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Document 52014DC0654
COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT AND THE COUNCIL on the short term resilience of the European gas system Preparedness for a possible disruption of supplies from the East during the fall and winter of 2014/2015
COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT AND THE COUNCIL on the short term resilience of the European gas system Preparedness for a possible disruption of supplies from the East during the fall and winter of 2014/2015
COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT AND THE COUNCIL on the short term resilience of the European gas system Preparedness for a possible disruption of supplies from the East during the fall and winter of 2014/2015
/* COM/2014/0654 final */
COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT AND THE COUNCIL on the short term resilience of the European gas system Preparedness for a possible disruption of supplies from the East during the fall and winter of 2014/2015 /* COM/2014/0654 final */
1. Introduction
On 28 May 2014 the Commission adopted its European
Energy Security Strategy providing a comprehensive plan to strengthen our
security of energy supply.[1]
Against the background of the situation in Ukraine and the possible related
risk of a disruption in gas supplies to the EU, the Strategy encompassed
measures to be taken immediately in order to increase the EU's resilience to a
major gas disruption in the upcoming winter. As part of those immediate
measures, the European Council endorsed on 27 June 2014 the Commission's
proposal to launch a so-called stress test exercise with the purpose of
assessing the resilience of the European gas system to cope with a severe
disruption of gas supply to the EU this winter.[2] At
the beginning of July the Commission requested Member States, Energy Community
Contracting Parties and Georgia[3],
as well as Switzerland and Turkey to model the impact of various possible
disruption scenarios on gas deliveries in their countries this winter and to
describe measures in place to address supply shortages. The Commission also
requested Norway to inform of its ability to respond to such a disruption by
increasing its gas supply. The Commission proposed three "focus
groups" to specifically cover the
regions where the impact of the disruptions was likely to be most prominent.
These were the South East region of the EU (Bulgaria, Croatia, Greece, Hungary and Romania), the Baltic States and Finland and the Energy Community
Contracting Parties. National authorities
have worked hard over summer to collect the data and carry out assessments
within short deadlines and presented their national reports[4] to the
Commission in August and September 2014. The European Network of Transmission
System Operators for gas ('ENTSOG') has equally modelled the impact of supply
disruptions on the EU-wide gas system and several industry associations, the
International Energy Agency[5],
the G7 and other key partner countries have provided contributions as well. Methodology
and scenarios of "stress tests" The
scenarios proposed by the Commission to all participants in this exercise
covered the disruption of the Ukrainian gas transit route as well as all
Russian gas flows to Europe for periods of one month and six months (September
to February), supposing average winter conditions in each case. In addition, a
2-week February "cold spell" sub-scenario was also developed by
ENTSOG to cover the effect of peak demand on an already strained supply system.
These proposals were based on past experience and the need to put to the test
our energy systems under very demanding conditions, i.e. the disruption of all
the flows from Europe's main external supplier of natural gas. The
effects of the Ukraine transit or the full Russian supply disruption scenarios
on the South-East European countries, being supplied largely via Ukraine, is
very similar and the Baltic Member States and Finland are unaffected by the
modelled Ukraine transit disruption. Therefore the Commission refers throughout
the report mostly to the effects of the 6-month Russian gas disruption scenario
under normal winter conditions and a cold spell. This
exercise has already been very valuable insofar as this is the first time that
such a complete picture was provided on the possible impacts on and readiness
of the European gas sector as regards a possible serious gas supply disruption
from the East. In the present Communication, the Commission reports
on the main findings of this stress test exercise and formulates a number of
specific recommendations. In parallel to this Communication, the Commission
services have prepared staff working documents which contain the reports of the
three "focus groups", a report on the cooperation with G7 and other
partner countries as well as a report on the review of the Security
of Gas Supply Regulation[6].
In addition, the Commission is also adopting its
Recommendation for the application of internal market rules for the Energy
Community.
2. Results of the Stress Tests
2.1 Situation
of transit flows In parallel to the stress test exercise and starting
already in the spring of this year the European Commission has made
considerable efforts to broker a compromise solution between Ukraine and Russia
in their dispute over gas payments and debts with the aim of ensuring
sufficient deliveries of gas to Ukraine and stable transit to the EU and other
Energy Community Contracting Parties. Over the year a number of meetings have
been held between the European Commission, Ukrainian and Russian authorities,
including at ministerial level. At the last trilateral ministerial meeting on
26 September in Berlin the Parties came closer on key points of a compromise
proposal tabled by the Commission. This "winter package" is currently
under consultation in Moscow and Kiev and a next trilateral meeting is foreseen
ahead of the October European Council. An agreement would secure gas deliveries
to Ukraine throughout the winter. Overall the stability of Russian gas supplies to the EU and
transmission through Ukraine depends on many factors, of which only some are in
the EU's control. Hence, it is prudent to consider all possible scenarios
including major disruptions of gas supply. In this regard, the projections
detailed below should not be seen as a prognosis but merely as a possible
scenario and a basis for contingency measures. In
September and October 2014, flows of Russian gas to the EU were at times lower
than expected which, in the view of the Commission, is worrying. Notably,
during September reductions in Gazprom deliveries to a number of EU companies
have been reported, albeit these reductions have not had an adverse impact on
supply security in the EU or its neighbouring countries. Physical reverse flow
from Slovakia to Ukraine was stable. Reverse flows from Poland to Ukraine were temporarily interrupted for two days but resumed quickly. Furthermore,
deliveries from Hungary to Ukraine were indefinitely interrupted on 25
September due to larger volumes of gas entering Hungary en route to the storage
facilities. The Commission is closely monitoring the situation with the
cooperation of the Gas Coordination Group. 2.2 Europe's supply situation
in case of a disruption At the request of the Commission, ENTSOG has modelled various
supply disruption scenarios. The model shows that in the different six month
disruption scenarios the EU and the Energy Community Contracting Parties
without Ukraine would, after reshuffling the supply mix, altogether still be
missing between five and nine billion cubic meters (bcm) of gas[7].
It also shows – assuming maximized use of infrastructure and normal market
conditions[8] – that when such six-month
disruptions occur Russian volumes are replaced particularly through the import
of additional volumes of LNG.[9],[10]
Although ENTSOG has not modelled the price effects of the supply disruptions,
the need to replace volumes will be accompanied by price increases triggering
the import of significant additional volumes of LNG. It is those price signals,
to the extent allowed by the interconnection capacities or direct access to LNG
import facilities that move gas to markets where it is most needed for the
purposes of e.g. heating, electricity production. The higher prices will also
trigger intense storage withdrawals and voluntary demand reduction. The modelling exercise also shows which countries would be most
affected by the gas disruptions. Table 1 –
Missing gas volumes per affected country over 6-months period in Russian supply
cut and cold spell scenario (total shortfall in mcm and largest relative
monthly shortfall in %) Source: ENTSOG Figure 1 – Replacement of Russian gas in the 6-month Russian supply disruption
scenario Source: ENTSOG ENTSOG has modelled both a
"non-cooperative" and a "cooperative" scenario for the
purpose of this exercise.[11] The main differentiating feature between the two is that the
"cooperative" scenarios of ENTSOG presuppose the crucial element of equal
(relative) burden sharing by which solidarity
between Member States is applied to such an extent that shortfalls in gas are
spread equally between neighbouring Member States. By contrast, in the
"non-cooperative" scenario Member States would reduce or stop gas
exports between each other and to Energy Community Contracting Parties when
their domestic demand can no longer be fully satisfied. The "cooperative" scenario assumes that Ukraine and Moldova[12]
are continuously supplied with gas from Member States via at least Slovakia at full capacity while the "non-cooperative" scenario assumes exports at
50% of Slovak reverse flow capacity. In the absence of cooperation between Member States and of
additional national measures, serious
supply shortfalls of 40% or significantly more[13] could materialise, at least towards
the end of the 6-month disruption period, for Bulgaria, Romania, Serbia, the
former Yugoslav Republic of Macedonia and Bosnia and Herzegovina (in both
Ukraine transit and full Russian supply disruption scenarios). Shortfalls of
similar magnitude would apply for Lithuania, Estonia and Finland in the scenario of a total halt of Russian supplies to the EU. Hungary and Poland[14]
would also be substantially affected, albeit to a lesser degree, by shortfalls
of 30% and 20% respectively. The headline effects of the disruption can be seen
in Figure 2. In
the cooperative scenario the effects of the disruption are significantly
dampened in those Member States and Energy Community Contracting Parties most
affected and most particularly Bulgaria, Estonia, Bosnia and Herzegovina, the former Yugoslav Republic of Macedonia and Serbia. At the same time Greece and Latvia would likely also experience some non-negligible shortfall[15].
Based on their existing gas supply infrastructure and gas sourcing Member
States shaded in grey on the maps would, according to the simulation, not be
directly affected. Figure 2 –
Maps of likely supply interruptions – before further national measures –
in February at the end of the 6-month Russian gas supply disruption scenario in
cooperative and non-cooperative scenarios under average winter conditions[16] Cooperative Scenario || Non-cooperative scenario Source: ENTSOG Effects of a continued
supply disruption on Ukraine Ukraine is in a rather unique situation among the Contracting Parties of
the Energy Community. It developed transmission and storage capacities, albeit
in need of modernization, give Ukraine tools to address the challenge of a
supply disruption in a more differentiated way than other Contracting Parties. Ukraine normally consumes about 50bcm/year, of which about 20 bcm are domestically produced and most
of the rest imported from Russia. However, gas supplies from Russia for consumption in Ukraine have been halted since 16 June 2014. The stress test assessment
of Ukraine indicates that domestic production and storages can cover 50%-70% of
demand if demand response measures are applied. Imports from the EU would help
to partially cover the shortage of gas in the optimistic scenario foreseen by Ukraine[17]. An important step in this direction was the Slovakia-Ukraine
reverse flow, which became operational in early September and which can ship up
to 27 mcm of gas per day, two-thirds of which on a firm basis. A
hypothetical 2-week cold spell towards the end of the 6-month disruption would
certainly aggravate the security of supply situation. As can be seen in Figure
3, according to the ENTSOG model, here too a
cooperative scenario would allow shortfalls in the most affected countries to
decrease from the dramatic level that would result from an uncooperative
scenario. In the cooperative scenario other Central Eastern and Western
European Member States such as Austria, Czech Republic, (northern) Germany[18],
Italy and Slovakia would however also be affected as a result of gas flowing to
countries where the shortfalls are higher. Such shortfalls would, on the basis
of the model, be of a level below 10%. This is normally a level within which
price-induced (natural) demand reduction would take place without the need for
additional measures. Figure 3 – Maps
of likely supply interruptions – before further national measures – in
February at the end of the 6-month Russian gas supply disruption scenario in
cooperative and non-cooperative scenarios during a cold spell Cooperative Scenario || Non-cooperative scenario Source: ENTSOG Exposure
of the heating sector to gas a disruption Around half of the EU's primary energy consumption is used for space
and water heating in the residential and tertiary sectors and for process heat
in industry. Space and water heating in buildings is particularly gas-intensive
in Hungary, Italy, the Netherlands and the United Kingdom as shown in Figure 4 below. Figure 4 –
Member State distribution of end-use heat demand for space heating and hot
water preparation in residential and service sectors, by fuel type and energy
carrier. . Source: Stratego EU28 Heat Market
Assessment for year 2010 Most of the space and water heating (88%) in the EU is performed by
individual boilers for self-consumption while the share of district heating is
12%. This average however covers large differences as in the Northern, Baltic,
Central and Eastern European Member States district heat supplies between 14%
and 56% of the heat[19]
serving between 10% to nearly half of domestic consumers.[20]
On average, 44% of district heating runs on gas with a share of up to 80% in
the countries where district heating is well-established such as Latvia,
Lithuania, Slovakia, Bulgaria and Hungary. Consequently, in the Baltics and Finland, gas consumption in district heating and in combined heat and power plants
typically represents around 50% of total gas consumption. Gas-fired district-heating plants (unless
they have fuel-switching capabilities) and distributed heating customers are
generally regarded as protected customers[21]
and are the last ones in line to be affected by any possible supply cut. In
addition, many Member States have imposed fuel switching obligations to heating
plants although the share varies greatly from essentially 100% in Finland to below 20% in Romania and Bulgaria. 2.3 Assessment
of the measures proposed in the national reports As shown in the ENTSOG scenarios, Member
States would be impacted very differently by possible supply cuts of Russian
gas, depending on both their geographic location and gas sourcing options.
Those varying degrees of impact are also reflected in the measures which Member States and Energy Community Contracting Parties have listed in their stress test
reports to the Commission. While some of the most vulnerable countries may have
to resort to radical measures (such as supply curtailments or strategic stock
releases) rather quickly during the modelled period, other Member States allow
their gas sector operate on the basis of market fundamentals.
It is important to note that a calm, market-based
management of the supply crisis in Member States less affected will have an
overall beneficial effect for the whole EU and the Energy Community in
resolving the shortfalls. Figure 5 –
Overview of the count of different measures envisaged by Member States in their
reports supposing a 6-month cut of Ukrainian transit and of all Russian
supplies respectively.
Source: National Stress Test Reports 2.3.1 Storage Storage,
where available, is a key tool to balance the supply-demand situation in all Member States and Energy Community Contracting Parties[22].
As of early October, storage filling levels in the EU were very high at around
90%. Only two Member States (Hungary and Portugal) had storage levels under 80%
but, due to its large storage capacities, Hungary already has an above average
storage fill-to-demand ratio. Figure 6
– Storage levels (%) per Member State, storage fill as share of domestic demand
(%) and storage capacity as share of domestic demand (%), October 2014[23]
Source: GSE IGSA transparency platform and Eurogas;
Commission analysis Nevertheless, according to the figures provided in
the national reports and the ENTSOG analysis, a long-lasting crisis or simply a
cold winter could empty the storages quickly and thereby necessitate resorting
to other security of supply measures in order to ensure the supply of
customers. In assessing the various national plans on the use
of storages, a number of important observations are to be made. First, there is
little to no room to physically increase storage capacity in the short term.
Secondly, where countries rely on a short term increase in withdrawal rates –
unless measures are taken subsequently to avoid emptying storages too rapidly
–, these countries have to face the repercussions later in case the disruption
endures, including that withdrawal rates at low storage levels decrease
substantially. Filling storages beyond usual filling levels and
ensuring that the withdrawal pace has regard to the possibility of an enduring
winter period can prove to be important preparatory measures in the Member
States most exposed in the case of a crisis. Storage can be used to secure
supplies in more and less market-based ways. Several Member States have
implemented preventive measures to ensure security of supply in the form of
supply-related storage obligations (e.g. Bulgaria, Denmark, France, Italy, Poland, Portugal, Slovakia and Spain) and strategic storage (e.g. Hungary). Furthermore, some national plans, such as that of Hungary, foresee measures that
make it more attractive to fill storages by reducing the transmission tariffs,
which can account for a significant portion of the storage costs. Special care
should be taken that the perfectly legitimate activity of facilitating the
filling of storages – using often imported gas – does not come at the
(explicit) expense of cross-border transactions aimed at delivering gas out of
the country. 2.3.2 Replacing
missing volumes by ramping up domestic production or buying more gas from
another source An
obvious way to replace missing gas volumes from one source is to import from
another source or increase domestic production. In general there is little to no scope for increased
domestic EU gas production to have a significant effect in the short term, in
particular due to technical constraints in the systems. As
regards imports, the scope for additional deliveries through pipelines from North Africa is currently limited and Norwegian production is close to capacity. LNG is
clearly the import source with the biggest potential as LNG terminals in the EU
have sufficient capacity to allow new LNG volumes to be shipped in.[24] From
a commodity perspective, the global spot LNG market is large enough to provide
additional volumes and so is the shipping sector. In addition, recent drops in
Asian LNG prices have made LNG a more economic alternative for the EU.
Nevertheless, given that in times of disruptions and scarcity the price of LNG
will rise, acquiring spot cargoes may be expensive[25].
Moreover, it may require at least one week for a shipment to arrive in the
crisis area. 2.3.3 Using
the Demand Side Reducing
the need for gas will mitigate the impacts of a disruption. As a general
observation, a large majority of the national reports – particularly in the
most affected regions – have not assessed the effect of possible demand
reduction (from industrial customers or potentially gas-fired power generation)
resulting from price increases in case of a supply disruption. Demand with high
price elasticity – estimated in the range of 10% – is likely to leave the
market first by shutting off units on economic grounds or switching, in case
that is economic, to alternative fuels (biomass or oil). Market-based,
incentive-driven measures relating to the demand side have only been laid out
in very few national stress test reports and there is no experience of implementation
in the most affected countries. The ultimate demand-side tool in the hands of
authorities – which all of them are ready to make use of also in the light of
the provisions of the Security of Gas Supply Regulation – is curtailment
according to a set sequence of user groups. Such plans usually start with the
most flexible industrial users and end with the protected customers, mainly
households. As regards such demand side curtailment, the Commission notes that
many plans do not quantify or specify the exact effects of foreseen curtailment
measures on individual customer groups, resulting in some lack of clarity as to
the precise extent of possible consequences of a disruption for various
customer groups.[26] 2.3.4 Fuel
switching District
heating systems in many affected Member States run predominantly on gas. In
addition, the share of gas-fired power generation was at or above 25% in 2012
for Croatia, Greece, Hungary, Latvia and Lithuania.[27] An
increase in gas prices may result in some temporary fuel-switching driven by
economic considerations in a crisis situation. In addition, the national plans
of all countries faced with a likely supply cut foresee the possibility to
force fuel switching. Under such measures, users that have dual fuel
capabilities are generally required to switch. Member States have reported
obligations for the on-site stocking of alternative fuels (such as biomass or
oil) for a given – relatively short – number of days[28]. In
general, no serious logistics or supply-related problems were expected by
Member States as regards arranging for fuel-switching within the national
compulsory supply periods. Nevertheless long periods of disruptions and
corresponding switching durations remain untested. Where needed, use strategic
oil stocks can be used to fuel power plants and central heating units in line
with the legislation[29]. The Commission notes that in some Energy Community
countries, difficulties may arise due to a lack of oil and coal stocks
dedicated to heating. For example in Serbia, or in Bosnia and Herzegovina,
although one third of district heating plants are capable of switching from gas
to oil, the oil stocks would run out quickly. Also in the case of Moldova, a switch from gas to coal for the production of electricity might not be fully
possible when storage of coal is not ensured in due time. Several national reports mention the possibility of
a switch from gas consumption, in particular for heating purposes, to
electricity consumption, including using renewables (locally grown sustainable
biomass, heat pumps, etc.) and availing of the thermal storage possibilities in
district heating systems. Whilst electricity may be an effective measure to
alleviate gas shortages to a considerable extent, careful consideration must be
given to e.g. the role of gas-fired power generation facilities in the
provision of system reserves and balancing and the limits of the network to
cope with extraordinarily high demand sustained in time.[30] The
discussions between the Baltic States and Finland, as well as between other
countries such as Greece and Bulgaria, point towards cooperation and some joint
consideration of the interplay between the two sectors. Overall, however, the
national reports and the assessment done by the European Network of Transmission
System Operators for Electricity (ENTSO-E), on the basis of best-available
data, do not provide the necessary full view of the spill-over effects of a gas
disruption on the power sector. 2.3.4 Timing
of non-market-based measures Figure
7 below shows a Commission analysis of the potential
timing of the introduction of non-market-based measures throughout the 6-month
full Russian supply disruption period. Some of the differences – beyond
differences in levels of exposure – are likely also due to policy-level
decisions in Member States regarding the approach to a supply crisis. Some,
such as Czech Republic and Germany which, on the basis of the ENTSOG
"cooperative scenario" calculations, are likely to be affected to a
smaller degree only during a cold spell, are indicating the introduction of
non-market-based measures at a very early stage in a pre-emptive manner to
ensure supply to protected customers. Other differences are shown by the early
move to non-market-based measures by e.g. Greece and Croatia compared to an
apparent emphasis for market-based measures on the part of e.g. Bulgaria,
Hungary and Romania as long as possible. Furthermore, cross-reading these
national analyses with the ENTSOG maps of the areas and levels of affectation
in a supply crisis, it may be observed that, under the cooperative scenario,
the introduction of non-market-based measures can be significantly delayed.
This suggests scope for improving the overall situation on the basis of closer coordination. Figure 7 –
Chart of temporal introduction of national measures Source: National Reports, Commission analysis 3.
Conclusions 3.1 Assessment of Member State measures A prolonged supply disruption of the
Ukraine transmission route and a fortiori of all Russian gas supplies to
the EU will have a substantial impact in the EU, with the Eastern EU Member
States and the Energy Community countries being affected most. The national reports reveal two main weaknesses in the
EU's short term security of supply situation. First, several infrastructure
projects launched with the explicit purpose of increasing security of supply
after the 2009 supply crisis have – due to a variety of issues ranging from a
lack of political support to unsatisfactory project management and lack of
cross-border cooperation – not yet been (fully) commissioned.[31]
Second, many of the national security of supply strategies are either
unilateral in nature, insufficiently coordinated and/or insufficiently
cooperative. Overall this leads to a sub-optimal level of efficiency in dealing
with security of gas supply in the Union as will be further detailed below. The ENTSOG analysis shows that cooperation
based on optimized infrastructure use and relative burden-sharing ensures the
supply of protected customers in Member States and Energy Community Contracting
Parties as well as significant exports to Ukraine.[32]
Nevertheless, in addition to the optimization of domestic and cross-border gas
flows, Member States in the Baltic States, Finland, as well as in Central and
South-Eastern Europe and Energy Community Contracting Parties will need to
employ a broad array of additional measures to ensure that "unserved"
or missing gas to non-protected customers is kept to the minimum. As sourcing
of additional gas from possible national production, external sources or
storage has already been taken into account in the ENTSOG model, the most
likely next measure – in addition to other types of demand-side measures – is
price-induced or compulsory fuel switching. A good example is Finland, which at first sight may be the most vulnerable Member State with up to 100% unserved or
missing gas during the modelled disruption scenario of a 6-month Russian supply
cut. However, firstly the share of protected customers being supplied by gas is
minimal. Furthermore, due to its obligatory switching mechanism and high
alternative fuel stock obligation it would – with well-executed logistics – in
all likelihood be able to replace all the gas volumes without the need to
curtail demand. The most affected Baltic, Central and South East European Member States and Energy Community Contracting Parties[33] are
however very likely to have to undertake curtailment of non-protected
customers, particularly towards the end of the modelled period. All national reports present measures to
address a possible supply disruption. The sequencing of those measures is
important and it is crucial that the market functions as long as possible.
Where the market works, price signals will attract new deliveries of gas –
mainly LNG – to the EU and within the EU to those countries where scarcity is
highest provided that the necessary infrastructure exists. Price signals will
promote the commercial use of storage as a tool to ensure the demand-supply
balance and incentivize demand reduction and fuel switching driven by economic
considerations. Member States should not prevent gas to flow across borders. A
price increase is not a supply crisis and not a justification for intervening
in the market under the pretext of security of supply. This however does not release vulnerable
Member States from the obligation to design and sequence well the measures they
would resort to in preparing for and responding to an emergency. Vulnerable
countries too should exploit market based measures first and in full, but where
they are no longer sufficient, non-market based measures may have to be
resorted to when an emergency is declared. Where non-market based measures have
to be applied, it is very important that the least distortive and most
proportionate measures are applied before the more intrusive ones and that this
is done taking duly into account the effect of the measure across borders. 3.2 Need for increased cooperation
and coordination As mentioned, in general, the national reports are
more oriented towards national approaches rather than looking at the
regional dimension when conceiving security of supply strategies. Thus many
Member States have made assumptions in their national reports about the lack of
certainty of deliveries from certain borders prompting them to have recourse
equally to assumptions about no exports which weaken security of supply on a
broader regional and EU-wide scale. Cooperation is therefore key as, for instance,
in the Baltic region the position of the Inčukalns storage is so crucial that, if it
cannot rely on it, Estonia would run out of gas to even supply its protected
customers within five days. The lack of coordination is reflected in a number of
discrepancies in the measures indicated by different, often neighbouring,
Member States. Such discrepancies include either the inclusion in several plans
of the same external suppliers increased capacities or the different
assumptions of flows across shared interconnectors. This is clearly a harbinger
of inefficient outcomes, particularly in a crisis situation with tight markets,
and can lead to a false feeling of security. While it is clear that some
coordination has taken place before the stress test exercise and has been
further reinforced by new discussions, the comparative analysis of the reports
shows that there is still scope and a need for closer cross-border coordination
to ensure – as a basic objective – realistic assumptions as regards the
expected gas flows across the interconnection points. In the light of the above, it is evident that
cross-border cooperation must go beyond the mere cross-border consistency check
of national measures and be extended to include the identification of
cross-border synergies and agreeing on how to implement solidarity
measures. Such an approach would fundamentally result in efficiency gains, not
only in economic terms but also in terms of ensuring very short term security
of gas supply. There are examples of such cooperation between
Member States and the Commission welcomes those as an effective first step to
improve security of supply on a regional level. An example is the envisaged
agreement between Estonia and Lithuania on the basis of which the protected
customers of both countries will be served ahead of the non-protected customers
in either country. Another example can be found in the Hungarian-Croatian
Intergovernmental Agreement on security of supply, which, though it still needs
to be implemented, reflects a constructive approach towards cooperation.
Furthermore, cooperation can also manifest itself in the common use of
infrastructures, for example storages, or in the increased power generation in
a certain Member States to allow other Member States to use the thus freed-up
gas for the supply of protected customers. An interesting example in that
regard is the developing cooperation between Greece and Bulgaria which foresees an exchange of gas and electricity to stabilize both systems in the
case of a severe shortfall. An enhanced cooperative approach will require
agreements amongst the concerned parties on the organizational, commercial and
regulatory terms and conditions of cooperation in case of a crisis. In order to
build trust, clear rules need to be agreed beforehand at European or regional
level. It is possible that enhanced cross-border cooperation may not be fully
achieved in all aspects by the coming winter. Nevertheless, given the
heightened current risk, neighbouring Member States and countries should start
this process, or strengthen initiatives underway, immediately in order to come
to an understanding on the most fundamental information as well as individual
and joint actions during a possible crisis situation. Such arrangements,
including measures that can be implemented in case of need during next winter,
could be facilitated by the European Commission in order to conclude an
agreement in a relatively short period of time. Forms of cooperation need to kick in in order to
alleviate the gas shortfall in a Member State by ensuring and enabling
deliveries across the border, even if those deliveries would cause some
sacrifices in the “donor” country as well. In applying such a principle, the
coordinative role and security of supply responsibility of the TSOs need to be
fully harnessed, with the support of national energy regulators, so as to allow
them to provide flows to the neighbouring country even though they may not have
ensured full system functioning in their area of responsibility. This could
also be an opportunity to improve security of supply in the long-term through
regional partnerships. The Commission highlights in this context the
special role of Member States through the territory of which gas is flowing
towards markets further "downstream". As regards delivering supplies
to Central and South Eastern Europe Germany, Czech Republic, Austria, Slovakia, Hungary and Slovenia all have particularly important infrastructure in place
which needs to be used in an optimized manner already as a basis for a functioning
internal market. In addition, in a specific security of supply situation it
must also be ensured that these countries continue to allow gas to move to
markets where shortages are significant. It is clear however that this type of cooperation
cannot just be a one-way street. It should allow for an appropriate allocation
of costs of the measures necessary to cope with a crisis in the short but also
in the medium and long term. The concept that consumers in a country bear the
costs of the security of supply measures and should, consequently, enjoy higher
levels of protection has often constituted a barrier for the development of
cooperative schemes. Solidarity measures are not grants or gifts but
operational emergency response measures to which the beneficiary will
ultimately have to contribute. Solidarity that incentivizes free-rider
behaviour is not solidarity. In any event it would be inappropriate to regard
solidarity exclusively in a pure short term business context. Enhanced cooperation will not only deliver short
term tangible benefits for those Member States most exposed to the risk of
emergencies in the upcoming winter. It is in the common interest of all that
the introduction of the most far-reaching and radical measures – such as demand
curtailments, trade restrictions or the release of strategic stocks – is
delayed and reduced to the minimum, as these measures can undermine the
internal energy market on a long-lasting basis. That, in turn, may damage the
confidence of investors (e.g. in commercial storage) and reduce the
attractiveness of the EU market for external supplies from existing and new
sources. Approaches based on isolation and suspicions go against the solidarity
that is needed to create a true Energy Union. This however will also require
that the vulnerable Member States do the utmost to avoid an emergency situation
by undertaking steps discussed further in Chapter 4. 4. Recommendations Overall the EU energy policy seeks to complete the
internal energy market, increase energy efficiency, reduce greenhouse gas
emissions, diversify external supply sources and exploit indigenous sources;
all of which improve the EU's security of supply. The present report focusses
however on the specific recommendations that will ensure that the EU is better
prepared for and in a position to respond to a concrete risk of supply
disruptions from the East in the coming winter. 4.1 Urgent recommendations for the
upcoming winter The Commission has grouped the short-term
recommendations along three themes of i) making the market work ; ii) defining
clearly when the market stops working and when emergency measures are needed;
and iii) coordinating and cooperating both in emergency planning and possible
interventions. i) Making the market work in the short
term 1. Maximize
capacity on interconnectors and remove or resist restrictions to cross-border
trade Capacity
on interconnectors should be maximized and it should be ensured that this
maximal capacity is made available to the market, e.g. by applying effective
congestion management procedures[34]
and capacity allocation mechanisms[35]
without delay. In particular, export restrictions can have a detrimental effect
in case of a gas crisis. As evidenced by the analysis carried out by ENTSOG,
export restrictions can severely aggravate the damage of a gas crisis in the
most affected Member States and would increase the number of countries which
would face serious supply disruptions. The Commission recalls in this context
Article 11(5) of the Security of Gas Supply Regulation, according to which
"no measures [should be] introduced which unduly restrict the flow of
gas within the internal market" or which "are likely to
endanger seriously the gas supply situation in another Member State." The Commission encourages the swift implementation
of third party access rules to infrastructures (including storage) even in
those cases where derogations to the Third Energy Package have been granted,
such as for example in Latvia and Estonia. 2. Optimize
the use of storage Transparency on storage levels has greatly increased
over the past years and the Gas Storage Europe (GSE) platform is a commendable
initiative providing up-to-date information on nearly all EU storages. A last
ditch effort should be made by Romania (Romgaz) to publish its storage level
data[36],
including on the GSE platform. National regulators have tools at their disposal to
provide economic incentives to market players – e.g. through lowering
transmission tariffs for injecting gas in storage – to stimulate increased
injections. This has worked effectively lately in Hungary which has led to
solid growth in storage levels over the past weeks, even though storage levels
in Hungary remain somewhat below EU average.[37] Withdrawal patterns in storages are driven by
economics and not necessarily by a security of supply strategy, particularly if
the supply obligations are not properly enforced. Economic incentives may be
given to dissuade market players from having too fast a recourse to storage
when other gas sources such as LNG could be tapped as well. Such incentives, as
already used by the Danish TSO, could be in the form of ultimately socialized payments
to owners of gas in storage to keep their gas in storage instead of
withdrawing it. As a last resort and in duly justified
circumstances, in case such economic incentives
remain ineffective, introducing disincentivizing withdrawal tariffs for
storages or even outright withdrawal caps/limitations for various timeframes
throughout the winter may be considered. This should have the aim of ensuring a
more prudent emptying of storages especially during periods when markets across
the EU are less tight. However, it must be clear that any such tariffs or caps
need to be proportionate in view of security of supply risks and should not
aggravate the security of supply situation in neighbouring countries. 3. Ensure
that infrastructure projects are implemented on time The
Commission welcomes the forthcoming commissioning of the Klaipeda LNG terminal
in Lithuania. The existence of such infrastructure enabling supply
diversification is vital both in order to diversify supply but also to ensure a
more flexible gas network. Therefore it must be ensured that the commissioning
of projects scheduled for completion in the coming months is done without
delay. Specifically as regards the coming winter, these include the
Slovak-Hungarian interconnector (1 January 2015), the Świnoujście
LNG terminal in Poland (1 February 2015). Member States should inform the
Commission well in advance, specifying the reasons, if delays may be
encountered with a view to jointly identifying possible immediate actions that
would allow for the elimination or at least minimization of the delay. ii) Defining clearly when the market
stops working and when emergency measures are needed 4. Implement
the supply standard obligation laid down in the Security of Gas Supply
Regulation Gas suppliers should be encouraged to prepare
responsibly for various supply situations that could occur next winter.
Ensuring security of supply is about preparing well for a possible disruption –
this is a shared responsibility between public authorities and the industry.
The Security of Gas Supply Regulation contains a supply standard that should be
honoured, implemented and applied in practice. The European Commission will
facilitate the full implementation of all provisions of this Regulation.
However, it is for the national competent authorities to enforce the supply standard
obligation and to monitor whether suppliers have secured sufficient supplies
and flexibility options to supply their customers next winter under various
scenarios. If this is not the case, the national competent
authorities should recommend or impose, depending on the tools they have at
their disposal under national legislation, to procure additional gas or
flexibility options on a commercial basis. As pointed out above, the
possibility of additional pipeline gas to the EU is limited and some Member
States have limited access to alternative pipeline sources other than Russian.
Therefore LNG is the key alternative to increase supplies in case of serious
shortfalls. However, in view of commercial and operational considerations,
procuring LNG spot cargoes expediently during a crisis can be both expensive
and require some time. Therefore additional volumes of gas in storage or
contracting some form of "LNG insurance", e.g. in the form of LNG
purchase options, can greatly reduce corporate exposure by hedging both price
and operational risk. Consideration may also be given to ways in which LNG
purchases by market players can be executed in times of severe supply
disruptions in a manner that – while staying true to market principle – does
not further significantly deteriorate the economic situation in a given
country. Such clearly circumscribed, dedicated cooperative agreements could be
envisaged with other major LNG importers such as Japan. 5. For
countries which have an increased supply standard, put in place measures to
temporarily reduce it in case of regional or Union emergency The Security of Gas Supply Regulation
establishes an obligation on Member States to ensure the supply of protected
customers under a series of demanding circumstances. However, it also obliges
Member States to identify how any increased supply standard or additional
obligation imposed on natural gas undertakings beyond those demanding
circumstances may be temporarily reduced, in a spirit of solidarity, in the
case of a Union or regional emergency. Any such temporary reduction could free
up certain amounts of gas, which otherwise would not necessarily be used,
thereby increasing liquidity in the market and possibly alleviating gas
shortages in other regions. The analysis of the Preventive Action Plans and
Emergency plans[38]
shows that some Member States have already put in place detailed provisions for
the application of such a reduction. The Commission will work with those that
have not to agree on the appropriate measures. 6. Maximize
fuel switching potential and ensure operational implementation Fuel switching capabilities are a key element in
preventing and overcoming supply disruptions. While Finland for instance is
completely dependent on Russian gas and cannot be supplied with gas from any
other source, it has put in place measures to ensure a very broad obligation as
regards fuel switching providing a sustainable alternative. The national
reports have shown that the fuel switching potential is very different between Member States and the Energy Community Contracting Parties. Given that Member States
already plan[39]
to switch approximately 10% of their heating needs to renewables, these plans
should be advanced using the European Social and Investment Fund, and
benefitting from the experience already gained. National competent authorities
should ensure that all administrative and operational measures are in place
that would facilitate large-scale fuel-switching to take place, particularly in
district heating systems, including the testing of facilities to ensure they
can effectively switch fuel. Given that this currently concerns largely oil, it
is crucial to ensure that the logistical aspects of such a (possibly sustained)
switch en masse are planned for ahead, including the possible use of strategic
oil stocks under certain circumstances. The same goes for switching to biomass. In industry, Combined Heat and Power (CHP) units can
also be switched off and their production replaced by the heat-only boilers
that most industrial CHP plants have as back-up capacity, provided that the
electricity produced from CHP can be replaced with electricity from the grid,
and that such replacement is financially interesting. 7. Implement
short-term energy efficiency and demand moderation measures Achieving
an appreciable level of demand reduction by encouraging users to decrease room
temperatures or assisting them in undertaking other energy-saving measures can
be effective to reduce a supply gap. Public campaigns to that effect have
proven effective to absorb, at least in part, sudden supply shortages in the
electricity sector following the Fukushima accident in Japan and the explosion of the Vasilikos power plant in Cyprus. Readily-available measures which can
be implemented quickly and bear low upfront investment costs include e.g.
draught proofing, fitting radiator reflector panels and pipe lagging. These
measures can be implemented through various means, including energy provider
obligations under the EU Energy Efficiency Directive. In industry, energy demand
can be optimised in the short term through the introduction of energy audits
and the implementation of energy management schemes. 8. Specify
the role of the TSO in emergency situations and ensure that this role is
well-understood by the TSO It should be considered whether it may be necessary
to vest the TSO with additional responsibilities, under the supervision of the
national regulatory authorities, so as to allow it to go beyond the mere
network-centric monitoring of the supply-demand balance and undertake broader
preventive or reactive actions to ensure operational security of supply. These
actions could possibly involve the TSO carrying out purchases of gas under
specific, clearly defined circumstances as well as contracting transportation
to its market area and possibly contracting storage capacities. Such a system
exists for example in the Netherlands where the TSO is mandated to have gas in
storage and release it in case the temperature drops below a certain level. TSOs having such roles on a national level must
coordinate effectively across borders. It must moreover be absolutely ensured
that the role of the TSO is precisely circumscribed and explicitly limited to
well defined circumstances of market failure. The public service function which
would in this case be imposed on the TSO should not breach the fundamental
market design feature of the EU internal energy market that TSOs should not be
an active participant in the commodity trading or supply market. iii) Coordinating and cooperating both in
emergency planning and possible interventions 9. Need
to further develop regional cooperation on security of gas supply In
principle all countries should closely coordinate and cooperate with their
peers across the border either to establish interconnections or to ensure that
those interconnections can be efficiently used for the benefit of both sides.
In certain cases – for instance as regards Greece and Bulgaria – such
cooperation should be even broader in view of addressing the possible specific
security of supply risk of respective shortages of gas and electricity that
could be alleviated by an agreement. Furthermore, regional cooperation may also
focus on ensuring supplies to protected customers such is envisioned between Lithuania and Estonia. Regional cooperation may also relate to the use of storages in the case of
emergency. Consideration may also be given to ways in which LNG
purchases by market players can be executed in times of severe supply
disruptions in a manner that – while staying true to market principles – does
not further significantly deteriorate the economic situation in a given
country. Such clearly circumscribed, dedicated cooperative agreements could be
developed within the EU but could also be envisaged with other major LNG
importers, such as Japan. 10. Need
for more transparency TSOs
and national regulatory authorities but also Member States should strive for
the highest level of transparency in their actions vis-á-vis each other, stakeholders
and the general public. In an interconnected network and in the process of
completing the internal market, actions by one Member State or country (or its
market players) have repercussions on other markets. In a situation of
heightened tensions such as the one we are experiencing currently, all actions
may be interpreted in a political light. It is therefore crucial that such
actions are explained to allay concerns and build trust. 11. Commission’s
continued monitoring role and the use of the Gas Coordination Group The Gas Coordination Group was created in 2004[40]
although it was substantially reinforced by the Security of Gas Supply
Regulation. In the past years it has become a valuable platform for the
exchange of information and discussions on security of gas supply. This, in
turn, has contributed to increased transparency and the building of trust among
all its members. The Commission intends to closely monitor the
security of supply situation in close cooperation with national competent
authorities. It will continue to convene regular Gas Coordination Group
meetings to exchange with Member States and stakeholders on the matter and will
also use emergency meetings of the Gas Coordination Group to share information
and discuss measures taken in the case of possible or actual supply
disruptions. The Commission will also coordinate action and ensure that
emergency is declared and non-market based measures are implemented in
accordance with the Security of Gas Supply Regulation. Furthermore, as the analysis of the effects of the
gas disruption on the electricity sector has been so far inconclusive, the Gas
Coordination Group should, with the assistance of ENTSOG and ENTSO-E, follow-up
on this matter to determine likely spill-over effects. 12. Cooperation
with non-EU countries The European Commission invited key international
energy partners to provide contributions to this Report, particularly any
observations or suggestions with respect to the potential flexibility for
additional supplies of gas. These partners included the non-EU members of the
G7 as well as Norway, Switzerland, Turkey and the International Energy Agency
(IEA). The Commission further invites these key external energy partners,
including those with LNG export capacities and potential as well as those
importing LNG, to continue the cooperation that has started with this Report,
also in the context of the G7 and the IEA. 4.2 Medium term measures (by end
2015) 13. Commission’s
Recommendation on application of internal energy market rules between the EU
Member States and the Energy Community Contracting Parties Closer
cooperation of authorities and consistent application of the EU internal market
legislation on the borders between the Contracting Parties and the EU Member
States are elements that could improve the security of supply deficits in the
Contracting Parties and the EU Member States. Positive examples include the
solutions found around the reverse flow from Slovakia to Ukraine. Consistent application of the Third Package internal market legislation is a
fundament on which cross-border cooperation can further be developed. In order to facilitate such cooperation with a
formal act, the Commission will issue a Recommendation to the EU Member States
to cooperate with the Contracting Parties in application of the Third Package
and on questions of security of supply. The Commission stresses however that in
the absence of functioning gas markets and lack the of implementation of the
Third Package on the side of the Contracting Parties, the recommendations of
the EU will not replace the necessary negotiations to take place between the EU
Member States and the Contracting Parties in the region on how to use common
infrastructure and on which terms it can be used in case of a crisis. 14. Speed
up the commissioning and implementing of key Projects of common Interests or
Projects of Energy Community Interest All
necessary measures should be taken to speed up and, where applicable, avoid
further delays in implementing key infrastructure projects which are deemed to
be of crucial importance from a security of supply point of view[41].
These include for instance the Romanian-Bulgarian interconnector, the
Greek-Bulgarian, Bulgarian-Serbian interconnector and the Romanian-Moldovan
interconnector which the Commission selected on the basis of clear and
proximate commissioning dates. These projects should be taken forward swiftly
and completed by end 2015. The Commission will follow up such projects and also
stands ready to facilitate any outstanding negotiations between parties with a
view to push forward all these project towards an expedited completion. 15. Re-evaluation
of physical reverse flow exemptions Physical
reverse flows allow Member States to be truly connected flexibly with each
other. Often such investments are relatively minor but have a significant
impact on the security of supply of an entire region, as demonstrated by the
investment of in reverse flow on the Yamal-pipeline on the German-Polish border
and more recently on the Slovak-Ukrainian border. Member States should work
together to reassess whether the circumstances under which exemptions were
requested for a physical reverse flow project have not changed particularly in
light of the heightened security of supply situation as well as the fact that
many Member States have lately significantly benefited from the additional
trading and supply options such new trajectories offer. This is particularly
the case for the reverse flow capability of some major trunk gas pipelines
running today only from the East to the West (Obergailbach, Waidhaus and the
BBL interconnector between Netherlands and the UK) as well as for the
interconnector between Austria and Hungary. 16. Fuel
switching through district heating and cogeneration in the residential/tertiary
and industry sectors District
heating networks provides technological flexibility, as they can be run on many
and multiple supply sources. Networks built on natural gas can be switched to
alternative sources, such as biomass, waste heat, cogeneration, solar and
geothermal, heat pumps, municipal waste, etc. The transitions can be
implemented in 1-2 years, depending on the specific size and capacity
requirements. Where district heating systems already
exist but do not connect all buildings in the area, the expansion of those
systems, replacing gas supply to individual gas boilers, can be a
cost-effective way to switch to local renewable and other low carbon sources. Switching industrial Combined Heat and Power (CHP)
plants and medium-size CHP in the tertiary sector (hospitals, shopping malls,
office complexes) to renewable or low carbon supply sources can be implemented
in 1-2 years' time, depending on the specific size and capacity requirements.
Industries with large
heat requirements (e.g. pulp and paper) that are auto-producers, based on gas-fired
CHP or/and heat-only boilers, could also invest in flexibility to store heat or
switch between heating based on gas and heating based on electricity. This
would be profitable if it would be flexible enough to benefit from low prices
in times of excess (renewable) electricity production. 17. Heat
demand reduction in industry and energy transformation Industry and the energy transformation sector
(generation, distribution) have large potential for energy efficiency measures that
reduce demand at low cost with short (less than 2 years) pay-back time, for
example by better process-monitoring and control, preventative maintenance.
Identifying the short-term low or zero cost energy efficiency improvement
potentials requires speeding up the implementation of energy audits or energy
management systems under the Energy Efficiency Directive in the energy
intensive industries. 5. Next steps Experience with the application of the Security of
Gas Supply Regulation indicates clear improvements in the EU security of supply
situation since 2009 but also further margins for strengthening the EU's
regulatory framework. As stated in its European Energy Security Strategy of 28
May 2014, the Commission will review existing mechanisms to safeguard security
of energy supply and propose their reinforcement, where necessary. In parallel the Commission intends to (continue to)
work together with specific (groups of) Member States in order to develop
solutions to issues that were identified as potential risk factors in the
course of this stress test exercise. Consequently the Commission intends to pursue the
above recommendations via two separate work streams. Firstly, it intends to set
up – together with ACER and ENTSOs – permanent monitoring of the implementation
of the short-term recommendations and provide – where necessary – assistance in
facilitating or driving forwards projects and discussions. Furthermore, it will
continue working with Member States, the European Parliament and stakeholders
to define the key objectives of security of electricity and gas supply for the
EU in the years to come. [1] Communication from
the Commission to the European Parliament and the Council, 'European Energy
Security Strategy', COM/2014/0330 final. http://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:52014DC0330&from=EN [2] European Council
Conclusions of 27 June 2014, EUCO 79/14 http://www.consilium.europa.eu/uedocs/cms_Data/docs/pressdata/en/ec/143478.pdf [3] The Contracting
Parties are the Republic of Albania, Bosnia and Herzegovina, the former Yugoslav Republic of Macedonia, Republic of Moldova, the Republic of Montenegro, the Republic of Serbia, Ukraine and The United Nations Interim Administration Mission in Kosovo
pursuant to the United Nations Security Council Resolution 1244. The Republic of Georgia is an Accession Candidate to the Energy Community. [4] National
reports were replaced by a joint report for the three Baltics States and Finland. [5] The IEA has provided
a comprehensive analysis of the LNG market. [6] Regulation (EU) No
994/2010 of the European Parliament and of the Council of 20 October 2010
concerning measures to safeguard security of gas supply and repealing Council
Directive 2004/67/EC, OJ 2010 L 295/1. [7] This is roughly equal
to 1-2% of annual EU consumption. [8] It should be noted
that these premises are in reality unfortunately not always fulfilled. [9] LNG in the supply mix
would increase in the most extreme scenario by 130% from 24 bcm to 56 bcm. [10] Importantly,
according to the ENTSOG analysis, increasing the capacity of the OPAL pipeline
(which is one of the extensions of the Nord Stream pipeline, running from
Greifswald in northern Germany to Brandov on the German-Czech border) to 100%
from its current 50% will not have an effect of reducing the missing gas
volumes in the Eastern Member States due to existing infrastructure constraints
towards the east. The effect of increasing the capacity to 100% will be limited
to replacing LNG volumes in Western Europe. [11] In its report to the
Commission ENTSOG refers to these two scenarios as "optimal" and
"sub-optimal". [12] In the case of Moldova, ENTSOG's
assumption of deliveries notwithstanding, commercial and regulatory (licencing)
issues prevent the Iasi-Ungheni interconnector from Romania to Moldova from operating even though it has been officially opened and is technically
functioning. Therefore, unless the issue is resolved and subject to a
disruption happening there will be a 100% shortage of gas in Moldova. [13]
Up to 100% [14] Poland is only
affected in the total Russian supply disruption scenario. [15] The position of those
two Member States is affected by the "cooperative scenario" because
both are surrounded by Member States with a very high exposure to a supply
disruption but themselves have infrastructure – storage in Latvia and LNG
regasification terminal in Greece – which provides them a buffer. In allowing
such infrastructure to be shared their supply-demand balance changes. [16] Both maps illustrate
the effects in February of a 6-month Russian supply disruption. Any national
measures relating to e.g. demand response, obligatory switching, etc. take this
likely deficit as a starting point. Consequently Member States appearing to be
without options from a pure gas network infrastructure point of view – as is
the case in Finland –, may have recourse to other specific national measures
such as the elaborate system of obligatory switching in place for gas-fired
power generation and heating units. [17] Such a scenario
foresees in particular full capacity reverse flow from Slovakia, Hungary and Poland as well as reductions in district heating and industrial consumption. [18] The so-called
NetConnect Germany market area. [19] In Sweden, Denmark and Slovakia this percentage for example is, 56%, 53% and 54%, respectively, in Finland is 47%. In Romania, Bulgaria, Slovenia and Austria this share is between 14% and
19%. [20] In Sweden, Denmark, Finland, Latvia, Lithuania, Poland and Slovakia more than 40% of domestic consumers have their home
heated by district heating. District heating supplies heat for 10% to 40% of consumers in Germany, Austria, Hungary, Slovenia, Bulgaria, Croatia, Romania and the Czech Republic. [21]
The Security of Gas Supply Regulation
established a category of so-called protected customers which includes
households and, when the Member States so decides, essential social
services and SMEs, within a certain limit, and district heating
installations that cannot switch fuels and that deliver heat to other protected
customers. [22] Nota bene, storage
use has generally been considered in a national context. [23] By now essentially
only Gazprom Export and Romanian storage system operators are not reporting
storage levels to the Gas Storage Europe AGSI transparency site. [24] Altogether EU
regasification capacity stands at around 200 bcm/year but most of it is
concentrated on the Mediterranean and Atlantic coast. Consequently
interconnection constraints limit many individual LNG terminals' ability to
supply every region of disruption. [25] The IEA estimates
that prices may rise by up to 100%. [26] It is worth pointing
to a specific plan of Ukraine which, in order to reduce domestic demand,
envisages the introduction of a new law requiring consumption to be cut by
20-30%, mostly by reducing demand of district heating, households and chemical
industry and by introducing measures in the public sector. Although such cuts
are enforceable, the impacts on consumers are difficult to predict. [27] Gas use for power
generation has decreased over the past years however due to low or negative
profit margins compared particularly to coal-based electricity production. [28] Typically the
stocking obligations are around 5 to 15 days. Finland is a notable exception
with fuel stocking obligations of up to 5 months. [29] Directive 2009/119/EC of 14 September 2009 imposing an
obligation on Member States to maintain minimum stocks of crude oil and/or
petroleum products [30] E.g. it is unclear to
what extent in some states in the Balkan region an extensive switch to
electricity in conjunction with the effects of floods of spring 2014 and the
decrease in supply of gas to thermal power plants will cause serious
electricity supply deficits. These concerns have not been examined in detail in
the national reports. [31]
These include in particular the Greek-Bulgarian, Romanian-Bulgarian,
Bulgarian-Serbian, Moldavian-Romanian and Hungarian-Slovakian interconnectors
as well as the Romanian reverse flow project. Furthermore, some interconnectors
are not yet able to physically pump gas bi-directionally and therefore limit
the overall flexibility of the system. [32] Supply shortfalls
will in all likelihood not be large enough to reach protected customers. In the
"non-cooperation" scenario protected customers are particularly
endangered in Bosnia and Herzegovina and the former Yugoslav Republic of
Macedonia and curtailment of non-protected customers is likely to be markedly
higher in other affected countries as well. [33] Estonia, Lithuania,
Latvia, Poland, Hungary, Romania Bulgaria, Greece, Bosnia and Herzegovina, the
former Yugoslav Republic of Macedonia and Serbia. [34] Pursuant to
Commission Decision 2012/490/EU on amending Annex I to Regulation (EC)
No 715/2009 [35] Pursuant to
Commission Regulation (EU) No 984/2013. Valuable early implementations
notwithstanding, this Regulation is to be implemented by 1 November 2015. [36] In
line with Article 19.4 of the Regulation (EC) No 715/2009 on conditions for
access to the natural gas transmission networks. [37] At the same time the
additional storage injection coming from increased Russian gas imports through Ukraine has brought with it the suspension of exports to Ukraine which is a lamentable consequence. [38] According to the Security of Gas
Supply Regulation,
Member States must establish a Preventive Action Plan, to remove or mitigate
the risks identified, and an Emergency Plan with the measures to remove or
mitigate the impact of a gas disruption. [39] C.f. National
renewable energy action plans [40] Pursuant to Directive 2004/67 [41] See projects
specifically enumerated in the Commission's European Energy Security Strategy
Communication, page 23 and 24 Annex 1: Specific recommendations
for most affected Member States Member State || Exposure[1] || SPECIFIC RECOMMENDATIONS Estonia || 204 mcm 100% || Ensure the political support necessary to reach key agreements on joint emergency measures covering sensitive issues such as the volumes of gas to be shared and its market destination. Adopt swiftly a joint Emergency Plan and a joint Preventive Action Plan. Finalise an agreement with Lithuania before December for the supply of protected customers in case of an emergency from Klaipeda LNG terminal. Consider increasing the level of stocks for fuel switching to ensure installations can continue to operate during an emergency while new alternative fuel deliveries arrive. Explore market solutions, such as interruptible contracts to deal with or alleviate gas needs in case of a disruption. Ensure third party access to the gas system despite the derogation from the Third Energy Package. Ensure clear political will to accelerate investments in infrastructures such as the Balticonnector (Estonia-Finland interconnector) and the Regional LNG terminal. Latvia || 39 mcm 15% || Ensure the political support necessary to reach key agreements on joint emergency measures covering sensitive issues such as the volumes of gas to be shared and its market destination. Adopt swiftly a joint Emergency Plan and a joint Preventive Action Plan. Ensure third party access to Incukalns storage facility and to the Latvian gas transport system, despite the derogation from the Third Energy Package. Consider market-based solutions as well as demand side measures to mitigate the impacts of a crisis. Revise the definition of protected customers to align it with other Member States in the region and with Regulation (EU) 994/2010. Lithuania || 693 mcm 59% || Ensure the political support necessary to reach key agreements on joint emergency measures covering sensitive issues such as the volumes of gas to be shared and its market destination. Adopt swiftly a joint Emergency Plan and a joint Preventive Action Plan. Consider increasing the level of stocks for fuel switching to ensure installations can continue to operate during an emergency while new alternative fuel deliveries arrive. Continue the work on the upgrade of the Klaipeda-Kursenai pipeline to allow for an enhanced use of Klaipeda LNG terminal. Finland || 2255 mcm 100% || Ensure the political support necessary to reach key agreements on joint emergency measures covering sensitive issues such as the volumes of gas to be shared and its market destination. Adopt swiftly a joint Emergency Plan and a joint Preventive Action Plan. Ensure the feasibility of fuel switching during emergencies by removing possible obstacles affecting the replacement of stocks, notably as regards logistics. Ensure clear political will to accelerate investments in infrastructures such as the Balticconnector (Estonia-Finland interconnector) and the Regional LNG terminal. Continue the work on the development of the local LNG terminals (Turku, Pori, Tornio). Bulgaria || 670 mcm 100% || Sign electricity-gas emergency exchange MoU with Greece focusing on balance of interest. Consider similar electricity-gas exchange with Turkey. Contingency plan with cogeneration and heating sector and industry on large-scale switching. Finalize Romania-Bulgaria interconnector Commit to enable gas flows to the former Yugoslav Republic of Macedonia Increase gas sector transparency and expedite implementation of internal market rules affecting trade. As a last resort, European Commission to consider short-term special derogation from environmental legislation to Varna coal-fired power plant. Greece || 109 mcm 18% || Sign electricity-gas emergency exchange MoU with Bulgaria focusing on balance of interest. Contingency plan with cogeneration and heating sector and industry on large-scale switching. Develop economic security of supply contingency plan. Consider agreement with Turkey to secure gas supplies also in case of a supply disruption. Romania || 1361 mcm 31% || Define protected customers in line with Security of Gas supply Regulation Finalize Romania-Bulgaria interconnector Cooperate with Moldova on conditions under which gas supplies on main network can take place Investigate Romanian system options to increase throughput of Hungary-Romania interconnector Publication of storage data by Romgaz on Gas Storage Europe transparency platform Hungary || 2170 mcm 35% || Increase transparency in the energy sector Commitment to resolve testing-related issues on Slovakia-Hungary pipeline allowing commissioning in 1 January 2015 Agreement with bordering countries allowing full use (receipt and sending of gas) of interconnectors under market conditions and on the basis of solidarity principle in a security of supply emergency. In this regard, implement expediently security of supply-related aspects of intergovernmental agreement with Croatia enabling also reverse flows into Hungary Croatia || 41 mcm 12% || Reassess high share of protected customers Implement expediently security of supply-related aspects of intergovernmental agreement with Hungary enabling also reverse flows into that country Annex 2: Specific recommendations
for Energy Community Contracting Parties Contracting Parties || Exposure || SPECIFIC RECOMMENDATIONS Bosnia and Herzegovina || 139 100% || Increase the heating oil stocks to allow switching of heat production from gas by the end of November 2014. Apply a limited definition of protected customers and allow for market opening at national level for electricity and gas markets most importantly for non-household customers by the end of November 2014. Tackle major reform of gas sector on national level allowing third party access to all entities and unbundling of operators leading to flexible use of infrastructure by January 2015. Engage in cooperation with Serbia and Hungary on drafting and implementation of technical provisions to operate the third party access regime on existing pipelines in a coordinated way. Start consultations in November 2014. former Yugoslav Republic of Macedonia || 126 100% || Since the direct consumption of gas by households is marginal, ensure that the supply of heating oil on market terms is ensured to allow for fuel switching (November 2014). Prepare for each individual industrial plant gas consumption reduction plans that could be applied in terms of emergency. (November 2014). With high share of consumption by the industry it is crucial to introduce definition of protected customers for gas that is limited to households and most sensitive sectors (such as public administration) only and to allow for full market opening at national level for electricity and gas markets for at least non-household consumers (January 2015). Moldova || N/A || Establish in details the potential for demand side measures (reduction of consumption a switching to oil for heating and to electricity) at the level of individual companies as well as in the households sector and the public administration. Include this in the Action Plan under preparation by November 2014. Issue all necessary permits and licenses needed to operate the pipeline Iasi – Ungheni between Romania and Moldova, apply non-discriminatory gas tariffs for imports from Romania. Complete these actions by November 2014. Undertake the necessary construction works on connecting infrastructure to distribute gas from the interconnector in the territory of Moldova urgently. Cooperate with Ukraine and Romania on conditions on which Ukraine and Romania would be ready to supply Moldova from the main pipeline networks. Request Ukraine regarding conditions to access and use of the storage capacity at Bogorodchany in West-Ukraine. Start consultations in November 2014. Serbia || 631 64% || Establish exact and realistic scope of potential curtailments for industrial sectors whilst limiting the group of protected customers to households and most sensitive sectors only (by end of November 2014). Implement unbundling and ensure effective third party access to unused capacities on the existing pipelines and the gas storages in line with the detailed provisions of the Third Package by January 2015. Coordinate with Hungary and Bosnia and Herzegovina on drafting and implementation of technical provisions to operate the third party access regime in a coordinated way. Start consultations in November 2014. Take all necessary steps to start the construction of the Bulgaria-Serbia interconnector to make it operational in 2015. Ukraine || 5000 mcm[2] || Find a mutually satisfactory agreement for resumption of supply of Russian gas to Ukraine over the winter period on the basis of the proposal for an "interim winter package" which the Commission has made in the on-going trilateral talks (by October 2014). Urgently increase fuel stocks in the country while exploring all possible means to increase gas supplies from indigenous sources as well as imports (by November 2014). Examine the full potential for demand-side measures as well as fuel switching both for district heating, in the different industrial sectors as well as by households and in the public administration as part of the National Energy Contingency Plan. (by October 2014). Review and update all emergency procedures in the different energy sectors, taking account of the specific threats for the upcoming winter, in line with the recommendations of the National Energy Emergency Plan (by October 2014). Continue urgently with the reforms of the gas sector including opening of the gas and electricity markets, operation of the pipelines and storages and unbundling (by January 2015). Montenegro, Kosovo* and Albania || N/A || In view of the lack of gas in the energy balance of Montenegro, Kosovo* and Albania, the impact of a gas supply disruption can be only indirect – by an increase in the demand for electricity at a regional level. The Commission recommends monitoring of the situation of supply and demand of electricity closely. [1] Missing gas volumes
per affected country over 6-months period in Russian supply cut and cold spell
scenario (total shortfall in mcm and largest relative monthly shortfall in %) [2] Exposure according to own
assessment in national report