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市場調査レポート
ユーティリティ企業の炭素削減戦略
Utility Carbon Reduction Strategies to Drive Commercial Success
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当商品の販売は、2011年07月19日を持ちまして終了しました。
Abstract
Overview
Introduction
Changes in political and public mindsets means European power utilities now
face a future where continued high levels of carbon emissions are socially and
financially untenable. Given the unmistakable drivers for the energy industry
to reduce its carbon emissions, European utilities are increasingly challenged
with having to rapidly enact successful long-term carbon reduction strategies.
Scope
- Cost forecasts for the six major European utilities should EC support for
100 % auctioning of allowances for the power sector from 2013 prevail.
- Insight into the various competitive, consumer demand and regulatory
forces driving the development of European utility carbon reduction strategies.
- Data concerning the comparative effectiveness of different mitigation
strategies across the major European utilities since the turn of the century.
- Marginal carbon abatement potentials of the six most significant existing
and emerging power generation technologies in Europe.
Highlights
Regulation, competition and consumer demand are driving power retailers and
generators to develop successful carbon reduction strategies. European
utilities must address the need for long-term successful carbon abatement
strategies or face prohibitively high compliance costs under a broadening
EU-ETS carbon cap-and-trade mechanism.
The most appropriate long-term carbon abatement strategy for a power generator
varies from utility to utility and country to country. In the UK and Germany,
the few generators with low coal dependency will favor a switch to more energy
efficient generation, yet the bulk of all generators will seek to leverage
carbon capture and storage.
Since the turn of the century, European utility carbon mitigation strategies
have yielded very different results. Today, the same utilities rely
increasingly on emerging technologies with wide-ranging and rapidly improving
abatement potentials which could reduce power sector emissions by up to 35% by
2030, at a marginal cost lower than EUR40/tCO2e.
Reasons to Purchase
- Assess the likely carbon compliance costs faced by EDF, Centrica,
Iberdrola, E.ON, Vattenfall and RWE based on a range of carbon price scenarios.
- Determine which strategies the largest UK and German national power
providers are likely to adopt based on each country' s generation capacity mix.
- Rapidly benchmark the relative availability and marginal abatement
potential of the six principal carbon mitigation technologies and options.
Table of Contents
- DATAMONITOR VIEW
- ANALYSIS
- Regulations to reduce carbon emissions span the entire energy value
chain, with an impact on consumers and retailers, but mostly electricity
generators
- Regulation, competition and consumer demand are driving power
retailers and generators to develop carbon reduction strategies
- Current EC support for 100% auctioning of allowances for the power
sector from 2013 would hit Europe' s largest utilities hard
- In the next decade, greater demand for power and higher carbon prices
will lead to prohibitively high compliance costs for utilities
- The most appropriate long-term carbon abatement strategy varies from
utility to utility and country to country in line with the generator' s
current mix and the relative cost of abatement
- In the UK, coal power generation accounts for a comparatively large
share of each generators' mix, except for Centrica and BE
- In the UK, generators with low coal dependency will favor a switch to
more energy-efficient generation; others will focus more on CCS
- Large coal-dependant and carbon-intensive power generation bases are
widespread in Germany
- The prime carbon mitigation strategy for coal-intensive German
utilities will focus on CCS and renewable power generation
- European utilities increasingly rely on emerging technologies with
considerable, wide-ranging and improving abatement potential
- Since the turn of the century, different mitigation strategies across
the major European utilities have yielded very different results
- Today, power utility carbon abatement strategies can rely on three
main building blocks underpinned by emerging technologies
- Six abatement options could decrease power sector emissions by up to
35% by 2030, at a marginal cost of less than &euro40/tCO2e
- Power generation technologies at different degrees of commercial
maturity currently present varying marginal abatement potentials
- APPENDIX
- Glossary
- Ask the analyst
- Datamonitor consulting
- Disclaimer
- List of Figures
- Figure 1: Three main drivers are forcing power retailers and power
generators to develop long-term successful carbon mitigation strategies
- Figure 2: By 2013, Europe' s largest utilities could face annual carbon
compliance costs ranging from &euro90m to &euro5.5bn*, if unhedged
- Figure 3: A 2017 carbon allowance compliance cost forecast* shows that
utilities must develop robust carbon reduction strategies or face
significant profit erosion and competitive displacement
- Figure 4: CCS and other more efficient power generating technologies do
not necessarily deliver the greatest marginal abatement potential
- Figure 5: Retailers with a comparatively low carbon intensity will
derive higher marginal abatement through ' softer' strategies focusing on
demand side management (DSM)
- Figure 7: Large historical coal-fired generation bases in Germany put
utilities at the ' dirty' end of the carbon intensity spectrum
- Figure 7: German power generators will derive higher marginal abatement
through the use of large-scale capital-intensive technology deployment
strategies (e.g. CCS and energy efficiency)
- Figure 8: carbon intensity of power generation is expected to evolve
differently Across the major European utilities owing to differing power
generation profiles
- Figure 9: Carbon mitigation strategies vary with the utility' s position
within the value chain, its relative exposure to current and future carbon
regulation, and the options and technologies at its disposal to facilitate
the transition to a lower carbon intensity at the lowest marginal cost.
- Figure 10: For utilities, there are six main abatement options with a
marginal cost below &euro40 per tonne
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