White Rose CCS Project
An Update on the White Rose CCS Project
Graeme Dunn, Head of Engineering, Capture Power Ltd
All-Energy 2015
Glasgow, 7th May 2015
All-Energy 2015, Glasgow
© Capture
Power
2015.
rights
reserved.
© Capture
Power
Ltd Ltd
2015.
All All
rights
reserved
1
Architectural Options
Vision: White Rose CCS
The Future of Clean Power
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
Artist impression – courtesy of Arup Associates
2
White Rose CCS - Project Snapshot
• A full-chain integrated CCS project incorporating a new
ultrasupercritical Oxy Power Plant, up to 448 MWe (gross)
• Located Drax, North Yorkshire providing >300 MWe clean
power, equivalent to the needs of 630,000 homes
• 100% of flue-gas treated, 90% CO2 capture rate → 2 MTPA
• Biomass co-firing leading to zero - or negative - CO2 emissions
• CO2 transported c.a. 100 miles by
pipeline to off-shore storage
• CO2 to be permanently stored in a
deep saline formation
Images from DECC publication
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
3
Full-Chain CCS Project
YORK
Oxy-Power
Plant
GOOLE
CO2 Pipeline
SELBY
MARKET
WEIGHTON
BRIDLINGTON
HULL
DRIFFIELD
Offshore
Platform
CO2 Store:
5/42
Not to scale
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
4
Delivery Plan
OXY-POWER PLANT (OPP)
•
• Delivery of OPP
• Integration of OPP
All-Energy 2015, Glasgow
•
•
•
•
•
CO2 TRANSPORT & STORAGE
Full-Chain
Integration
O&M of OPP
• Delivery of ASU
Trading Services
• O&M of ASU
Site and Site Services
Fuel Supply
Electrical Connection
© Capture Power Ltd 2015. All rights reserved.
Carbon Ltd
• Delivery of Transport &
Storage network
• O&M of Transport &
Storage network
5
Project Status
•
Preferred Bidder in the UK’s £1 Billion CCS Commercialisation Programme
•
FEED Contract awarded - signed by the UK Government on 20th December 2013
•
FEED underway: detailed engineering, risk reduction and planning programme
leading to financial close, FID and construction commencement.
•
Planning Process on track:
•
–
Power Plant Development Consent Order (DCO) planning application accepted by UK Planning
Inspectorate in December 2014;
–
DCO application for CCS pipeline by National Grid accepted July 2014
Continuing work with the UK Government (DECC) towards Project Contract and
Contract for Difference (CfD)
FEED Phase
~ 2 years
All-Energy 2015, Glasgow
Construction Phase
~ 4-5 years
© Capture Power Ltd 2015. All rights reserved.
Operating Phase
15 – 20 years
6
Risk Reduction (FEED) Phase Programme
Risk Reduction
Q1 2014
Q2 2014
Q3 2014
Q4 2014
Oxy-PP Technical FEED
Q1 2015
Q2 2015
Q3 2015
Q4 2015
Q1 2016
T&S Technical FEED
Oxy-PP DCO
Onshore Pipeline DCO, Storage Permit
Oxy-PP Financing
Project Contract & CfD Negotiations
Bid Update / PC & CfD Award
FID / FC
NTP - Contracts
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
77
Support in Europe
• 8 July 2014, EC announces NER300 award of up to €300M
• White Rose, sponsored by UK Government, NER300’s flag ship CCS
project.
• At over 300 MW White Rose will account for a significant percent
of total low-carbon electricity supply enabled under NER300
•
Decision represents strong signal for CCS in Europe
•
Builds on earlier EEPR programme support provided by the EC for National Grid’s CO2
transport and storage infrastructure in Yorkshire and Humber (Don Valley project)
•
NER400 funding could benefit future regional projects wanting to join the T&S network
•
Strengthens case for CCS as part of wider solution towards EU2030 framework targets
for emissions reduction
European backing key to attracting wider CCS funding community
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
8
White Rose Objectives
• To demonstrate Oxyfuel CCS as a reliable, flexible, and
competitively priced low-carbon technology
• To improve the UK’s security of supply by providing a coal-based
low-carbon electricity generation option
• To act as an anchor project for the development of a CO2
transportation and storage network in the UK’s most energy
intensive region
Demonstrating commercial viability of CCS as part of future energy mix
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
9
Oxy-fuel technology
CO2 processing
& compression
Proven
Reliable
Flexible
Source: Alstom
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
10
Costs of Delivering CCS
CCS “has the potential to be cost competitive with other forms of low
carbon power generation by 2020s” CCS Cost Reduction Task Force
1
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
1 UK CCS Cost Reduction Taskforce - Final Report-May 2013
11
CCS in Future Power Market
CCS is part of a diverse future energy portfolio
1. Gone Green, UK Future Energy Scenarios, National Grid, July 2013
2. DECC EMR Delivery Plan Dec 2013,
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
12
GB Power Demand - Nov 2013
Installed Wind Capacity 6 GW, actual generation between 0 and 4 GW
Thermal Demand - November 2013 - max 4 GW wind (2013)
MW
50000
45000
Max: 45.9 GW
40000
35000
30000
25000
20000
15000
Min: 14.0 GW
10000
5000
0
Coal and gas provide the flexible power needed for a balanced system
1. 2013 data from http://www.gridwatch.templar.co.uk/
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
13
Future GB Power Demand - Nov 2030
Installed Wind Capacity 35 GW forecast1, wind blows as in 2013
Thermal Demand - November 2013 - max 24 GW wind (2030 forecast)
MW
50000
45000
Max: 43.3 GW
40000
35000
30000
25000
20000
15000
10000
5000
13 GW CCS 2
Min: < 0 GW
0
Flexible CCS will contribute to meeting variable demand from 2020,
complementing intermittent renewables and base load nuclear
1.
2.
All-Energy 2015, Glasgow
UK Future Energy Scenarios (slow progression) , National Grid, July 2013
DECC EMR Delivery Plan Dec 2013, Chapter 6 Scenario Higher deployment rates of CCS
© Capture Power Ltd 2015. All rights reserved.
14
CCS Cluster Development
• Phase 1: White Rose, coal-fired Oxy-Power
Plant in high CO2 emission region
• Anchor project for regional T&S
infrastructure by National Grid
• Supports Phase 2&3 projects: sized for 17
MTPA CO2 ; White Rose capacity 2 MTPA
To be successful we need to make
the case for CCS in the future
power market.
One project is not a future
1 Maps source: Energy Technologies Insights Report, carbon capture and storage potential for CCS in the UK
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
15
White Rose CCS Objectives
To demonstrate Oxyfuel CCS as a reliable, flexible, and
competitively priced low-carbon technology
To improve the UK’s security of supply by providing a coalbased low-carbon electricity generation option
To act as an anchor project for the development of a CO2
transportation and storage network in the UK’s most energy
intensive region
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
16
The Future of Clean Power
White Rose will show that abated fossil-fuel power stations will be able to generate flexible,
reliable and affordable power as mid-merit plants, providing security of supply and grid stability
complementing base load nuclear generation and intermittent renewables
All-Energy 2015, Glasgow
© Capture Power Ltd 2015. All rights reserved.
17