Ausbildungsprogramm Reisejournalismus in Schottland
Carbon Capture and Storage (CCS) for Coal-Fired Plants - Opportunity Assessment and Key Country Analysis to 2025
1. Carbon Capture and Storage (CCS) for Coal-Fired Plants -
Opportunity Assessment and Key Country Analysis to 2025
Report Details:
Published:December 2012
No. of Pages: 101
Price: Single User License – US$3995
This report provides the retrofit potential and new market potential for the global CCS market in
terms of revenues and capacity. It also discusses the key drivers and restraints impacting the
market. The report provides an in depth analysis of key global CCS markets– the US, Canada, the
UK, Germany, Poland, Australia, China and Japan. It provides the retrofit potential and new
market potential for CCS and the regulations in each of these countries. The report also provides
an overview of key players in global CCS market.
Scope
- Analysis of CCS technologies–Pre-Combustion Capture Technology, Post-Combustion Capture
Technology, Oxy-Fuel Combustion Capture Technology.
- Data on potential market for CCS retrofit and new capacity (GW and $ billions) for key countries:
the US, Canada, the UK, Germany, Poland, Australia, China and Japan.
- Drivers and restraints for the CCS market for the above mentioned countries.
- Data sourced from proprietary databases and primary interviews with industry experts.
Reasons to Buy
- Facilitate decision-making based on strong historic and forecast data for the global CCS market;
- Develop strategies based on the potential revenue in global CCS market;
- Position yourself to gain the maximum advantage in the CCS market’s growth potential;
Additional Information
Carbon Capture and Storage May Be Key to Meeting Global Emissions Targets
Although currently negligible in prominence, Carbon Capture and Storage (CCS) could be the
technology that makes the world’s carbon emission reduction targets achievable, say energy
experts GlobalData, in their latest report.
As this report explains, carbon storage techniques, such as enhanced oil recovery, have been
2. used in the energy sector for decades, but only recently has the concept of long term carbon
storage been viewed as a viable means of reducing the amount of carbon released into the
atmosphere from power plants.
Correspondingly, a modest 238 megawatts (MW) of CCS capacity was installed globally at the end
of 2011, but according to current government plans and other initiatives, a far more substantial 10
gigawatts (GW) is expected to come online by the end of the decade.
CCS refers to the technology of capturing carbon dioxide (CO2) before or after the combustion of
fossil fuels (gas or coal), transporting it and pumping it into underground geological formations.
This process prevents large quantities of CO2 from being released into the atmosphere by
securely storing it between impermeable rock or similar material.
China, the US, Australia, Japan, Norway, the Netherlands and the UK have invested heavily in
CCS Research and Development (R&D) activities and are the global leaders in the industry;
however, there are currently no large-scale CCS demonstration projects active for coal-fired
plants.
Governments around the world are showing a lack of commitment in significantly reducing fossil
fuel consumption, and so CCS could prove the most realistic answer to one of the greatest
predicaments of our time. However, GlobalData’s report states that this technology must be
employed much more widely in order for CCS to make the level of impact its potential suggests.
Get your copy of this report @
http://www.reportsnreports.com/reports/210543-carbon-capture-and-storage-ccs-for-coal-fired-plants-opportunity-
assessment-and-key-country-analysis-to-2025.html
Major points covered in Table of Contents of this report include
1 Table of Contents 3
1.1 List of Tables 5
1.2 List of Figures 6
2 Introduction 7
2.1 GlobalData Report Guidance 8
3 CCS, Technology 9
3.1 CCS Technology: An Overview 9
3.1.1 CCS Technology, Carbon Capture Technologies 9
3.1.2 CCS Technology, Carbon Transportation 11
3.1.3 CCS Technology, Carbon Storage Technologies 12
3.2 CCS, Technology, New Technologies 13
4 Global, CCS Market 14
4.1 Global, CCS Market, Present Status 14
4.1.1 Australia 14
3. 4.1.2 China 14
4.1.3 South Africa 14
4.1.4 Japan 15
4.1.5 Norway 15
4.1.6 South Korea 15
4.1.7 India 15
4.1.8 Canada 16
4.1.9 US 16
4.1.10 EU Member countries 16
4.2 Global, CCS Market, Current and Planned Installed Capacity (MW), 2008-2020 18
4.3 Global, CCS Market, Cost Comparison of Technologies With and Without CCS 20
4.4 Global, CCS Market, Drivers and Restraints 22
4.4.1 Drivers 22
4.4.2 Restraints 23
4.5 Global, CCS Market, Key Initiatives 25
4.6 Global, CCS Market, Technology Adoption Roadmap 26
5 CCS, Key Countries 28
5.1 The US, CCS 28
5.1.1 The US, CCS, Country Overview 28
5.1.2 The US, Carbon Emissions 29
5.1.3 The US, CCS Market, Market Overview 30
5.1.4 The US, CCS Market, Potential Capacity and Revenue (2012-2030) 32
5.1.5 The US, CCS Market, Market Drivers and Restraints 34
5.2 Canada, CCS 37
5.2.1 Canada, Overview 37
5.2.2 Canada, Carbon Emissions 37
5.2.3 Canada, CCS Overview 39
5.2.4 Canada, CCS Market, Potential Capacity and Revenue Market (2012-2025) 40
5.2.5 Canada, CCS Market Dynamics 42
5.3 The UK, CCS 45
5.3.1 The UK, Overview 45
5.3.2 The UK, Carbon Emissions 45
5.3.3 The UK, CCS Overview 46
5.3.4 The UK, CCS Market, Potential Capacity and Revenue Market (2012-2025) 48
5.3.5 The UK, CCS Market Dynamics 49
5.4 Germany, CCS 52
5.4.1 Germany, Overview 52
5.4.2 Germany, Carbon Emissions 52
5.4.3 Germany, CCS, Overview 54
5.4.4 Germany, CCS Market, Potential Capacity and Revenue Market (2012-2025) 55
5.4.5 Germany, CCS Market Dynamics 57
5.5 Poland, CCS 60