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# 52013DC0456

**REPORT FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT AND THE COUNCIL Concerning Article 8a of Directive 98/70/EC relating to the quality of petrol and diesel fuels and amending Council Directive 93/12/EEC /\* COM/2013/0456 final \*/**

  

REPORT FROM THE COMMISSION TO THE
EUROPEAN PARLIAMENT AND THE COUNCIL

Concerning Article 8a of Directive
98/70/EC relating to the quality of petrol and diesel fuels and amending
Council Directive 93/12/EEC

1.           Introduction

Article 8a of Directive 98/70/EC (the
“Directive”) requires the Commission to report its conclusions, on the
development of a test methodology to assess the risks for health and the
environment from the use of metallic additives in fuels, to the European
Parliament and the Council.

Metallic fuel additives (“MFA”) are substances
intentionally added to fuel (petrol, diesel and biodiesel) to improve its
performance[1].
These additives eventually enter the environment since their metallic portion
is not degraded during any stage of their production or use. Thus, they can
become a source of exposure for humans and/or biota throughout their life
cycle. This creates a possible impact on health and the environment[2] [3].
This potential impact justifies their regulation through the adoption of limit
values based on the precautionary principle.

The Directive contains a current limit value
for methylcyclopentadienyl manganese tricarbonyl (“MMT”) of 6mg of manganese
per litre. This value will become 2mg of manganese per litre from 1 January
2014. This limit value may be revised, through a Comitology procedure, on the
basis of an assessment carried out following the test methodology referred to
in this report.

2.           Assessment of potential risks for health
and environment of mfa

There is a potential impact on health and the
environment by the use of MFA in fuel. This impact is affected by several
factors: the type of MFA; the level of concentration; the level and duration of
the exposure; and the pathway for this exposure. The metallic components of MFA could be a hazard for both humans and the environment due to their
intrinsic reactivity, toxicity and their possible capacity to accumulate within
living organisms.

If a substance is considered hazardous to human
health and the environment it would have to be assessed and labelled in
accordance with the requirements of Regulation (EC) No
1272/2008 on the classification, labelling and packaging of hazardous
substances and mixtures (“CLP Regulation”), prior to its
placing on the market.

Possible sources of
emissions linked to MFA

Emissions of MFA may enter the environment
during any stage of their life-cycle from production to disposal. Such
emissions can result in the direct or indirect exposure of humans and biota to the
MFA, their related emitted compounds or their transformational products and, as
such, contribute to the possible risk these substances may raise for human
health and the environment.

To assess the potential impacts of MFA on the
compounds produced during vehicle fuel combustion and/or remaining in the
exhaust it is necessary to compare the emissions produced with and without using
MFA. In this context, the Commission’s Joint Research Centre has developed a
test protocol[4]
for monitoring and calculating the emission data with regard to MFA, focusing on
the use stage of their life-cycle. In this protocol, measurements are made at the
tailpipe and the emissions are compared for fuel containing MFA with the same
fuel without the MFA. The test protocol includes an EU representative car fleet
and does not contain predefined pass or fail criteria. The protocol aims to:

·
evaluate the short-term effects of MFA on
regulated emissions (namely HC, CO, NOx, PM, PN and CO2);

·
measure the mass of the metallic emissions
produced by the combustion of the fuel containing MFA[5], and determine the speciation
of the combustion products as well as particle size distribution of
particle-bound metals; and

·
evaluate the effects of MFA on the long-term
emission performance of the vehicle's engine and emission control system.

This test protocol is an integral part of the
methodology and its use is a mandatory part of the overall assessment of the
risks for the environment and health of MFA.

Possible exposure
pathways

The predominant routes of possible exposure
throughout the life-cycle of MFA are:

·
at the research and development, manufacturing
and storage steps;

·
in marketing, distribution and transport;

·
at the point of use; and,

·
from the environment in general.

It is expected that occupational exposure would
occur mainly at the first two steps in the life-cycle and exposure by the
general public would be largely confined to the final stage. Exposure would
come from oral or dermal routes with inhalation being one of the main pathways
for humans.

Results and implications

In the past health concerns associated with MFA
(such as lead) have led to the phasing out of their use. It is apparent that
MFA have metallic components which could in themselves be a hazard for both
humans and the environment due to their intrinsic reactivity, toxicity and
their possible capacity to accumulate within living organisms.

New substances are being developed for which the
available health and environmental data are limited and little is known about their eco-toxicity and toxicity. Determination
of their toxicity[6]
and eco-toxicity is a prerequisite to assessing their actual impacts on the
environment and health. Hence there is a need to develop a test methodology.

3.           Test methodology

The purpose of the methodology is to assess the
risks for health and the environment from the use of MFA. It is intended to be
sufficiently generic so as to apply any MFA. Prior to the assessment a holistic
approach for evaluating the environmental implications of various choices among
chemicals, products and technologies may be needed to prioritise efforts and to
provide input to risk managers to enable better targeted decisions. Such a
meta-assessment is shown below:

Example of holistic approach for risk
assessment of chemicals
adapted from U.S. EPA (2011)

The development of the methodology recognised that
there are existing methods and processes like for example REACH and the CLP
Regulation in place. REACH already proposes guidance to assess the risks posed
by chemical substances, so the methodology should be consistent with this
already existing approach. However there is the necessity to assess specific risks
for health and the environment from the use of MFA. Consequently the
methodology summarised in the figure below, is an adaptation of this framework for
the specificities of MFA.

Further details are as follows:

Characteristic of emissions during the
life-cycle

Emissions can take place throughout the
life-cycle of the MFA and the purpose of this step is to provide guidance on
the estimation of emissions to the environment (i.e. into water, soil and the
air) of MFA including combusted compounds and transformation products in the
use phase. The Commission’s Joint Research Centre test protocol is required for
the vehicle use step.

Full details of the test protocol can be found
on the Commission’s website:

http://ec.europa.eu/clima/policies/transport/fuel/docs/fuel\_metallic\_additive\_protocol\_en.pdf

Hazard assessment

The objective of this step is collect
qualitative and quantitative information on possible hazards to humans and the
environment of MFA, emitted compounds and transformational products.

Exposure assessment

The exposure assessment is the process of
measuring or estimating the dose or the concentration of the substance to which
humans and the environment are, or may be, exposed depending on the use of the
substance. The exposure assessment would be performed in two steps: the
development of exposure scenarios and the estimation of the exposure for both
humans and the environment.

Risk characterisation

The risk characterisation has to be performed
by comparing the expected levels of exposure to the predicted no effect levels
from the hazard assessment for both humans and the environment. The
ratio between the exposure and no effect levels will provide a rough measure of
the risk and an indication of (a) whether a more refined risk assessment is
needed and/or (b) whether or not steps to reduce or manage risks are appropriate.

Risk management

In the case of MFA risk management is typically
a process of finding a balance between the benefits and risks of the
substances. Given that this methodology calls for a comparative evaluation of
fuels formulated with and without a given MFA the information afforded to risk
managers should enable them to judge better the risk/reward trade-offs of MFA
in relative terms since risk management is inherently a matter of making
choices between different options.

Full details of the methodology[7] can be found on the
Commission’s website:

http://ec.europa.eu/clima/policies/transport/fuel/docs/bio\_report\_en.pdf

Application of methodology

The Commission notes that the methodology envisages
that any interested party applying the methodology will establish an advisory
board comprising members recognized as impartial and
objective authorities in various technical disciplines, including fields such
as vehicle and fuels technology, exposure analysis, health and ecological
effects, and risk assessment/management “to assist in and advise during the
preparation and performance of the assessment.” While the Commission does not
have a legal basis to require or regulate such advisory boards it does
recognise that such an advisory board can contribute to
ensuring that the result of the assessment can withstand scientific scrutiny,
be credible, reproducible and be established in a transparent manner. Accordingly,
the Commission stands ready to provide advice regarding the composition of an
advisory board when requested.

4.           Conclusion

It is apparent that there is a potential impact
on health and the environment by the use of MFA. In order to assess this impact
a methodology has been developed to be employed by any party interested in the
establishment or revision of limit values for MFA in the Directive.

The Commission will monitor the application of
this methodology and will take all appropriate initiatives.

[1]               This is dependent on many other factors
such as engine compression, other constituents of fuels, etc.

[2]               HEI
Special Committee on Emerging Technologies (2011) The Future of Vehicle Fuels
and Technologies: Anticipating Health Benefits and Challenges. Communication 16
– Health effect institute. Boston, Massachusetts. p.26.

[3]               International Council on Clean Transportation (2008)
Strategic Plan 2009-2011.

[4]               Joint Research Center (2011) Protocol for the evaluation
of effects of Metallic Fuel Additives on the emissions performance of vehicles.

[5]               Emission measurements should
be carried out according to the European type approval procedure: “The exhaust
gases are diluted and a proportional sample is collected in one or more bags.
The exhaust gases contained in the bag(s) shall be analysed as soon as possible
after the end of the test cycle”. The procedure is described in UNECE
Regulation 83, revision 4, 26 April 2011: “Uniform provisions concerning the
approval of vehicles with regard to the emissions of pollutants according to
engine fuel requirements”.

[6]               If a substance/mixture fulfils the criteria relating
to physical, health or environmental hazards, it shall be classified before
placing them on the market (Article 3 CLP). In so doing, manufacturers have to
make use of all available information, including information from related
substances that can be used. Furthermore, suppliers of hazardous substances
shall ensure that the substance/mixture is labelled and packaged according to the
CLP (Article 4 CLP). Finally, irrespective of their tonnage, substances or
mixtures classified as hazardous shall be notified by the suppliers to the
Classification and Labelling Inventory of the European Chemicals Agency (Articles
39-42 CLP).

[7]               Report prepared by BIO
Intelligence Service for the European Commission: Development of a risk
assessment for health and the environment from the use of metallic additives
and a test methodology for that purpose.

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