ICO2N: Two New Studies Confirm the Potential and the Economics of Carbon Capture and Storage as a Key Tool to Reduce

  CALGARY, ALBERTA, Nov 09 (MARKET WIRE) -- 
The Integrated CO2 Network (ICO2N) today announced the results of two
important studies examining the potential of carbon capture and storage
(CCS) to make significant contributions to reducing greenhouse gas (GHG)
emissions.

    One study, by the Delphi Group, is an update to a report they undertook
in December 2007, and was commissioned by ICO2N. It looks at the
potential supply, timing and cost of GHG reductions in Canada from a
variety of alternatives, and concludes that CCS has the most significant
potential for annual reductions, closely followed by nuclear, wind power
and vehicle fuel efficiency improvements.

    The ICO2N study involves an integrated analysis of what an entire CCS
system could look like, and is one of the most detailed studies of
large-scale, multiple project CCS deployment anywhere in the world.

    "Reducing greenhouse gas emissions is not about a single tool that will
solve climate change issues - there will be many tools and we need to
move quickly to grow new technologies like CCS to achieve its potential
for 2020," stated Eric Beynon, ICO2N Director of Strategy & Policy.
"These two reports show that CCS can contribute significantly and is an
important part of Canada's suite of greenhouse gas reduction options.
They also show that the economics of CCS are complex and more expensive
than originally thought, and close cooperation between industry and
government is needed in CCS design, funding and policies to support this
transformative environmental initiative." 

    A number of key trends emerged from the Delphi Group report:

    - The suite of CO2 reduction alternatives available will need to be
pursued.

    - CCS will be expensive in the early stages of development and will take
commitment by industry and government to bring this important technology
into place in Canada: however, CCS is cost-competitive with other GHG
reduction options such as solar and vehicle efficiency.

    - CCS is important in terms of the volume of CO2 reductions available,
its economic competitiveness with other GHG reduction options, and its
importance to the economic fabric of Canada.

    The ICO2N study demonstrates that large-scale reductions of CO2 are
feasible in the near term, starting from 2015, but the economic gap to
produce significant capture volumes must be addressed. Since there is not
yet a commercial solution there is need for government and industry to
work together to share risks and rewards to enable deployment of CCS.

    "The world is still highly dependant on fossil fuels and will likely
remain so for some time," said Mr. Beynon. "However, CCS offers
low-carbon use of fossil fuels by capturing and storing CO2. This will
allow time for transition to a future low-carbon energy system. To
stabilize and ultimately reduce emissions of this greenhouse gas, it will
be necessary to employ new technologies such as CCS to capture carbon
dioxide and other greenhouse gas emissions before they are released into
the atmosphere. New technology is always expensive, but Canada is well
positioned to lead the way on CCS development with significant CO2
reduction impact. It also affords an opportunity to ensure the ongoing
competitiveness of our resource intensive industries in an
environmentally responsible manner.

    "It's also important to recognize that although large-scale commercial
projects have yet to be built, carbon capture and storage is not a new or
untested idea," added Mr. Beynon. "CCS is a technically viable and
environmentally safe means of reducing greenhouse gases. There are many
CCS projects of varying sizes already under way around the world, and
underground storage of CO2 has been underway for more than a third of a
century in the United States. In addition, as the ICO2N study points out,
in Canada, the geological formations being considered as likely
candidates for long-term CO2 storage - namely depleted oil and gas
reservoirs and deep geological sequestration sites - have already proven
safe for storing other gases and liquids. These same formations have
trapped crude oil and natural gas underground for hundreds of millions of
years."

    An integrated carbon capture and storage system in Canada would provide
safe, significant CO2 reductions and both the Delphi Group and ICO2N
studies confirm that the time to develop CCS in Canada is now.

    Copies of the studies are available on the ICO2N and Delphi Group
websites, at www.ico2n.com and www.delphi.ca. Additional information
about CCS and ICO2N is also available at the ICO2N website.

    Integrated CO2 Network 

    ICO2N is an alliance of 17 of Canada's largest industrial companies who
support the development of an integrated system for the capture,
transport, distribution and storage of carbon dioxide, as one of the key
tools for meeting greenhouse gas reduction targets for Canada. 

    More information on ICO2N can be found at www.ico2n.com.

    The Delphi Group

    The Delphi Group is an Ottawa-based consulting firm helping organizations
and companies navigate the complex areas of corporate sustainability and
greenhouse gas/clean air management. For more than two decades, the
Delphi Group has consistently proven that environmentally and socially
responsible business practices can be financially viable, enhancing a
company's long-term operational strength, competitiveness and profits. 

    More information on the Delphi Group can be found at www.delphi.ca.

Contacts:
Integrated CO2 Network
Eric Beynon
Director, Strategy & Policy
(403) 269-6285
ebeynon@ico2n.com
www.ico2n.com

The Delphi Group
Mike Gerbis
CEO
(613) 562-2005
mgerbis@delphi.ca
www.delphi.ca

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