selectively built from smaller molecules
No Carbon Left Behind
LanzaTech Jet Production Using its Freedom Pines Biorefinery
• Demonstrated feedstock flexibility
• 1,500 gal from waste gas ethanol (Lanzanol)
• 2,500 gal from Grain Ethanol
• Waste gas ethanol (Lanzanol) produced in an RSB-certified demonstration facility
• Shougang-LanzaTech 100,000 gal/yr(300 mta) China demonstration plant
LanzaTech Produced…4000 gallons Jet 600 gallons Diesel
Reduced Operating Cost
Improved Product Yield
Increased Run Time and Production Rate
Lower Cost Commercial
Product
No Carbon Left Behind
LanzaTech Jet Property Highlights
Meets or Exceeds Critical Jet Fuel SpecificationsNeat fuel primarily isoparaffins with <0.2% aromatics
Carbon number range similar toconventional jet fuel and other SPK’s
040218
0
5
10
15
20
25
7 8 9 10 11 12 13 14 15 16 17 18
LanzaTech ATJ-SPKCamelina HEFA-SPKJet A (POSF 10325)
Iso-
para
ffins
by
GC
xGC
, mas
s%
Carbon number
Fuel Property Jet A Spec
LanzaTechATJ-SPK
50/50% v with Jet A
Freeze Point, °C -40 max -61 -54Energy Density, MJ/kg
42.8 min 44.4 43.8
Thermal Stability Baseline Excellent ExcellentViscosity @ -40 °C mm2/sec
12 max 7.0 9.3
Hydrogen % 13.4 min 15.1 14.5Aromatics % 8 min, 25
max Nil 8.8
Sulfur, total mass % 0.30 max <0.001 0.02
On April 1, 18, ASTM Intl. Revised D7566 ATJ SPK Annex A5 • Added Ethanol as a feedstock • Increased final blend ratio to max 50 %
The ASTM Ballot to add Ethanol was based on LanzaTech’s Fit for Purpose Data and Research Report
No Carbon Left Behind 16
2015• Lab scale catalyst and process development completed with PNNL• Several gallons produced
2016• Demonstration scale catalyst and process development at LanzaTech Freedom
Pines Biorefinery in Soperton, Georgia• Thousands of gallons of jet fuel produced
2019• Pre-Commercial scale production – 3 million gal/yr
2021• Commercial scale production• Tens of millions of gallons of capacity
Commercialization Timeline