E-PRTR - spatial mapping of diffuse emission sources project

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Transcript E-PRTR - spatial mapping of diffuse emission sources project 

E-PRTR – spatial mapping of diffuse
emission sources project
Jochen Theloke, Thomas Gauger, Balendra
Thiruchittampalam, Melinda Uzbasich
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
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Legal basis: article 8 of E-PRTR Regulation
Article 8
Releases from diffuse sources
1. The COM, assisted by the EEA, shall include in E-PRTR information on releases
from diffuse sources where such information exists and has already been reported
by MS.
2. The information referred to in par. 1 shall be organised such as to allow users to
search for and identify releases of pollutants from diffuse sources according to an
adequate geographical disaggregation and shall include information on the type of
methodology used to derive the information.
3. Where COM determines that no data on the releases from diffuse sources exist, it
shall take measures to initiate reporting on releases of relevant pollutants from one
or more diffuse sources in accordance with the procedure referred to in Article
19(2), using internationally approved methodologies where appropriate.
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
ETC/ACC (2007)
TFEIP-Meeting 10-12 May 2010
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Previous studies
2006
DG ENV Study: Pilot inventory of releases from diffuse sources (air + water)
http://www.bipro.de/__prtr/sub/purpose_scope.htm
2007
EEA Feasibility Study on releases from diffuse sources in E-PRTR
•
•
Water releases
Air releases
~ 2009
DG JRC EDGAR project (v4.0)
http://edgar.jrc.ec.europa.eu/
• Dataset with a detailed overview of air emissions from 1970-2005, global scope
• Methodological findings useful for E-PRTR
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
EEA’s Study: some ideas taken into account
• Main challenges
•
Source definition: need to link Annex I of E-PRTR Regulation with
the categorizations of the available Datasets (NFR)
•
Inconsistencies between E-PRTR and national inventories:
sometimes emission reported in EPER exceeds the emissions as
reported in national inventories significantly for a number of
Member States
•
Resources: sometimes data are not fully available or the cost of
gathering these data is high (specially in the case of proxy data)
•
Methodology: further work needed to compile a fully operational
methodology
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
Contract on diffuse emissions
2010 Contract on Diffuse Emissions to air on the basis of already
reported information under various reporting obligations
• Steering committee JRC (IES), EEA and DG ENV
• Link point sources data and national totals (e. g. CLRTAP)
• Improvement by EDGAR proxies
• EMEP layers for key air pollutants re-projected and adapted to E-PRTR
map tools (50km X 50km)
• Develop a methodology to grid emissions per sector (Transport,
Domestic heating, Agriculture,..)
TFEIP-Meeting 10-12 May 2010
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Aim of the project
1) Gathering of available data on diffuse releases to air for
● NOx, SO2, PM10, CO and CO2 emissions released by
 Transport (on-road, shipping, domestic aviation)
 Stationary combustion sources, which are not covered by
Annex 1
 Industrial releases from activities which are not covered by the
E-PRTR regulation (Annex 1 and 2)
● NH3, PM10 emission from agriculture activities
● Underlying proxy data to be used for gridding diffuse emissions for
each pollutant and each sector
2) Methodology development for gridding emission data
3) Derive gridded emission map layers covering EU27 + EFTA for
selected sectors and pollutants with as a minimum a 5x5 km
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Tasks
1) Methodology development
●
Methodology to incorporate EMEP grids for integration into the EPRTR website
●
Methodology for disaggregating the National totals to EDGAR level
of resolution
●
Methodology for gridding the industrial releases not covered by EPRTR => Development of a subtraction methodology
●
Development of a methodology for disaggregating national total
emissions to a higher resolution of at least 5x5 km.
2) Data Gathering
●
Emissions (NOx, SO2, PM10, NH3, CO, CO2)
●
Proxy data compilation
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Tasks
3) Data processing and gridding
i.
Creating a comprehensive set of databases to store original data
(spatial and non-spatial), incl. meta data description, intermediate
derived data and final data sets
ii. Compiling of gridded emission maps with metadata based on
INSPIRE-compliant templates
4) Public Accessibility of the outcomes of the project

Make public of emission maps compiled in task through the EPRTR web-interface (not in ToR of this project)
● Dissemination document
● Preparing of short text for each layer
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Subtraction methodology
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Inconsistencies for NOx: CLRTAP vs. E-PRTR (sum over all
countries)
1200
1000
800
In [kt]
600
400
200
0
-200
-400
-600
Energy
industries
Production
and
processing of
metals
Mineral
industry
Chemical
industry
Waste and
Paper and
waste water
wood
management production
processing
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Intensive
Animal and
livestock
vegetable
production products from
and
the food and
aquaculture
be
Jochen Theloke
Other
activities
Subtraction methodology
ETC/ACC (2007)
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Remaining NOX diffuse emissions in relation to the
national total of sectors with point sources
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Methodology for spatial distribution
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Methodology for spatial resolution
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P
Point
Source
18
19
20
(x, y)
 20,P = 1
 i,P
share of cell i on
emissions of point source P
Methodology of the spatial distribution
Zell-ID
5
6
7
Spatial Distribution of Calculated Emissions
Line
Point
Source
Source
18
18
PS
a(x,
y)
n}
Zell-ID
Zell-ID
5
5
6
6
7
7
18
18
19
19
20
20
a'
A'
A
aA'''''
1 , ... , P n }
{S{P
1 , ... , S n }
AreaArea
Source
(considering
Source
land use)
Zell-ID
Zell-ID
F
6
6
7
7
18
18
19
19
20
20
Zell-ID
Zell-ID
F
Area Source
(considering
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A'
LA' ''
A '''
LA'' ''''
5
5
6
6
18
19
 i,P
 i,P
E
s
a
a''
L '''
7
7
 20,P
share of cell
i on= 1
emissions of line source S
share of cell
emission
of Si on
emissions
of point
source
length
of road
section
a P
length of section a'' in cell 6
Es
E
F
a
A
a''
A'
share of
of cell
cell ii on
on
share
emissions
of
line
emissions of areasource
sourceSF
emission
of
S
emission of F
length
of road
total
area
of F section a
length
section
a'' in19
cell 6
area
ofof
part
A' in cell
 20,F
= E=F E
*L'/(L'+L'')
 19,F
F *A'/A
E FF
L
A
L'
A'
L''
share of cell i on
emissions of area source F
emission of F
urban
areaof F
total area
urban
cell19
20
area ofarea
partof
A'Finincell
urban area of F in cell 7
 20,F = E
20
L'
S *a''/a
6,S =
19,F
=E
E SF*a''/a
*A'/A
 i,F
i,F
n}
n
10-12 May 2010
 6,S = E
 i,P

i,F
A ''
aA'''''''
5
5
A
L
{S 11 , ... , S
a '''
a ''
FS
a
20
20
a'
{P 1 , ... , P
Line
Area
Source
19
19
 i,F
F *L'/(L'+L'')
Source: Wickert 2001
share of cell i on
emissions of area source F
Jochen Theloke
Overview proxy data
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Distribution parameters for Germany
Point sources
Line sources
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Area sources
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Methodology of the spatial distribution
●
Visualisation of line sources
Streets
Railways
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Rivers
Jochen Theloke
Methodology of the spatial distribution
●
Visualisation of polygon sources
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Jochen Theloke
Results - Examples
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PM 10 in 0.01° x 0.01° Resolution for the year 2020
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Member state Involvement
• Questionnaire to the Member states
• Overview about existing proxies on national level
• Overview about existing spatial data sets on national
level
• Taking into account addtional info from the MS
Response from 13 (of 31) Countries
=> Deadline 30 april 2010
• Workshop with the Member states (5 October)
• Presentation of the methodology
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
Response received
Country
yes
Austria
X
Belgium
X
Bulgaria
X
Cyprus
Czech Republic
X
Denmark
X
Finland
France
Germany
Greece
Hungary
X
Iceland
Ireland
Italy
X
Liechtenstein
Luxemburg
Malta
Netherlands
X
Norway
Poland
Portugal
Romania
X
Slovakia
Slovenia
Spain
Sweden
X
Switzerland
UK
X
Estonia
X
Lithuania
X
Latvia
Sum
13
No
Responses from the Member states
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
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TFEIP-Meeting 10-12 May 2010
Jochen Theloke
Thank you for your attention!
TFEIP-Meeting 10-12 May 2010
Jochen Theloke
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