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THEME A CO2 capture, transport, usage

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UKCCSC Meeting, 27 - 28 March 2006 Edinburgh THEME A CO2 capture, transport, usage Leader John Oakey Cranfield University Power Generation Technology Centre – PowerPoint PPT presentation

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Title: THEME A CO2 capture, transport, usage


1
THEME ACO2 capture, transport, usage
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Leader
  • John Oakey
  • Cranfield University

Power Generation Technology Centre
2
Theme A
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • A1 Theme A Integration
  • A2 Fossil Energy Supply
  • A3 CCS Synergies Real Time Supply
  • A4 CCS as a Bridge to H2
  • A5 Fossil Fuel Use
  • A6 CO2 Transport
  • A7 Long Term Utilisation

3
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A1 Theme A Integration
Synthesise and add to theme A activities to
develop technical options for carbon capture
deployment in the UK
Input from all theme A participants and advice
from all other themes (especially on storage)
  • Aberdeen
  • 1 - Definition of Case Studies (windows of
    opportunity in UKCS based on modelling)
  • 2 Economics (costs of capture to give
    cost/supply curve)
  • 3 Policy/Incentives
  • Imperial College
  • 1 Review paper on CO2 capture and transport
    to influence debate, scenarios case studies
  • Reading
  • 1 Guidelines based on theme A scenarios and
    sensitivity analysis (subtheme A1)

External consultation exercise with variety of
stakeholders (Jon Gibbins to lead for UKCCSC?)
Led by Theme Leader John Oakey
Power Generation Technology Centre
4
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A2 Fossil Energy Supply
Provide background for decision making on the
role that can be played by CCS in meeting UK
energy supply objectives
  • Reading
  • 2 - Life cycle costs emissions with without
    CCS
  • 3 - Power plant scheme scenarios scenario
    collation
  • 4 - Sensitivity analysis

A2.a Database of LC energy costs CO2 emissions
report/CD
  • Aberdeen
  • 4 Storage Scenarios

A2.b Definition of theme A scenarios - report
Input from Theme B
Input from Newcastle 4 (theme A5)
A2.c Sensitivity analysis report/CD
Require inputs from A2/A3/A4/A5
scenarios limited to information required for
technical cost assessment
Sub-theme Leader Tim Cockerill
Power Generation Technology Centre
5
DeliverablesA.2.a Database of LC energy costs
CO2 emissionsA.2.b Definition of Theme A
ScenariosA.2.c Sensitivity Analysis Report
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • TASK A.2.1 Overall assessment of lifecycle costs
    and emissions of fossil fuel supply options
  • TASK A.2.2 Assessment of impact of future energy
    supply scenarios
  • TASK A.2.3 Summary of published and produced
    data

Power Generation Technology Centre
6
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A3 CCS Synergies Real
Time Supply
Investigate the impact of using renewable energy
and nuclear in combination with CCS systems
Advice from stakeholders (including DTI and UKERC)
  • Manchester
  • Real time supply modelling
  • 1 Model design
  • 2 Model development
  • 3 Model use
  • Imperial College
  • 2 Capture plant definition (work done in A4)
  • 3 Consultation on simplified scenarios
  • 4 CCS flexibility value from real time
    analysis trading etc
  • 5 Biomass links (including with TSEC Biomass
    consortium)
  • Cranfield
  • 1- Biomass reports/ links to biomass projects
  • Nottingham
  • 1 - Biomass reports/links to biomass projects

Sub-theme Leader Jon Gibbins
Power Generation Technology Centre
7
A.3.a Assessment of potential role and value of
CCS for grid operation
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • TASK A3.1 Capture plant technical definition
  • TASK A3.2 Consultation on simplified scenarios
  • TASK A3.3 CCS flexibility value from real time
    analysis trading

A.3.b Biomass co-combustion assessment
  • TASK A3.4 Biomass links

Power Generation Technology Centre
8
A.3.4. Biomass links
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Evaluation of the possible candidate renewable
    energy fuels availability and supply
  • Potential interactions with capture technologies
    Biomass co-processing.
  • - Extending the range of biomass feedstock that
    can be used and considering future power plant
    design to maximise the amount of biomass co-fired
  • Quantification of benefits of using co-firing of
    renewable fuels
  • Modelling of CO2 reduction in different energy
    demand scenarios
  • Maintain links with TSEC Biomass consortium

Power Generation Technology Centre
9
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A4 CCS as Bridge to H2
Explore the opportunities for producing H2 using
CCS (including consideration of new sectors and
offsets negative CO2 output and saleable
credits etc)
  • Nottingham
  • 2 H2 from methane
  • 3 Jet fuel from biomass
  • 4 Gasification cycle data (reports from other
    projects)
  • Imperial College
  • 6 H2 use in gas turbines and fuel cells near
    term H2 production
  • Cranfield
  • 2 Gasification technical assessment
  • 2a Reforming of gaseous feedstocks e.g. BP
  • (both to address H2 purity)
  • (H2 dilution of natural gas supplies? H2
    requirements for transport applications?)

Input from biomass co-combustion work in A3?
Sub-theme Leader John Oakey
Power Generation Technology Centre
10
A.4.a Technical review and assessment using CCS
for H2 production in other sectors
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • TASK A.4.1 Scope of H2 production uptaking
    actual gasification technology
  • Review of steam reforming technology to produce
    hydrogen
  • Review of coal gasification and IGCC

Power Generation Technology Centre
11
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • TASK A.4.2 Scope of coal underground gasification
  • TASK A.4.3 Catalytic cracking of methane at low
    temperatures
  • TASK A.4.4 Jet fuel from biomass
  • TASK A.4.5 H2 use in gas turbines and fuel cells

Power Generation Technology Centre
12
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A5 Fossil Fuel Use
Assess some key capture technologies
International Test Centre at Regina
  • Nottingham
  • 5 Adsorption technologies economics reports
    from other projects
  • Imperial College
  • 7 Power plant (steam cycle) model
  • 8 Amine scrubber modelling with power plant
    model (Imperial 7)
  • 9 Technical work on power plant flexibility
    with capture

Gasification assessment in A4
A5.a Technical description of various capture
plant technologies
  • Cranfield
  • 3 Lime capture chemical looping technologies
    reports from other projects
  • 3a Oxy-fuel coal (input from IC), gas, etc.
  • 4 CCS impact on RAMO
  • 5 Impact of CCS on plant operating
    cycles/flexibility

Technical advice on transport (A6) and storage (B)
Sub-theme Leader John Oakey
Power Generation Technology Centre
13
A.5.a Technical description of various capture
plant technology
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • TASK A.5.1 Identification and review of the
    different carbon capture technologies
  • TASK A.5.2 Power plant model

A.5.b Assessment of technical implications of
various capture plant technologies
  • TASK A.5.3 Impact of CCS on plant operating
    cycles/flexibility

Power Generation Technology Centre
14
A.5.1.1. Evaluation of the state of art of
pre-combustion capture technologies
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
CO2 pre-combustion capture at a coal gasification
plant in North Dakota, USA. This plant employs a
physical solvent process to separate 3.3 MtCO2
per year from a gas stream to produce synthetic
natural gas. Part of the captured CO2 is used for
an EOR project in Canada.
Power Generation Technology Centre
15
A.5.1.2. Evaluation of the state of art of
oxyfuel combustion
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Oxy-Combustion Pilot Plant
5 MWe CES water cycle plant at Kimberlina,
California
Flue gas 97 CO2 Recycle 75
Power Generation Technology Centre
16
A.5.1.3. Evaluation of the state of art of
post-combustion technologies
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Lime capture chemical looping technologies
    reports from other projects
  • Adsorption technologies economics reports
    from other projects
  • Solvent absorption technologies - Amine scrubbing
  • Membranes technologies

CO2 post-combustion capture at a plant in
Malaysia. This plant employs a chemical
absorption process to separate 0.2 MtCO2 per year
from the flue gas stream of a gas-fired power
plant for urea production (Courtesy of Mitsubishi
Heavy Industries).
Power Generation Technology Centre
17
A.5.1.3.1. Lime capture chemical looping
technologies
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • A.5.1.3.3. Solvent absorption technologies -
    Amine scrubbing

Power Generation Technology Centre
18
A.5.2. Power Plant model
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Review of performance standards required for
    retrofit of CCS on current fossil plants and new
    more integrated fossil systems
  • Develop model of steam cycle for carbon capture
    plant
  • Define modes of operation of capture plant
  • Basic amine system modelling (for application to
    steam power plants with post-combustion capture)
  • Integrated optimisation of amine scrubber
    modelling with power plant model

Power Generation Technology Centre
19
A.5.3. Impact of CCS on plant operating
cycles/flexibility
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Identify technologies with most potential for
    integration with likely developments in fossil
    generation
  • Identify optimum capture performance in the
    context of a flexible power plant producing low
    cost electricity
  • Determine the main factors that influence the
    cost of CO2 capture
  • CCS impact on RAMO
  • Influence of CCS on flexibility of IGCC

Cost of CO2 Capture
Power Generation Efficiency
Source IEA GHG studies
Power Generation Technology Centre
20
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A6 CO2 Transport
Generate and collate information on CO2 transport
options for the UK
Theme B, GIS and Jeremy Colls (Nottingham)
  • Newcastle
  • 1 - UK source/sink analysis CO2 quantities
    (review)
  • 2 - CO2 injection technologies review
  • 3 Regulatory impacts on CO2 transport
  • 4 - Transport scenarios link to theme A1
  • 5 Transport options costs
  • Cranfield
  • 6 Pipeline materials review
  • 7 Pipeline failure risk analysis

A6.a Functional and technical review of CO2
transport (including regulations)
  • Aberdeen
  • 5 Transport cost modelling

A6.b CO2 transport scenarios for the UK including
economic analysis
Sub-theme Leader Martin Downie
Power Generation Technology Centre
21
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • A.6.a. Functional and technical review of CO2
    transport (including regulations)
  • TASK A.6.1 UK source/sink analysis-CO2
    quantities
  • TASK A.6.2 Technical and Regulatory requirements
    for CO2 transport
  • TASK A6.3 Transport Options

A.6.b. CO2 Transport scenarios for the UK
including economic analysis
  • TASK A6.4 Transport scenarios
  • TASK A6.5 Strategic options cost modelling

Power Generation Technology Centre
22
A.6.1. UK source/sink analysis - CO2 quantities
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Review sources location CO2 characteristics
    distribution
  • Review sinks capacity, geological integrity,
    proximity to coast, existing infrastructure, EOR.
    Sink assessment/ranking/selection
  • Identify locations of suitable offshore storage
    reservoirs
  • Identify possible locations of CCS plants, and
    quantities of CO2 to be transported
  • Identify existing pipeline infrastructure

Sleipner CO2 injection into Utsira deep saline
reservoir
Power Generation Technology Centre
23
A.6.3. Transport Options
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Transport overland, existing or new pipelines
  • Sub sea transport using existing or new pipelines
  • Transport by ship, collection from distributed
    sources, delivery to sink

Photo Dakota Gasification
Power Generation Technology Centre
24
A.6.4. Transport scenarios
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
  • Identify specific locations of suitable offshore
    storage reservoirs for scenario
  • Identify possible location of specific CCS plant,
    and quantities of CO2 to be transported with
    respect to the gradual deployment of CCS within
    the context of the possible energy supply
    scenarios developed in other themes
  • Technical assessment and optimisation of CCS
    transport strategies
  • Specify regulatory constraints that might impact
    on developments
  • Setting specifications and costs for offshore
    injection platforms
  • Assessment of costs, technical and operational
    requirements (including energy consumption) for
    pipe and ship based transport for the CCS
    deployments envisaged above
  • Devise optimal transport strategies for various
    CCS deployment scenarios

Possible CCS systems sources for which CCS might
be relevant, transport, and storage options
Power Generation Technology Centre
25
Capture Storage Costs
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
A.6.5. Strategic options cost modelling
  • Modelling prospective production of oil and gas
    from UKCS to 2030
  • Modelling prospective end of field lives and
    economic end of infrastructure in UKCS to 2030
  • Modelling Supply/Cost Curves for CO2 Capture
    Transportation (and Injection Storage EOR)
  • Modelling Economic Incentives for CO2 Capture
    Transportation (and Storage/EOR)
  • Integrate results of detailed transport studies
    within the techno-economic model to inform/modify
    life cycle analysis

Cost of CO2 Transport
Source www.ieagreen.org.uk
Power Generation Technology Centre
26
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Overview of Sub-theme A7 Long Term Utilisation
To develop, for the first time, catalysts which
allow photocatalytic reduction to be performed
in supercritical CO2
  • Nottingham
  • 6 Develop catalysts
  • 7 Probe methods of catalysis
  • 8 Use, investigate and assess catalysts
    developed

Sub-theme Leader Mike George
Power Generation Technology Centre
27
UKCCSC Meeting, 27 - 28 March 2006 Edinburgh
Cross Theme Interactions Involving Theme A
Activities
  • Newcastle
  • Link to theme B re. GIS work on sinks and
    injection technologies
  • Link to theme C on Nottingham work on
    environmental impact of leaks
  • Link to GIS for sources/sinks etc
  • Aberdeen
  • Input from Theme B for various tasks
  • Imperial College
  • Input from Theme B for plant flexibility
    definition
  • Output to GIS from biomass work (if appropriate)
  • Input from GIS for review paper in A1
  • All Theme A
  • Publish papers and articles and update website
  • Input to integrating modelling as
    required/appopriate
  • Input to Theme A Required from All Other Themes
  • (not shown schematically)
  • Advice etc for technical options exercise in
    theme A1

Power Generation Technology Centre
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