Source: EURLEX
Language: en
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# 52011SC0780

**COMMISSION STAFF WORKING PAPER EXECUTIVE SUMMARY OF THE IMPACT ASSESSMENT /\* SEC/2011/0780 final - COD 2011/0172 \*/**

  

Europe can reduce
its primary energy use by 20% in 2020 simply by applying cost-effective energy
savings measures. This would make the EU's economy more competitive and create
jobs and new business opportunities. Energy efficiency also means better use of
energy resources and reduced import dependency. It means less CO2
and other harmful emissions, less impact on the ecosystem and better quality of
life for citizens. Achieving the 20% energy savings objective would in addition
help to realize the EU’s 2050 vision as outlined in the Low Carbon Roadmap 2050[1].

1.
Introduction and policy context

EU leaders have committed to reach the objective
of 20% primary energy savings in 2020 compared to a baseline[2]. This translates into a saving
of 368 million tons of oil equivalent (Mtoe) of primary energy (gross inland
consumption minus non-energy uses) by 2020 compared to projected consumption in
that year of 1842 Mtoe.

The Energy
Efficiency Action Plan (EEAP) of 2006[3]
was an important first step towards reaching the 20% objective but did
not aim at realizing the full economic potential. Despite the progress made in
its implementation a new impetus is needed to intensify the uptake of the
remaining potential. To this end a new Energy Efficiency Plan (EEP)[4] was adopted in 2011.

Some of the measures
outlined in the EEP need to be implemented through new legislative
proposal(s). These include the setting of clear political objectives;
development of the energy services market; increasing the role of the public
sector; improving consumers' awareness of their energy consumption; and
increased efficiency in energy supply. These measures are closely related to
the scope of two existing legal instruments: the Energy Services Directive
(ESD) and Cogeneration Directive (CHP Directive)[5].
However, the Directives' mid-term evaluation shows that in their current form
these will not be sufficient to reach the policy objective and thus their
revision is required. The purpose of this impact assessment (IA) is to
provide analytical input for the preparation of the Directives' revision.

2.
What is the problem?

The EU's 20% policy
objective for energy savings will not be met with present policies - and thus
the related benefits will not be realised. There is a remaining economic
potential in each sector (from energy transformation to energy use) but
important challenges still remain such as insufficient political commitment and
underdeveloped markets for energy efficiency improvements, low awareness of the
possibilities and insufficient of incentives for uptake of energy efficiency
improvements at demand and supply side.

3.
The EU has an important role

The EU's right to act as regards energy
efficiency and savings is instituted in the Treaty on the Functioning of the
European Union, Article 194(1). Although much responsibility rests with Member
States, the EU's right to act has been established because of the importance of
energy efficiency and savings for realizing the EU's climate change,
security of energy supply, competitiveness and environmental protection
objectives. Tackling these objectives requires coordinated action and coherent
energy efficiency and savings policy.

4.
Main policy objectives

The general EU policy objective on energy efficiency is to
save 20% of the EU's primary energy consumption, compared to projections for
2020. Because progress towards this objective is not satisfactory, the main
objective of this IA is to contribute to the closing of the gap by exploring
measures in all sectors with a remaining economic potential.

5.
Analytical approach

To establish the baseline
for each policy area the PRIMES general equilibrium model was used. To analyse
the detailed economic, social and environmental impact of the shortlisted
policy options the E3ME model was used. A variety of studies were used as
sources for the input data and assumptions used in modelling the individual
energy efficiency options.

In cases where modelling
was not possible bottom-up assessments and individual studies were used to
establish the possible impact of the options.

The selection of the
best options was based on the progress achieved by the existing policies and on
evaluation of the remaining barriers, the EU value added, possible impact,
effectiveness, efficiency and coherence.

6.
Options analyzed

Three levels of policy
options were considered in the analysis. The first level related to the need
for and form of national energy efficiency targets. A second level of analysis
related to the nature and impact of individual policy measures. Finally, as a
third level, the alternative legislative approaches were reviewed.

First-level policy options

A: National targets/objectives

A1: Retain the current approach

A2: Extend the indicative end use target of ESD to 2020

A3: Comprehensive indicative target for each Member State for 2020

A4: Binding target for each Member State for 2020

Second-level policy options

B: Energy Savings Obligation

B1: Retain the current approach

B2: Repeal the current ESD provisions without replacement

B3: Require all Member States to introduce energy saving obligations while leaving their design for determination by Member States

B4: As B3 but with harmonisation of key design features

C: Further measures to realise potential at the end-use stage

C1: Retain the current approach

C2: Energy saving measures for renovation of public buildings

C2a: Introduce 3% binding target for renovation of public buildings to cost-optimal levels

C2b: Introduce 3% binding target for renovation of public buildings to nearly zero energy levels

C2c: Establish a national financing and technical assistance infrastructure for renovation of public buildings.

C3: Obligatory use of energy efficiency as a criterion in public procurement

C4: Voluntary measures to promote energy efficiency via public procurement

C5: Enhanced obligations for smart metering and billing by energy companies

C6: Voluntary measures on metering and billing

C7: Mandatory energy audits and energy management systems for industry

C8: Voluntary systems to promote energy audits and the use of energy management systems in industry

C9: Obligations for Member States to promote energy service companies (ESCOs)

C10: Voluntary measures to promote ESCOs

D: Measures to realise potential at the stage of energy transformation and distribution

D1: Retain the current approach

D2: Removal of existing provisions

D3: Mandatory CHP and district heating/cooling requirement for new electricity and high-heat-demand industry installations

D4: Mandatory connection and priority access of high-efficiency cogeneration to the electricity grid

D5: Voluntary measures to promote CHP and district heating/cooling

D6: Minimum performance requirements for energy generation

D7: Energy efficiency obligation on energy network regulators

D8: Voluntary measures to increase the efficiency of energy transformation, transmission and distribution

E: National reporting

E1: Retain the current approach

E2: Require light form of reports

E3: Require detailed calculation of savings and evaluation of measures across the whole economy

E4: Reporting only in National Reform Programmes

E5: Combine reporting with other relevant instruments

Third-level policy options

1: Retain the two current Directives (ESD and CHP) as they stand today

2: Abolish the two current Directives without replacement

3: Propose two separate revised Directives and extend their scope

4: Merge the two Directives and extend the scope

5: Use Regulation legal instrument instead of Directive

7.
Conclusions: Preferred new policy framework
7.1.
Preferred Options

The analysis
concluded that there is no need to propose binding national targets at the
present moment. Even though such targets could signify the importance of
energy efficiency and raise it high on political agendas, individual measures
are the ones to make a real difference. Therefore, only indicative targets,
set by Member States, are recommended (Option A3). However, progress needs to
be monitored and evaluated. If an evaluation in 2013 shows that this approach
endangers reaching the overall European 20% energy efficiency target, a move
towards binding national targets needs to be made.

To replace the need
for a binding target but ensure the same results the following measures could
be brought forward.

The energy savings obligation (Option B4)
is a key to increase the uptake of energy efficiency measures and support the
development of energy services market. Thus it is suggested that national
energy saving obligation schemes are introduced which will aim at an annual
final energy reduction of 1.5%. It is appropriate for the obligation to be
placed by MS on their energy utilities (suppliers or distributors), since these
entities dispose of information about the energy consumption of their clients.
Certain key features of the obligation schemes should be harmonized at EU level
(e.g. level of ambition and counting methods), but MS should have the
possibility to adjust them to their national circumstances. This requirement
will put a financial value on energy savings and link the profits of utilities
to energy efficiency rather than solely to the volume of energy delivered. The
expected savings are considerable (108-118 Mtoe of primary energy savings in
2020) while the costs per individual are negligible and evenly distributed
amongst final energy consumers.

The public sector
could be an important actor in stimulating market transformation towards
more efficient products, buildings and services because of the high volume of
public spending and two measures are proposed. First, 3% of the buildings owned
by public bodies should be renovated annually to cost-optimal levels (Option
C2a). This would not lead to especially high energy savings (approx. 9 Mtoe)
but is taken forward as they have high visibility in public life. Even in cash
terms, the benefits of this option will outweigh the costs: additional energy
related investments of €1.6 bn per year between 2010 and 2020 will be offset by
savings on energy bills of €1.92 bn. Second, public bodies purchasing high
energy performance products and buildings based on the available energy labels
and certificates (Option C3) will drive the market forward. This would lead to
a direct impact of 9-18 Mtoe saved in 2020. It would require an initial
investment increase but would decrease the overall costs for public
organizations.

Information on
actual energy consumption provided to households
and companies on a frequent basis through their energy bills (Option C5) and on
the savings possibilities for large companies through energy audits (Option
C7) are both important for reducing the information gap that is one of the
barriers to efficiency. The analysis has shown that in both options the burden
for final consumers and companies would be relatively low compared to the
benefits they will gain. The possible savings of the two options are also
considerable and could reach up to some 90 Mtoe for Option C5 and up to 30 Mtoe
for Option C7. However, the scale of savings would depend on individual
reactions of consumers and the interaction between these measures and other
national measures that would incentivise the consumers to make use of the
information that will be made available to them.

ESCOs are an
important player that could take some of the burden
of the initial required investments in energy efficiency measures. However, even
in well established ESCO markets, transaction costs are too high for potential
customers to easily assess the available service offer. Therefore, it is
suggested that MS establish structures to carry out market monitoring,
providing lists of energy service offers and standard contracts (Option C9). To
this end, Member States could use the agencies already established to follow
energy efficiency policies and therefore this option would not pose a
significant administrative burden for them.

To
support more efficient energy generation, transmission and distribution
it is proposed that a number of regulatory measures be brought forward. These
include measures to ensure that surplus heat from power generation and
industrial processes and other waste-to-energy sources are used first to
satisfy heat demand in buildings and businesses and that primary energy fuel is
used more efficiently. This would be achieved by requirements to equip new
generation capacity and high-heat-demand industry installations with heat
recovery (CHP) units and to ensure their connection to consumers via district
heating/cooling networks (Option D3). Second, to reduce the administrative
burden and create a level playing field, it is essential to establish clear
connection rules and priority access to the electricity grid for high
efficiency cogeneration (Option D4). This would put CHP on equal footing with
renewable energy technologies.

In
addition, energy network regulators should be required to design tariffs and
network regulations that would enable energy efficient solutions and
technologies to be offered to consumers (Option D7). Since this would not bring
additional tasks for regulators, but would instead put a clear mandate to
prioritise energy efficiency among their tasks, the additional administrative
burden would not be significant. It is also proposed that the Commission
monitor progress as regards energy efficiency of electricity and heat
generation and if it is not sufficient, further measures should be proposed
after detailed analysis (Option D6bis).

To limit the
administrative burden whilst ensuring that proper monitoring of progress is
carried out, a light form of reporting is suggested (Option E2). This
approach would reduce the administrative burden by eliminating the most
expensive tasks: ex-ante and ex-post evaluations of single policy measures. It
is estimated that it would reduce costs to about half their present level.

The analysis of the third-level
policy options concluded that extending the scope of the ESD and CHP Directive
would be beneficial. Merging them into one legislative text would provide for
simplification and better coherence.

All the options
proposed are interlinked and mutually reinforcing. Only if combined in
one package can they bring the energy consumption reductions required at a
socially acceptable cost.

7.2.
Overall impact

The instrument mix
put forward will contain a number of overlaps and interactions. The modelling
of the whole package showed that primary energy demand in 2020 will be reduced
by between 19.7% and 20.9% compared to the PRIMES 2007 baseline projection
while final demand decreases by 15.6% to 19.5% in 2020. The sectors reducing
demand most are transport and residential. Reductions are substantial in the
tertiary sector, too, due to improved appliances and improved heating and
cooling. Generation efficiency also improves and some of the measrues to reduce
final energy demand lead to lower electricity consumption and thus lower
production.

Measures to achieve the 20% energy saving
target in 2020 will support the greenhouse gas reduction target, in particular
in non-ETS sectors. According to the Low Carbon Economy Roadmap 2050 the
achievement of the 20% EE and RES targets enables a 25% greenhouse gas emission
reduction. In this context, the Commission has said that it will monitor the
impact of new measures to implement the 20% energy efficiency target on the ETS[6].

Impacts on the ETS are presented in the
overall 20% efficiency model runs, albeit results differ substantially
depending on the model used. While both models project a further decrease in
GHG emissions, they show different results regarding the impact on the ETS
price: the E3ME model run projects a drop to zero of the ETS price in 2020
whereas the PRIMES scenarios project a much lower impact (a reduction from €16.5/t
to €14.2/t in 2020). This lower ETS price impact until 2020 in PRIMES is
explained among other things by a higher share of modelled measures with GHG
reductions materialising in non-ETS sectors, the full market foresight assumed and
an unlimited ETS banking flexibility until 2050 assumed. It is appropriate to monitor impacts of the proposed measures on the ETS.

Additional costs to
the total energy system rise by between 2.6% and 4.7% compared to the reference
scenario[7].
The increase in energy efficiency will tend to increase electricity prices in
the short term from 141€/MWh to 146€/MWh due to the need to finance the fixed
costs of energy efficiency measures[8].
However, in the long run, this increase pays off by stabilising electricity
prices through a lower demand.

It can therefore be
confirmed that the package of policy package put forward is capable of
reaching the 20% objective and reaping additional benefits that remain tangible
beyond 2020. The additional costs of achieving the overall 20% target
through the set of measures proposed are proportionately small. The overall
economic, social and environmental impacts of the options presented above will
make a strong positive contribution to EU policies and serve as a pillar for
the success of the Europe 2020 strategy.

[1]               COM(2011) 112

[2]               7224/1/07, REV 1, the baseline is PRIMES 2007

[3]               COM(2006)545

[4]               COM(2011) 109

[5]               2006/32/EC and 2004/8/EC respectively

[6]               COM(2011)112

[7]               PRIMES 20% reference scenario

[8]               Ibid 7

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