Annexes A-D

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Review of CORINAIR 90 - Proposals for Air Emissions 1994

ANNEX A: CORINAIR 90 QUESTIONNAIRES

ANNEX B: CHARACTERISTICS OF CORINAIR 90 DATABASES

ANNEX C: NATIONAL CONFIDENTIALITY REQUIREMENTS

ANNEX D: PROPOSED SOFTWARE CHANGES FOR AIR EMISSIONS

ANNEX A CORINAIR 90 QUESTIONNAIRES

A questionnaire on the CORINAIR 90 methodology was sent out in early 1994. 16 out of the 30 participants returned completed questionnaires to the EEA:

EEA Members:

Belgium (Flemish)
Belgium (Walloon)
Germany
Spain
France
Luxembourg
Portugal
Finland
Norway
Sweden
UK

Eastern European Countries:

Bulgaria
Czech Republic
Hungary
Poland
Slovenia

In 1995 the Air Emissions Topic Centre contacted seven countries who had not completed the questionnaire to establish their general views on the CORINAIR 90 methodology. The countries contacted were:

Greece
Ireland
Italy
Switzerland

Croatia
Slovakia
Romania
Russia

The main results of the questionnaire are discussed below. As only just over half of participants replied to the questionnaire in full the results can only be taken as indicative.

1. Resources

Between 1 to 2 man-years were generally required to compile CORINAIR 90, although some of the Eastern European countries compiling CORINAIR for the first time took 4 to 5 man-years.

2. Relationships with National Inventories and International Reporting Requirements

Only four countries used the CORINAIR database as the basis of a national methodology; in addition in Germany CORINAIR was used to help complete the national inventory, and in France, CORINAIR is initially developed in parallel with rough national estimates, and is then used as the national inventory as it is developed further. In six countries CORINAIR is used to reproduce estimates made in the national emissions inventory, and in the remaining four countries the two inventories are completely independent.

Just over half of countries (10) used the 11 main CORINAIR/EMEP source sectors to report to LRTAP, and half were planning for CORINAIR data to be used by EEA-TF in the preparation of EMEP data. Just under half were preparing greenhouse gas emissions data for the Framework Climate Change Convention using CORINAIR methodology and the proposed IPCC reporting format.

3. Reasons for Delay in Completing CORINAIR 90

The most common reported reasons for delay which were reported were all linked to data requirements (Table 1). Data was seen as difficult to find and data requirements as demanding; in addition waiting for the publication of official statistics and for data from various source sectors caused delay. For some countries official statistics for 1990 were not available until the end of 1992 or mid 1993, and in France and Germany, source data for some activities was not available until 1994. In some countries, data was only available in socio-economic categories and additional work was required to extract data in the technological categories required for CORINAIR. This was a particular problem in countries completing CORINAIR for the first time.

A lack of priority for CORINAIR work was also identified as a cause for concern. In some countries there is an emphasis on producing a top down national inventory quickly first, before beginning work on CORINAIR.

Table 1 Reported Reasons for Delay in Completing CORINAIR 90^*

Reason	No. of countries	No. of countries as % of those responding (20)
Data difficult to find	15
Data requirements very demanding	13	65%
Dependent on data supply from various source sectors	13	65%
Dependent on publication of official statistics	11	55%
Priority given to other work	10	50%
Shortage of national funding	10	50%
Needed training in use of software	9	45%
Data requirements very complicated	8	40%
Software difficult to understand	7	35%
Shortage of CEC funding	7	35%
Late receipt of contract from national/regional customer	7	35%
Shortage of (experienced) staff	6	30%
Changes in software/data requirements lead to duplication of effort	5	25%
Late entry into CORINAIR programme	5	25%
Dependent on completion of emission estimates using national methodology	4	20%
Late reply from EEA-TF following request for help	3	15%
Late receipt of contract from CEC (EEA-TF or PHARE)	2	10%
Need to completely verify database before sending to CITEPA or Zierock/Samaras	2	10%
Staff switched/lost from CORINAIR during data build	2	10%
Late reply from CITEPA or Zierock/Samara with consistency check reports	0	0%
Late reply from CITEPA or Zierock/Samara following request for help	0	0%

^{* Based on replies from 16 countries
returning questionnaire plus information from Croatia,

Romania, Slovakia and Russia.

4. Inconsistencies

The questionnaire revealed inconsistencies in
the way that CORINAIR is compiled. Half of countries submitted estimates of CO₂
emissions as the actual emissions from the exhaust, and half as ultimate CO₂
which assumes that all the carbon in the exhaust will eventually be converted to CO₂.
Similarly, about half of countries included CO₂emissions from biomass burning
and half excluded them.

5. Verification

The most common sources of information for
verifying CORINAIR were emissions estimates made using the national methodology and
emission factors in the Default Emission Factor Handbook (Table 2). National energy
statistics and emission estimates from point source operators were also used in many
countries.

Table 2 Other Information used to
Verify CORINAIR 90

Verification against:
No. of countries
No. of countries as % of those responding (16)

National
methodology emissions estimates
14
87%

Emission
factors in Default Emission Factor Handbook
13
81%

National
energy statistics
11
69%

Point
source operators emissions estimates
10
62%

Emissions
estimates from local/urban/regional inventories
7
44%

Other
international energy statistics
5
31%

Eurostat
emissions estimates
4
25%

EMEP
emissions estimates
3
19%

OECD
emissions estimates
3
19%

Eurostat
energy statistics
1
6%

UNECE
emission estimates
1
6%

6. CORINAIR Material and Software

CORINAIR and COPERT material
(software and manuals/instructions) were rated as average, and additional information,
check reports, progress meetings etc. as good. Although the use of English for all printed
material caused few difficulties on average, 7 participants asked for material in an
alternative language - French (3), German (2), Russian (1) and Portuguese (1).

The various aspects of the CORINAIR software
were rated as average or good:

Average
Good

Screen data entry
Overall design

Speed of response
Data Build - emissions calculations

File transfer (without screen
interface) Data Build

- definitions and data files

allocation procedures

checking procedures
Data Edit

- data files emissions files
InitialisationOptions - indexing
Options - backup/restore
Options - COPERT import
Options - empty temp files (very good)

There were also a number of specific comments on
individual aspects of the softwares usability (Table 3).

With regard to the overall design, there were
several calls for a Windows-based application of the software - the system was not felt to
be user friendly by todays standards, and data entry in the current software was
found to be very time consuming, with a lot of duplication (e.g. area sources, ratio and
emission factors have to be filled in one by one, fuel emission factors for point sources
have to be repeated many times). These aspects could be remedied by using spreadsheets for
data entry. It was also felt that it was not easy to aggregate data and to produce summary
tables, or e.g. to produce tables giving all the data on one particular point source, or
one SNAP code. At least two countries had transferred data from CORINAIR files to their
own database systems to allow them to produce tables, cross-check data, and edit results.

Table 3 Comments on Aspects of
the CORINAIR and COPERT Software*

CORINAIR
Comments

Screen data entry
very
slow, lot of duplication; too many keystrokes necessary to enter data; problem with
numeric fields which do not have decimal places;

Speed of response
calculations
take too much time;

File transfer (without screen interface)
non-existent;

Data
build - data files
for
some classification groups it is impossible to add new items such as types of units; for
area activities when the default socio-economic variable (BASEA) is not used, problems
with the conversion ration which must be defined;

Data
build - allocation procedures
time
consuming, very slow to update; slow; needs error messages stored simply; incomplete-
lacks a good facility to aggregate data;

Data
build - emissions calculations
very
slow - need to process after each correction to view the result; slow and old fashioned;

Data
build - checking procedures
very
slow - need to process after each correction to view the result; not possible to choose
printer ports; too many messages, many of which have little information value;

Data edit - data files
large
number of codes make the screens difficult to understand; impossible to do some types of
queries (e.g. to view LPSs with an activity rate above a certain level);

Data edit - emission files
not
possible to look at emissions from separate parts of an LPS;

Initialisation
problems
when CORINAIR is in use on a PC in network (LAN); need to change parameters and reboot at
start of each session;

Options - backup/restore
backup
is only possible to diskette; not operational with DOS 6; problems -does not work
properly;

COPERT
In
COPERT there is no clear differentiation between data and procedure files (except for
COPERT/CORINAIR transfer) - this applies to file transfer, data build, definitions and
data files , data edit files and emission files; Screen data entry - spreadsheet design
not so good;

* Each of the comments in the Table were
made by one expert only

One country felt that CORINAIR should allow
more flexible input of data on point sources; it suggested point source data should be
entered whatever the size of the source, and CORINAIR should then have the capability to
select large point sources through a given selection criteria.

Other comments included:

weighted emission factors have to be calculated
manually when specific emission factors are defined;
it is not possible to define fuels and area sources
everywhere;
in EDIT, a unit for emission factors would be
helpful; an opportunity to choose the fuel code would be helpful;
in EMISSION, for sub-codes such as 0301XX, the main
code (30100) is included in SUMMARY, so values are doubled;
graphical representation of data would be useful;
the software should make using a
bottom-up approach easier;
it would be helpful if the software allowed the
definition of new activity units.

6. Surrogate Definitions

Table 4 Surrogate Parameters provided
for CORINAIR 90

Type of surrogate data
Provided
Not available
Not provided

but available
Provided
Not available
Not provided but available

Nos.
of road vehicles
8
1
5
50%
6%
31%

Distances
travelled by road vehicles
4
2
7
25%
13%
44%

Nos.
of non-road vehicles
6
4
2
38%
25%
13%

Forest
area
9
0
5
56%
0%
31%

Agricultural
area
10
1
3
63%
6%
19%

Other
land use
4
2
5
25%
13%
31%

Nos.
of households
4
1
9
25%
6%
56%

Nos.
of employees/workers
5
0
8
31%
0%
50%

7. COPERT

6 countries directly used COPERT, 2 used it to
cross check data, and 8 did not use it all. Some countries expressed difficulty in
obtaining data in the format required for inclusion in COPERT e.g. mileage per vehicle.

8. SNAP Codes

Suggestions for SNAP codes which should be
subdivided, added, or aggregated or deleted are shown in Tables 5a, 5b and 5c. More
general comments included:

Additions/completeness

Some countries suggested that particular SNAP codes
(02, 03.03, 04.03, 04.04, 04.05, 04.06, 06.03, 06.04) should include an other
category for completeness, and two countries suggested that every SNAP code should finish
with an other category. Transparency could be maintained by attaching comments
to such categories.
Category 11, Nature should be more
comprehensive if it is to be used to compile a complete inventory of emissions of CO2 and
other pollutants.

Areas for improved clarity/definitions

One area causing concern to several countries was
processes where emissions arise both from combustion and from the process itself and the
material used in it (e.g. the pulp and paper industry, cement and glass production). It
was suggested that each sub-code in 03.03 should be split to allow for emissions from
combustion and for emissions from non-fuel materials which are combusted.
It should be clearly specified how to assign
consumption of fuel between subgroup 3.01 (industrial combustion in boilers, gas turbines
and stationary engines), and subgroups 03.02/03.03 (process furnaces without
contact/processes with contact) for economic sectors which have both types of activities.
For some activities there should be a distinction
between immediate and lagged emissions.
SNAP codes should be accompanied by other
nomenclatures such as

NAPACT (ISIC, NACE...) economic-sectoral
NAPTEC -techniques
NAPCONT - control reduction technologies
NAPFUE - fuels

Thought should be given to SNAP codes where emissions
might be considered to be non-anthropogenic - e.g. waste handling and combustion of black
liquor in the pulp and paper industry .

Deletion/Aggregation

One country suggested activities causing relatively
low emissions (<0.1% of emission total) should be deleted. Another suggested that
before deleting any codes, checking whether SNAP codes were empty because there is no
activity or because of lack of data.

Table 6 shows reasons why it was not possible for
countries to complete the CORINAIR database - either because the activity definition was
unclear, or activity data or emission factors were unavailable. Some of the comments
reflect ambiguities already mentioned above (e.g. the split between combustion and process
dependent emissions in some industries); other problems are probably particular to one
country. The main areas where several countries experienced problems were solvent use
(06), other transport (08), and nature (011) .

In some countries, the mismatch between SNAP codes
and categories used for socio-economic data had caused some problems in data collection
for some sectors.

Table 5a SNAP codes to be
Sub-divided

Code
Description
To be split into:

02
Commercial,
institutional and residential combustion plants
commercial

residential

tertiary

02.00.02
Commercial,
institutional and residential combustion plants - combustion plants <50 MW
residential

non-residential

03.03.11
Processes
with contact - cement
dry
method

wet method

04.07
Cooling
plants
ammonia
plants

freon plants

04.02.08
Iron
and steel processes - rolling mills
hot
rolling

cold rolling

05.01.02
Underground
coal mining
with
methane emission reduction

without methane emission reduction

05.05.01
Refinery
dispatch station
railway
tanker

pipeline tanker

06.01.01
to 06.01.04
Solvent
use paint application
using
water solvent

using non-water solvent

06.01.02
Other
industrial paint application
automobile
repair

06.04.02
Other
uses of solvents -fat, edible and non-edible oil extraction
grinding

06.04.03
Other
uses of solvents -printing
packaging

edition printing

06.04.04
Other
uses of solvents - fat, edible and non-edible oil extraction
grinding

degreasing

06.04.06
Other
uses of solvents - preservation of wood
impregnation

coating

06.04.07
Underseal
treatment of vehicles
undersealing

treatment of hollow spaces

06.04.06
Domestic
use of solvents
use of
cosmetics

06.04.09
Vehicle
dewaxing
vehicle
dewaxing

vehicle waxing

08.03
Inland
waterways
inland
waterways

coastal navigation

09.01
Waste
water treatment
refinery
industry

municipal

09.07
Open
burning of agricultural waste
open
burning of

agricultural waste

open burning of forestry wastes

Table 5b Activities to be Added

To Code
Description
Add

03.02
Process
Furnaces without Contact
drying
kilns (e.g. in car manufacture)

03.03
Process
with contact
sugar

04.03
non-combustion
processes in ferrous metal industries
production
of silicon carbide

04.05
Production
processes- organic chemical industry
ethylene
glycol

aniline

cyclohexane

ethylene dichloride

06.03
Chemical
products manufacturing or processing
additional
substances for chemical production

processing of synthetic materials (excluding 06.03.02)

06.04
Other
uses of solvents and related activities
other
industrial cleaning

protective coatings for the construction industry (excluding O6.04.06)

metal treatment

pesticides

other industrial applications

10.04
Animal
breeding
poultry

10.04
Animal
breeding (enteric fermentation)
tame
reindeer

10.05
Animal
breeding (excretion)
tame
reindeer

11
Nature
Land
use changes

Others? (as relevant to IPCC/OECD reporting format)

?
not
specified by respondent
charcoal
production

?
not
specified by respondent
nickel
or other non-ferrous metal production

?
not
specified by respondent
production
of soda fluffy

?
not
specified by respondent
furnace
induction for cast iron

?
not
specified by respondent
coal
drying

?
not
specified by respondent
caprolactam

?
not
specified by respondent
well
testing

Table 5c Activities to be Deleted
or Aggregated

Code
Description

04.04.11
graphite
delete

04.06.09
bark
gasifier
delete

04.06.12

04.06.13

04.06.14
Cement

Lime

Glass
aggregate

09.08.00
Latrines
delete

11.07.02
termites
delete

Table 6 Reasons for Incomplete
Database

SNAP

code
Activity definition
Activity definition unclear
Activity data unavailable
Emission

factors unavailable
Note

1
PUBLIC POWER, COGENERATION AND DISTRICT HEATING PLANTS

10104
GAS
TURBINES

*

10105
STATIONARY
ENGINES

*

10204
GAS
TURBINES

*

10205
STATIONARY
ENGINES

*

2
COMMERCIAL, INSTITUTIONAL AND RESIDENTIAL COMBUSTION PLANTS

20003
GAS
TURBINES

*

20004
STATIONARY
ENGINES

*

3
INDUSTRIAL COMBUSTION PLANTS AND PROCESSES WITH COMBUSTION

30104
GAS
TURBINES

*

30105
STATIONARY
ENGINES

*

30311
CEMENT
*

Confusion
with 40612 and 40613, cement and glass, non combustion processes

30314
FLAT
GLASS
*

30318
MINERAL
WOOL

*

30320
FINE
CERAMICS MATERIAL
*

4
NON COMBUSTION PROCESSES

40100
PRODUCTION
PROCESSES - PETROLEUM INDUSTRIES
*

Difficult
to differentiate between emissions from constituent parts and overlap with refinery
furnaces (30201)

40302
FERRO
ALLOYS
*
*
unclear

40406
AMMONIUM
PHOSPHATE

*

40411
GRAPHITE

*

40500
PRODUCTION PROCESSES -ORGANIC CHEMICAL INDUSTRY
In
addition to the problems reported below one country reported general difficulties with
activity data and emissions factors for all 405XX codes

40503
1,2 DICHLOROETH (EXCEPT 040505)

*

40505
1,2 DICHLOROETH + VINYLCHL
(BALANCED PROCESS)
*

40513
STYRENE-BUTADIENE LATEX
*

40514
STYRENE-BUTADIENE RUBBER (SBR)
*

40515
ACRYLONIT. BUTADIENE STYRENE
(ABS) RESINS
*

40522
STORAGE AND HANDLING OF CHEMICAL
PRODUCTS
*
**
**

Key: * reported by one country; **
reported by two countries

Table 6 Reasons for Incomplete
Database (contd)

SNAP code
Activity definition
Activity definition unclear
Activity data unavailable
Emission factors unavailable
Note

40601
CHIP
BOARD
*

40606
WINE

*
*

40607
BEER

*
*

40608
SPIRITS

*
*

40609
BARK
GASIFIER
*
**
**

40610
ASPHALT
ROOFING MATERIALS

**
**

40611
ROAD
PAVING WITH ASPHALT

*
*

40612
CEMENT
*

Confusion
with 30311 and 30314

40613
GLASS
*

40700
PRODUCTION
PROCESSES - COOLING PLANTS
*
*
*

5
EXTRACTION AND DISTRIBUTION OF FOSSIL FUELS

50103
STORAGE
OF SOLID FUELS
*

50201
LAND
BASED EXTRACTION, 1ST TREATMENT AND LOADING OF LIQUID FUELS
*

50502
OFF-SHORE
EXTRACTION, 1ST TREATMENT AND LOADING OF LIQUID FUELS
*

50302
OTHER
LAND BASED EXTRACTION, 1ST TREATMENT AND LOADING OF GASEOUS FUELS
*

50303
OFF-SHORE
EXTRACTION, 1ST TREATMENT AND LOADING OF GASEOUS FUELS
*

50502
TRANSPORT
AND DEPOTS FOR GASOLINE DISTRIBUTION

*
partially

50602
PIPELINE
COMPRESSOR STATIONS

*
partially

6
SOLVENT USE

60101
MANUFACTURE
OF AUTOMOBILES

*

60102
OTHER
INDUSTRIAL APPLICATIONS

**

60103
CONSTRUCTION
AND BUILDINGS

*

60104
DOMESTIC
USE

*

60201
METAL
DEGREASING

**

60202
DRY
CLEANING

*

60300
SOLVENT USE -CHEMICAL PRODUCTS MANUFACT/PROCESSING

In
addition, one country reported general difficulties with activity data and emissions
factors for all 603XX codes.

60301
POLYESTER
PROCESSING
*

Key: * reported by one country; **
reported by two countries

Table 6 Reasons for Incomplete
Database (contd)

SNAP code
Activity definition
Activity definition unclear
Activity data unavailable
Emission factors unavailable
Note

60302
POLYVINYLCHLORIDE
PROCESS
*

60303
POLYURETHANE
PROCESSING
*

60304
POLYSTYRENE
FOAM PROCESS
*

60305
RUBBER
PROCESSING
*

60305
PHARMACEUTICAL
PRODUCTION MANUFACTURING

**

60310
ASPHALT
BLOWING

*

60311
ADHESIVE
TAPES MANUFACTURE
*
*
partially
*

60401
GLASS
WOOL ENDUCTION

*

60402
MINERAL
WOOL ENDUCTION

**

60404
FAT
EDIBLE AND NON-EDIBLE OIL EXTRACTION
*

60405
APPLICATION
OF GLUES AND ADHESIVES
*
*

60406
PRESERVATION
OF WOOD
*

60407
UNDERSEAL
TREATMENT OF VEHICLES

**
*

60408
DOMESTIC
SOLVENT USE (OTHER THAN PAINT)

**
*

8
OTHER TRANSPORT

80100
OFF
ROAD VEHICLES AND MACHINES

One
country reported unclear activity definitions for all 801XX

codes; two countries reported that activity data and emissions factors were
partially or wholly unavailable

80103
INDUSTRY

**

80104
MILITARY

*

80105
HOUSEHOLD/GARDENING

**
*

80400
MARINE
ACTIVITIES

*unclear
*

80401
HARBOURS
*

80500
AIRPORTS
(LTO CYCLES AND GROUND ACTIVITIES)
*
*
*
For
ground activities

9
WASTE TREATMENT AND DISPOSAL
One
country reported that data was incomplete and unavailable and that emissions factors were
unavailable for all code 9 data

90100
WASTE
WATER TREATMENT
*

90203
FLARING
IN OIL INDUSTRY

*
*

90204
FLARING
IN CHEMICAL INDUSTRIES
*
*
*

90300
SLUDGE
SPREADING

*
*

Key: * reported by one country; **
reported by two countries

Table 6 Reasons for Incomplete
Database (contd)

SNAP code
Activity definition
Activity definition unclear
Activity data unavailable
Emission factors unavailable
Note

90600
BIOGAS
PRODUCTION
*

90700
OPEN
BURNING OF AGRICULTURAL WASTES
*

90800
LATRINES

*
*

10
AGRICULTURE
One
country reported that emission factors for methane and NMVOCs were unavailable for all
SNAP code 10 activities

100100
CULTURES
WITH FERTILISERS

One
country reported that it was not possible to distinguish between data for 10100 and 10200

100200
CULTURES
WITHOUT FERTILISERS

100510
FUR
ANIMALS
*
*

11
NATURE

One
country reported that an emission factor for methane was unavailable for all SNAP code 11
activities. Another country queried where scrublands and open forests should be included.

110501
UNDRAINED
AND BRACKISH MARSHES
*

110502
DRAINED
MARSHES
*

110602
RAISED
BOGS
*
*
*

110603
SHALLOW
SALTWATERS
*
*
*

110604
GROUND
WATERS
*
*
*

110605
DRAINAGE
WATERS

**
**

110606
RIVERS

*

110607
DITCHES
AND CANALS

*
*

110701
OPEN
SEA

*

110702
TERMITES

*
*

110800
MAMMALS

*

110900
NEAR
SURFACE DEPOSITS
**
*
*

Key: * reported by one country; **
reported by two countries

ANNEX B
CHARACTERISTICS OF CORINAIR 90 DATABASES

Table B.1 The number of area source data
defined by each country in CORINAIR 90 is given below. They show the range of approaches
adopted to completing CORINAIR 90 by individual countries.

Rubrics
Fuels
Activities
Territorial units
Activity rates
Emission factors

Belgium
(Flemish Region)
20
62
184
29
2297
2705

Belgium
(Wallonie region)
29
32
153
28
2884
1232

Germany
(former west)
10
84
268
366
16405
?

Germany
(former east)
12
84
182
229
4829
5060

Denmark
17
64
175
21
3642
952

Spain
200
142
509
78
39702
3616

France
109
260
516
128
50335
5316

Greece
0
12
228
67
12568
1665

Ireland
0
28
95
12
1140
683

Italy
4
20
242
127
17134
3491

Luxembourg
11
22
124
1
124
579

Netherlands
48
25
683
57
15702
683

Portugal
22
65
170
38
5780
2256

United
Kingdom
1
22
173
95
16340
573

Austria
27
19
115
10
1150
549

Finland
27
18
229
14
836
894

Norway
76
21
187
23
4301
1559

Sweden
2
91
124
25
1708
1836

Bulgaria
44
29
283
11
2322
1507

Czech
Republic*
1
177
188
10
1276
4202

Hungary
2
34
144
147
2823
438

Poland
18
148
164
51
8364
761

Romania
8
14
171
44
4284
15643

Slovak
Republic
22
48
138
43
5680
862

Estonia
3
18
86
19
1126
2322

Latvia
8
24
162
12
1104
3158

Lithuania
8
13
99
12
1032
3900

Slovenia
58
17
57
75
58
185

ANNEX C NATIONAL
CONFIDENTIALITY REQUIREMENTS

Country
All Open
SNAP Groups restricted
1 Loca-

tion
2 Source data
3

Opera-

tions
4

Activity data
5

Emiss-

ions
Comments

Belgium-Flemish
YES

Belgium-Walloon
?

Denmark
YES

Germany
?

Greece
NO
Refineries
O
X
X
X
X

Spain
NO
LPS
O
O
X
X
O
except LCPs
LCP
data more restricted

France
NO
ALL LPS
O
X
X
X
O

Ireland
YES

Italy

ALL LPS
O
O
O
X
O

Luxembourg
YES

Netherlands
NO
ALL LPS
O
X
X
X
O

Portugal
NO
ALL LPS
X
X
X
X
O
Coordinates
restricted

United
Kingdom
YES

Austria
?

Finland
?

Norway
NO
3 &
4
O
X
X
X
O
Area
source activity/emission factor restrictions

Sweden
O LPS

Switzerland
?

Albania
?

Bulgaria
YES

Croatia
?

Czech
Republic
NO
All LPS
X
X
O
X
O
Coordinates
restricted

Estonia
YES

Hungary
NO
All LPS
O
X
O
O
O
Capacity
restricted

Latvia
YES

Lithuania
?

Poland

All LPS
X
X
X
X
O
Coordinates
restricted

Romania
?

Russia
?

Slovakia

All LPS
O
X
X
X
O

Slovenia
YES

Key X confidential

O unrestricted

? No reply received to questionnaire

ANNEX D

PROPOSED SOFTWARE CHANGES FOR AIR EMISSIONS 94

1 Proposed Changes

It is proposed that the following changes are made
to the CORINAIR 90 software by the end of 1995.

1.1 Data model

Two new elements will be introduced:

A National Energy Statistics
module where national energy data can be entered, and an Energy Balance
Process where a comparison can be made between the national energy statistics
and estimates of fuel use in the emissions inventory.

A facility to enter data at a national aggregated
level.

1.2 Inventory Specifications

New pollutants (heavy metals, POPs and possibly
others) will be included. SNAP 90 will be modified to include sources of the new
pollutants and to ensure as good a compatibility with IPCC requirements as possible.

1.3 Software Facilities

Default emissions factors from the UNECE guidebook
will be included in the revised software.

Some data handling and input facilities will be
improved:

there will be an option to call-up
default emissions factors stored in the software;

a bottom-up function will be introduced,
i.e. it will be possible to aggregate spatial data (activity rates or emission factors);

some other changes suggested in the CORINAIR 90
questionnaires (Annex A) will be implemented. For example, it will
be possible to edit aggregated emissions results without an intermediate data
build step.

2. Benefits of the Proposed Approach

The main benefits of the proposed changes are:

It will be possible to use the revised software to
complete both a detailed spatial inventory and to produce national annual totals.

The revised software will be fully compatible with
the CORINAIR 90 software as the changes will extend, rather than modify the structure of
the CORINAIR 90 data model.

This compatibility with the existing CORINAIR 90
structure will have other advantages. Firstly, countries which have already developed a
procedure to transfer their national inventories into a CORINAIR 90 format, will not have
to undertake major revisions to the procedure. Secondly, it will be possible to provide a
starting point for the Air Emissions 94 inventory by prefilling the revised software with
the CORINAIR 90 data.

3. Conclusions

The proposed changes take into account the main
issues identified in this scoping study:

the production of both annual national totals and
more detailed spatial inventories;
achieving convergence between these two processes
ensuring that a comparison with national energy
balances is carried out as part of a validation process;
the need to speed up the inventory process by
improving the usability of the software and allowing the CORINAIR 90 data to be used as a
basis for the 1994 inventory.

The revised version of the CORINAIR software will be
distributed to national experts at the end of 1995.

</head0}