CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration...
Transcript of CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration...
![Page 1: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/1.jpg)
Ah-Hyung Alissa Park Departments of Earth and Environmental Engineering & Chemical Engineering
Lenfest Center for Sustainable Energy Columbia University
UKCCSRC meeting, Cardiff, UK September 11th, 2014
CCUS in the USA: Activity, Prospects, and Academic Research
![Page 2: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/2.jpg)
http://www.ipcc.ch/report/ar5/wg1/#.Uk0OXVO8ySo
![Page 3: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/3.jpg)
http://www.scientificamerican.com/article.cfm?id=latest-ipcc-climate-report-puts-geoengineering-in-the-spotlight
![Page 4: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/4.jpg)
Towards Sustainable Energy and Environment
Gas
Synthesis
Refining
Use domestic energy sources to achieve energy independence with environmental sustainability
Use carbon neutral energy
sources Heat
Electricity
Carbon
Hydrogen Chemicals Ethanol
Methanol
DME
Gasoline
Diesel Jet Fuel
Wind , Hydro
Geo
Nuclear
Solar
Fossil
Biomass Municipal
Solid Wastes
Integrate carbon capture, utilization and storage (CCUS) technologies into the energy conversion systems
Recycled CO2
Stored CO2
Fossil fuels are fungible…
![Page 5: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/5.jpg)
Large-scale CCS projects in key markets by project lifecycle
North America continues to dominate the projects landscape; China increasing in importance; project progress has stalled in Europe
• (Brad Page, CEO, Wye River Thought Leadership Forum, 24 June 2014)
![Page 6: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/6.jpg)
Develop Technology Options for GHG Management
Capture Goals: captured cost of CO2 less than $40/tonne in the 2020-2025 timeframe with longer commitments to extending R&D support to even more advanced transformational carbon capture technologies beyond 2035.
Carbon Storage: predict geologic storage capacity to within +/- 30% and permanence of geologic storage up to 99%. Increased EOR activities from 32 million tons of CO2 per year
Monitoring, Verification and Accounting (MVA)
CO2 Utilization: enhanced oil/gas recovery, CO2 as feedstock, non-geologic storage of CO2, indirect storage, beneficial use of produced water, breakthrough concepts
US DOE Goals (energy.gov)
![Page 7: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/7.jpg)
Office of Coal and Power R&D Total FY 2012 Funding ~ $333 Million
Carbon Capture: $68.9 Million
Carbon Storage: $115.4 Million
Advanced Energy Systems: $99.9 Million
Advanced Combustion Systems: $15.9 Million
Gasification: $39 Million
Turbines: $15 Million
Fuel Cells: $25 Million
Fuels: $5 Million
Cross Cutting Research: $49.1 Million
US DOE Funding
http://www.westcarb.org/pdfs_bakersfield12/Brown.pdf
![Page 8: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/8.jpg)
FutureGen 2.0
Artist's rendering of the proposed FutureGen plant (FutureGen Alliance)
FutureGen 2.0 will be the world’s first, near-zero emissions commercial scale coal-fueled power plant that is fully integrated with geologic carbon capture and storage • CO2 capture: Retrofitting an existing coal-fueled power plant in Meredosia, Illinois with cutting
edge oxy-combustion clean coal technology • Transport: Construction of a CO2 pipeline from Meredosia to a CO2 storage facility • Storage: northeastern Morgan County, Illinois in Mt. Simon sandstone formation
Total capital cost is ~$1.65 billion ($ 1 billion from DOE and the rest is from the private sector); Construction to
start in 2014 and operations to begin in 2017
On Sept 2, 2014, the EPA approved its injection permit
![Page 9: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/9.jpg)
Collecting CO2 with Synthetic Trees
Current GRT Development
Mass-Manufactured Air Capture Units
GRT Pre-Prototype Air Capture Modules - 2007
From Technology Validation to Market-Flexible Products to Scalable Global Solutions
Courtesy GRT* *K. S. Lackner is a member of GRT
![Page 10: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/10.jpg)
Carbon Capture, Utilization and Storage Technologies (CCUS)
Carbon Capture Technologies
Capture Utilization Storage Required characteristics for CCS
Capacity and economic feasibility
Environmental benign fate
Long term stability
MEA Challenges Corrosion and solvent degradation
High capital and operating costs
High parasitic energy penalty
(NETL, 2011)
(NETL, 2010)
![Page 11: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/11.jpg)
Novel CO2 Capture Materials
Song at Penn State
Giannelis at Cornell and Park at Columbia
![Page 12: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/12.jpg)
Solid Sorbents & Chemical Looping Technologies
Water-Gas Shift: CO + H2O H2 + CO2
Carbonation / Calcination cycle Oxidation / Reduction cycle
MO + CO2 MCO3
MCO3 MO + CO2
MO + CO M + CO2
M + H2O MO + H2
e.g., ZECA process (Los Alamos National Lab)
e.g., Chemical Looping process for H2 production (Ohio State Univ.: U.S. Patent No. 11/010,648 (2004))
KIER’s 100kW CLC system (2006-2011)
Micro- vs. Mesopores
![Page 13: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/13.jpg)
Energy Frontier Research Center: gas separations EFRC - Carbon Capture Capture of CO2 from gas mixtures requires the molecular control offered by nanoscience to tailor-make those materials exhibiting exactly the right adsorption and diffusion selectivity to enable an economic separation process. Characterization methods and computational tools will be developed to guide and support this quest.
MFI PPN-6 ZIF-78
Mg-MOF-74 HMOF-992 CaA
![Page 14: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/14.jpg)
Coal, nat ural gas , and air
![Page 15: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/15.jpg)
Carbon Capture, Utilization and Storage Technologies (CCUS)
Carbon Capture Technologies
Capture Utilization Storage Required characteristics for CCS
Capacity and economic feasibility
Environmental benign fate
Long term stability
MEA Challenges Corrosion and solvent degradation
High capital and operating costs
High parasitic energy penalty
(NETL, 2011)
(NETL, 2010)
![Page 16: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/16.jpg)
Novel CO2 Capture Solvents (2011 & 2012 NETL CO2 Capture Technology Meeting)
Ionic liquids
CO2BOLs
Liquid-like Nanoparticle Organic Hybrid Materials
Carbonic Anhydrase (Enzyme)
Phase changing absorbents
![Page 17: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/17.jpg)
Nanoparticle Organic Hybrid Materials (NOHMs)
Solvent-free liquid-like hybrid systems Solvent tethered to nanoparticle
cores
Zero-vapor pressure and improved thermal stability
Tunable chemical and physical properties Liquid, solid, gel
Solvation in NOHMs driven by both entropic and enthalpic interactions
Straightforward synthesis Easy to scale up
![Page 18: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/18.jpg)
Introduction of nanoparticles increases the viscosity of the system
Viscosity
![Page 19: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/19.jpg)
Effect of Water
Viscosity decreases in the presence of H2O and with T
Only small amounts of water are required to significantly reduce the viscosity
Water acts as an antisolvent for CO2
No apparent effect on thermal stability
Composition effect Viscosity vs Capture Capacity
Petit et al., J. Colloid Interf. Sci. 2013, Submitted
![Page 20: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/20.jpg)
CO2-to-Chemicals and Fuels
Development of multi-functional
nanomaterials as a dual
purpose reactive media
Investigation of interfacial
reaction mechanisms
Combined CO2 capture and
conversion
The use of heat of absorption
during the reaction?
![Page 21: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/21.jpg)
Now, we have CO2, what do we do?
![Page 22: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/22.jpg)
Carbon Storage Schemes
Capture Utilization Storage
Mimics natural chemical transformation of CO2
MgO + CO2 → MgCO3
Thermodynamically stable product & Exothermic reaction
Appropriate for long-term environmentally benign and unmonitored storage
Ocean storage
Biological fixation
Geologic storage
Mineral carbonation
CO2 Injection Well
Gas Processing Platforms 1 million tons of CO2 injected every year since 2006
USD 100,000 saved daily on CO2 tax
Graphic courtesy of Statoil (Geotimes, 2003)
Statoil’s Sleipner West Gas reservoir in the North Sea
600,000 tons of CO2 injected every year
since 2004
In Salah Gas Project in Algeria
Graphic courtesy of BP (Geotimes, 2003)
![Page 23: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/23.jpg)
Regional Carbon Sequestration Partnerships (DOE NETL)
Launched in 2003 7 partnerships 43 US states 4 Canadian provinces > 400 state agencies, universities, and companies involved
• Characterization Phase (2003-2005) • Validation Phase (2005-2011): Small-
scale CO2 injections (< 500,000 metric tons of CO2)
• Development Phase (2008-2018+): Large-scale field tests at least 1 million metric tons of CO2
![Page 24: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/24.jpg)
Overview of Small Scale Field Tests
24 http://www.westcarb.org/pdfs_bakersfield12/Brown.pdf
![Page 25: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/25.jpg)
Various Feedstocks for Carbon Mineralization
Source: Kurt Houz
Availability silicate minerals >> industrial wastes Crystallinity industrial wastes < minerals Reactivity industrial wastes > minerals Pre-processing requirements (e.g., mining, crushing etc.,) industrial wastes < minerals
Carbonation of industrial wastes results in reclassification of these materials as non-hazardous hence safe for landfilling and for long-term carbon storage
![Page 26: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/26.jpg)
Effect of Mineralogy on CO2 Storage
26
Magnetite Anorthite Basalt Talc Augite Lizardite Antigorite Fayalite Forsterite Wollastonite 0
20
40
60
80
100
Ext
ent o
f Car
bona
tion
(%)
Experiments performed at 185oC, PCO2 of 150 atm in 1.0M NaCl+0.64M NaHCO3. 15 wt. % solid Reaction time:
Abundance of less reactive minerals vs. limited availability of highly reactive minerals
1 hr 0.5 hr 4 hr
4 hr dry attrition grinding All others – 1 hour dry attrition grinding
Serpentine
Carbonation efficiency defines whether mineral is utilized for ex-situ or in-situ storage
Ex-situ CO2 Storage
In-Situ CO2 Storage
Shorter time scales (~hours)
Longer time scales (~years)
Limited spatial scale Larger spatial scale with utilization of earth as a reactor (~hundreds of miles)
Relatively homogenous mineralogy
Heterogeneous mineralogy
More flexible tuning in reaction conditions Possible production of value-added products No monitoring required
Not limited by reactor size; Use of geothermal gradient Multiple CO2 trapping mechanisms Relatively economical at this time
O’Connor et al., AAPG Annual Meeting, 2003
![Page 27: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/27.jpg)
Availability of Minerals
Basalt Labradorite Magnesium-based Ultramafic Rocks (Serpentine, Olivine)
Mineral Carbonation of Peridotite
Photo by Dr. Jürg Matter at LDEO (2008)
Belvidere Mountain, Vermont Serpentine Tailings
![Page 28: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/28.jpg)
Chemical and Biological Catalytic Enhancement of Weathering of Silicate Minerals as Novel Carbon Capture and Storage Technology
Serpentine Dissolution reactor Mg3Si2O5(OH)4 + 6H+ 3Mg2+ + 2Si(OH)4 + H2O
MgCO3
Mg2+(aq)
Flue gas
un-dissolved minerals
Carbonation reactor
Mg2+ + CO32- MgCO3
CO32-(aq)
Bubble column reactor with CA
CO2(g) + H2O H2CO3 H2CO3 H+ + HCO3
- HCO3
- H+ + CO32-
L/S separator
L/S separator
Recycled process water
silica
Industrial CO2 sources
Mine
Value-added products (e.g., paper fillers, construction materials)
Disposal (mine reclamation)
Bio-catalyst Make-up Carbonic
anhydrase (CA)
Chemical catalyst Mg and Si-targeting Chelating agents
![Page 29: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/29.jpg)
CO2 conversion and utilization?
![Page 30: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/30.jpg)
Publications in CCUS
![Page 31: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/31.jpg)
CO2 Utilization
http://www.netl.doe.gov/research/coal/carbon-storage/research-and-development/co2-utilization
![Page 32: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/32.jpg)
CO2-EOR: the bridge to storage
Majority of projects in operation, construction or close to FID use or intend to use CO2 for EOR
(Brad Page, CEO, Wye River Thought Leadership Forum, 24 June 2014)
![Page 33: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/33.jpg)
CO2 - EOR
33
80% of CO2 is from natural resources • 12 Mt /yr from anthropogenic sources (e.g., coal gasification, gas processing) • 50 Mt/yr from naturally occurring underground deposits
Long-term CO2-EOR Market Potential: • 67 billion barrels of recoverable oil • 40% of production • 0.25 GT CO2 per year
EOR is projected to grow to 40% of US oil production
• 123 EOR projects • 350,000 barrels of oil/day • 6% of oil production • 62 million tons of CO2
Source: http://neori.org/Melzer_CO2EOR_CCUS_Feb2012.pdf
![Page 34: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/34.jpg)
![Page 35: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/35.jpg)
Development of Multifunctional smart CO2 capture media
Integrated systems (e.g., chemical looping technologies, ZECA, and enhanced WGS using mineral carbonation) for process intensification and flexibility (production of heat, electricity, chemicals and fuels in any combination)
Use of industrial wastes (e.g., stainless steel slags, scrap metals)
Diverse portfolio of projects ranging from read to make market to highly innovative efforts
Wide range of injection projects – some more successful than others
Carbon Capture, Utilization and Storage
Need for international collaborations as demonstrated by PCOR project
Summary and Future Direction
![Page 36: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/36.jpg)
Path Forward
32.6
3.7
1.6
1.4
0.4
0.3
0 5 10 15 20 25 30 35
Global CO2 emissions as of 2011
Total CO2 emissions avoided
Replacing 10% of building materials with carbonate minerals
Non-conversion use of CO2: EOR and solvents
Replacing 5% of liquid fossil fuel with biomass-based liquid fuel
Chemical and electrochemical conversion of CO2 into value-addedchemical feedstock
CO2 emissions (Gt/year)
[Data from: CO2 Utilization: N. Sridhar and D. Hill, 2011, Electrochemical Conversion of CO2 - Opportunities and Challenges, Research and Innovation - Position Paper 07-2011]
![Page 37: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/37.jpg)
NSF RCN-SEES: Multidisciplinary Approaches to Carbon Capture, Utilization and Storage (CCUS) PI: Ah-Hyung Alissa Park
(09/2012 – 08/2016, NSF Program Director: Bruce Hamilton)
CO2 Capture & Conversion Thrust
Thrust leader: Petit & West
Aines (LLNL), Panagiotopoulos & Bocarsly (Princeton), Chen, Coppens (UCL), Lee (SKU), Farrauto, Liu & Heldebrant (PNNL), Li (NCSU), Wang (Zhejiang), Park, Reimer (Berkeley), Snurr (Northwestern), Song (PSU), Wilcox (Stanford), Yegulalp, Zhang & Zhang (CAS-IPE), etc
CO2 Transportation, Storage & EOR Thrust
Thrust leader: Matter (USH) & Brady (SNL)
Baciocchi (UR-TV), Bonneville (PNNL), Blunt (Imperial), Bryant (UT Austin), Dipple (UBC), Dlugogorski (UNewcastle), Goldberg, Lee (KAIST), Park, Peters & Fritt (Princeton), Sageman & Husson (Northwestern), Wang (Yale), Zhu (Indiana), etc
CO2 MVA & Risk Analysis Thrust
Thrust leader: Stute & Venkat
Bonneville (PNNL), Goldberg, Lackner, Meinrenken, Park, Peters (Princeton), Romanak (BEG Texas), Zhu (Indiana), etc
Policy, Business & Law Thrust
Thrust leader: Barrett & Gerrard
Coppens (UCL), Fox (IMECHE), Lackner, Marcotullio, Shindell, Urpelainen, van Ryzin, Weber, Welton, van der Zwaan (ECN), etc
Industrial Thrust
Thrust POC: Gupta (RTI) & Schuster (AIChE)
B&W (Vargas), GE (Perry), RTI (Gupta), SK Energy (Park), ARAMCO (Katikaneni), ORICA Ltd. (Brent),
POSCO (Jung), etc
Educational Thrust
Thrust POC: Schuster & Pfirman
• K-12: K-12 teachers (Buck and Miller) • Young Professional (TBA) • MCM at Columbia (Lackner) • Research Experience in C Science (Tomski) • Women in Science and Engineering (Gadikota) • Council of Environmental Deans and Directors
(CEDD, TBA)
PE Society Thrust
Thrust POC: Keairns & Schuster (AIChE)
AIChE (TBA), AIME (TBA), ASCE (TBA), ASME (TBA), IEEE (TBA), Fox (IMECHE)
Project Management LCSE - Columbia University
PI: A.-H. Alissa Park CU PMs: Taylor and Gadikota & AIChE team: Schuster
Steering Committee Thrust POC: Park Members: Park, Lackner, Schlosser, Kelemen & Mutter (Columbia), Aines (LLNL), Fan (OSU), Fitts & Socolow (Princeton), Jones (Georgia Tech), Keairns (AIChE), Mazzotti (ETH-Zurich), Rubin (CMU), Sageman (Northwestern), Smit (Berkeley), Snurr (Northwestern) and Song (Penn State)
* Columbia participants unless noted * International participants are in blue
RCN-SEES on CCUS
Interdisciplinary Research
Academic
![Page 38: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/38.jpg)
![Page 39: CCUS in the USA: Activity, Prospects, and Academic Research · Regional Carbon Sequestration Partnerships (DOE NETL) Launched in 2003 7 partnerships 43 US states 4 Canadian provinces](https://reader034.fdocuments.us/reader034/viewer/2022043018/5f3aeac165594907ff22871a/html5/thumbnails/39.jpg)
Overview of Large Scale Field Tests
39 http://www.westcarb.org/pdfs_bakersfield12/Brown.pdf