Weitere ähnliche Inhalte Ähnlich wie George Booras, EPRI - Power plant capture case studies - Introduction Ähnlich wie George Booras, EPRI - Power plant capture case studies - Introduction (20) Mehr von Global CCS Institute Mehr von Global CCS Institute (20) Kürzlich hochgeladen (20) George Booras, EPRI - Power plant capture case studies - Introduction1. Session 3:
Power Plant Capture: Case StudiesPower Plant Capture: Case Studies
George Booras (gbooras@epri.com)
Senior Project Manager
CCS Cost Workshop
International Energy Agency, Paris, France
November 6-7, 2013
2. Session 3 Overview
This session will focus on cost estimates for CCS
applications in electric power generation including:applications in electric power generation, including:
• Retrofits
• Gas-fired generationGas fired generation
• Demonstration plants under construction
The speakers for this session are:
• Des Dillon (EPRI)
• Wilfried Maas (Shell)
• Max Ball (Saskpower, Web Presentation)
2© 2013 Electric Power Research Institute, Inc. All rights reserved.
3. Technology Development Assessment
CO2 Capture and Storage for Power ApplicationsCO2 Capture and Storage for Power Applications
Research Development Demonstration Deployment Mature Technology
nt
*
Investmen
PC with Post-Combustion Capture
IGCC with Pre-Combustion Capture
2nd Generation
1st Generation
echnology
IGCC with Pre Combustion Capture
Oxy-Combustion
2nd Generation
1st Generation
LevelofTe
Storage in Saline Aquifer
EOR for CO2 Storage
nticipatedL
* Pre- and post-combustion capture are considered
mature technologies in applications outside of power
generation. Using CO2 for EOR without considerationLeft end of arrow indicates current status;
3© 2013 Electric Power Research Institute, Inc. All rights reserved.
Time
An
2
of storage is also considered a mature technology.
Left end of arrow indicates current status;
Right end of arrow indicates estimated 2030 development level.
4. Understanding Cost Growth as a Function of
Engineering Detail for New Technologiesg g g
Detailed
Preliminary
Detailed
Frequency
Simplified
of
Occurrence
• For many new technologies the cost estimates increase in value as
they become more accurate
Cost
4© 2013 Electric Power Research Institute, Inc. All rights reserved.
they become more accurate.
• This generally happens when there are changes in scope.
5. Longonnet FEED Study Example
Chain Segment (in £m) Pre-FEED Post-FEED
Capture 559.8 656.5
Transport 198.7 281.2
Storage 318 7 207 8Storage 318.7 207.8
Total 1077.2 1145.5
Risk & Contingency 102.8 194.8
Total Project Capex 1180.1 1340.3
Range 857 – 1719 1200 – 1519
Post-FEED Total Project Capex increased by over 13%,
while uncertainty range decreased by a factor of 3
5© 2013 Electric Power Research Institute, Inc. All rights reserved.
while uncertainty range decreased by a factor of 3
6. Power Plant Capture Cost Estimating Challenges
• Power plant projects tend to have the highest cost for
incorporating CCSincorporating CCS
• The volume of information required to compile a complete
capital cost estimate is immensep
• Reference plant cost data is often limited for new
technologies
O f f• Owners are often in a rush to construct to take full
advantage of the project, including incentives, grants, etc.
• A firm design basis is critical to obtaining a good estimateA firm design basis is critical to obtaining a good estimate
• Many cost estimates are prepared before the scope is
finalized
6© 2013 Electric Power Research Institute, Inc. All rights reserved.
7. Challenges for Retrofit Cost Estimates
• Integration into existing, operating power plant
Mi i i i d ti f ti i i iti l– Minimizing down time for tie-ins is critical
• Layout constraints often lead to higher costs
– Ducting, piping, and utility lines can be much longerg, p p g, y g
• There is no reference plant for most retrofits
– Every plant has unique features and requirements
• Existing emission control systems are often inadequate
– Especially for current solvent-based capture systems
• Need to work closely with plant operating staff during• Need to work closely with plant operating staff during
design phase
• Retrofit demo plants suffer poor economies of scale
7© 2013 Electric Power Research Institute, Inc. All rights reserved.
8. R&D and Learn by Doing are Critical
• Both Research and Development (R&D) and learning-by-
doing play an important role in innovation and the cost ofdoing play an important role in innovation and the cost of
energy technologies in the marketplace
• If R&D is not performed, the cost is too high for most plants
to install technology or replace with new CCS facilities
– Learning-by-doing never gets off the ground
Sh i th l l d f l CCS d l t• Sharing the lessons learned from early CCS deployments
is essential for the long term success of carbon capture
• We need to develop a cost roadmap to get from first-of-a-e eed o de e op a cos oad ap o ge o s o a
kind (FOAK) to nth-of-a-kind (NOAK) costs
8© 2013 Electric Power Research Institute, Inc. All rights reserved.
9. Together Shaping the Future of ElectricityTogether…Shaping the Future of Electricity
9© 2013 Electric Power Research Institute, Inc. All rights reserved.