ANNEX I
QUESTIONNAIRE FOR THE DECLARATION OF THE BASIC TECHNICAL CHARACTERISTICS OF THE INSTALLATIONS
I-A. REACTORS
Date: …………
NB:
1.
Under Article 79 of the Treaty, those subject to safeguards requirements shall notify the authorities of the Member State concerned of any communications they make to the Commission pursuant to Article 78 and the first paragraph of Article 79 of the Treaty.
2.
The reply ‘not applicable’ can be given to questions which are not applicable. The Commission is still entitled to request any additional information it considers necessary in connection with the relevant questionnaire.
3.
The declaration, duly completed and signed, should be forwarded to the European Commission, Euratom Safeguards, L-2920 Luxembourg.
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail address.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Purpose and type.
7.
Operating mode influencing its production (shift system adopted, approximate dates of operating periods in year, etc.)
8.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc.)
9.
Layout of installation:
(a)
structural containment, fences and access routes;
(b)
incoming-material storage area;
(c)
reactor area;
(d)
test and experiment area, laboratories;
(e)
outgoing-material storage area;
(f)
nuclear waste disposal area.
10.
Additional data per reactor:
(a)
nominal thermal output;
(b)
source material or special fissile material;
(c)
initial core enrichments;
(d)
moderator;
(e)
coolant.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Description of nuclear material ( *1 )
11.
Description of the use of nuclear material (Article 3(1)).
12.
Outline drawings of fuel assemblies, fuel rods/pins, fuel plates etc., in sufficient detail to indicate general structure with overall dimensions. (Provisions for pin exchange should be described, if applicable, and an indication given if this is a routine operation.).
13.
Fuel material (including material in control or shim assemblies, if applicable):
(a)
chemical composition or main alloy constituents;
(b)
average enrichment per assembly;
(c)
nominal weight of nuclear material per assembly, with design tolerances.
14.
Cladding material.
15.
Method of identifying individual assemblies, rods/pins, plates etc., if applicable.
16.
Other nuclear material used in the installation (briefly state material, purpose and method of use, e.g. as booster rods).
Flow of nuclear material
17.
Flow sheet showing: points where nuclear material is identified or measured; material balance areas and inventory locations used for material accountancy; and the estimated range of nuclear material inventories at these locations under normal operating conditions.
18.
Expected nominal fuel cycle data, including:
(a)
reactor core loading;
(b)
expected burn-up;
(c)
annual refuelling amount;
(d)
refuelling interval (on-load or off-load);
(e)
forecast of throughput and inventory, and of receipts and shipments.
Handling of nuclear material
19.
Layout of the fresh fuel storage area, drawings of fresh fuel storage locations, and description of packaging.
20.
Drawings of fresh fuel preparation and/or assay room and reactor loading area.
21.
Drawings of transfer equipment for fresh and irradiated fuel, including refuelling machines or equipment.
22.
Drawings of reactor vessel showing location of core and openings in vessel; description of method of fuel handling in vessel.
23.
Drawing of core showing: general layout, lattice, form, pitch and dimensions of core; reflector; location, shapes and dimensions of control devices; experimental and/or irradiation positions.
24.
Number and size of channels for fuel assemblies and control devices in the core.
25.
Spent fuel storage area:
(a)
drawing of storage area;
(b)
method of storage;
(c)
design storage capacity;
(d)
drawing of equipment for handling irradiated fuel;
(e)
minimum cooling time before shipment of spent fuel;
(f)
drawing and description of shipping cask for spent fuel (e.g. to determine whether sealing is possible).
26.
Nuclear material testing area (if applicable):
(a)
brief description of the activities performed;
(b)
description of main equipment (e.g. hot cell, fuel assembly decladding and dissolving equipment);
(c)
description of shipping containers for nuclear material and of waste and scrap packaging (e.g. to determine whether sealing is possible);
(d)
description of storage area for non-irradiated and irradiated nuclear material;
(e)
drawings of the above, if not covered elsewhere.
Coolant data
27.
Coolant flow diagrams as required for heat balance calculations (indicating pressure, temperatures and mass flow rates at main points).
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
28.
Description of nuclear material accountancy and control system (describe item and/or mass accountancy system, including assay methods used and assessed accuracies, supplying specimen blank forms used in all accountancy and control procedures). Period during which such records must be retained should be stated.
Physical inventory
29.
Description of: procedures, scheduled frequency and methods for operator’s physical inventory taking (both for item and/or mass accountancy, including main assay methods and expected accuracy); access to nuclear material in the core and to irradiated nuclear material outside the core; expected radiation levels.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
30.
Organisational arrangements for material accountancy and control.
31.
Information on the health and safety rules which have to be observed at the installation, and with which the inspectors must comply.
I-B. CRITICAL AND ZERO ENERGY INSTALLATIONS
Date: …………
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail addresses.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Purpose and type.
7.
Operating mode (shift system adopted, approximate dates of operating periods in year, etc.)
8.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc.)
9.
Layout of installation:
(a)
structural containment, fences and access routes;
(b)
nuclear material storage area(s);
(c)
fuel element assembling area, laboratories, etc.;
(d)
critical assembly proper ( *2 ) .
10.
Additional data ( *2 ) :
(a)
maximum expected operating power and/or neutron flux;
(b)
main type(s) of nuclear material and their enrichment;
(c)
moderator;
(d)
reflector, blanket;
(e)
coolant.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Description of nuclear material
11.
Description of the use of nuclear material (Article 3(1)).
12.
Outline drawings of fuel assemblies, fuel rods/pins, fuel plates etc., in sufficient detail to indicate general structure with overall dimensions.
13.
Fuel material (including material in control or shim assemblies, if applicable).
(a)
chemical composition or main alloy constituents;
(b)
form and dimensions;
(c)
enrichment of fuel rods/pins, fuel plates etc.;
(d)
nominal weight of nuclear material, with design tolerances.
14.
Cladding material.
15.
Method of identifying individual assemblies, rods/pins, plates etc., if applicable.
16.
Other nuclear material used in the installation (briefly state material, purpose and method of use, e.g. as booster rods).
Location and handling of nuclear material
17.
Description, including layout drawings, of:
(a)
nuclear material storage and assembly areas and critical assembly (assemblies) proper (inventory locations);
(b)
the estimated range of inventories of nuclear material in these locations;
(c)
the physical arrangement of equipment used for assembling, testing and measuring nuclear material;
and
(d)
the routes followed by nuclear material.
18.
Sketch of critical assembly core showing core support structure, shielding and heat removal systems, with description (to be provided for each critical assembly if more than one in the installation).
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
19.
Description of nuclear material accountancy and control system (describe item and/or mass accountancy system, including assay methods used and assessed accuracies, supplying specimen blank forms used in all accountancy and control procedures). Period during which such records must be retained should be stated.
Physical inventory
20.
Description of: procedures, scheduled frequency and methods for operator’s physical inventory taking (both for item and/or mass accountancy, including main assay methods and expected accuracy); access to nuclear material in the core and to irradiated nuclear material outside the core; expected radiation levels.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
21.
Organisational arrangements for material accountancy and control.
22.
Information on the health and safety rules which have to be observed at the installation and with which the inspectors must comply.
I-C. CONVERSION, FABRICATION AND REPROCESSING INSTALLATIONS
Date: …………
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail addresses.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Purpose and type.
7.
Operating mode influencing its production (shift system adopted, approximate dates of operating periods in year, etc.)
8.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc.)
9.
Layout of installation:
(a)
structural containment, fences and access routes;
(b)
routes followed by nuclear material;
(c)
incoming nuclear material storage area;
(d)
each main processing area and process laboratory;
(e)
test or experimental areas;
(f)
outgoing nuclear material storage;
(g)
nuclear waste disposal area;
(h)
analytical laboratory.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Flow, location and handling of nuclear material
10.
Flow sheet showing: points where nuclear material is identified or measured; material balance areas and inventory locations used for material accountancy; and the estimated range of nuclear material inventories at these locations under normal operating conditions. The description should include (if applicable):
(a)
batch size or flow rate;
(b)
method of storage or packing;
(c)
storage capacity;
(d)
general forecasts of throughput and inventory and of receipts and shipments.
11.
In addition to point 10 above, a description and a layout drawing should be provided of feed storage areas for reprocessing installations, indicating:
(a)
locations for fuel elements and handling equipment;
(b)
type of fuel elements including nuclear material content and enrichment.
12.
In addition to point 10 above, the description of the recycling stage of the process should include, if available:
(a)
duration of temporary storage;
(b)
schedules for external recycling (if applicable).
13.
In addition to point 10 above, the description of the discard stage of the process should include the discard method (disposal or storage).
14.
Under steady-state conditions, for each flow sheet referred to in points 10 and 17 and assuming the modes of operation in point 7, state:
(a)
the nominal throughput per year;
(b)
the in-process inventory based on design capacity.
15.
Description of the normal procedures adopted for complete or partial clean-out of the plant. Include description of special sampling and measurement points associated with the clean-out procedure and subsequent physical inventory taking, if not described in point 10 above.
Description of nuclear material
16.
Description of the use of nuclear material (Article 3(1)).
17.
Description, by means of flow sheets or otherwise, of estimated flow and inventory of all nuclear material for storage and process areas. The description should include:
(a)
physical and chemical form;
(b)
content range or expected upper limits for each category of solid or liquid discard material;
(c)
enrichment range.
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
18.
Description of the accountancy system used to record and report accountancy data and establish material balances, supplying specimen blank forms used in all procedures. Period during which such records must be retained should be stated.
19.
Indicate when and how often material balances are established, including those established during campaigns. Description of method and procedure for adjusting accounts after a physical inventory taking.
20.
Description of procedure for handling shipper/receiver differences and method of adjusting accounts.
21.
Description of procedure for correcting accounts following procedural or clerical errors and its effect on shipper/receiver differences.
Physical inventory
22.
Refer to point 15. Identify items of equipment on the flow sheets referred to in points 10 and 17 that are to be regarded as containers for nuclear material under physical inventory conditions. State the schedule of physical inventory taking during the campaign.
Methods for measurement, sampling and analysis
23.
Description of method for establishing each measurement at the point indicated; equations or tables used and calculations made to determine actual quantities of weights or volumes should be identified. Indicate whether data are recorded automatically or manually. Method and practical procedures for sampling at each point indicated should be described.
24.
Description of analytical methods used for accountancy purposes. Refer to a manual or report, if possible.
Control of measurement accuracy
25.
Description of: measurement quality control programme needed for material accountancy purposes, including programmes (together with accuracy values) for the continuing appraisal of analytical, weight, volume and sampling precisions and biases, and for the calibration of associated equipment; method of calibrating the measuring equipment referred to in point 24; type and quality of standards used for analytical methods referred to in point 24; typeof analytical equipment used, indicating method and frequency of calibration.
Statistical evaluation
26.
Description of methods for statistical evaluation of data collected in measurement control programmes for evaluating the precision and the accuracy of measurements and for estimating measurement uncertainties (i.e. determination of the standard deviations of random and systematic error in the measurements). Also description of statistical procedures used to combine individual error estimates to obtain the standard deviations of overall error for shipper/receiver differences, the book inventory, the physical inventory and material unaccounted for.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
27.
Organisational arrangements for material accountancy and control.
28.
Information on the health and safety rules which have to be observed at the installation and with which the inspectors must comply.
I-D. STORAGE INSTALLATIONS ( *3 )
Date: …………
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail addresses.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Purpose and type.
7.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc.).
8.
Layout of installation, showing structural containment, fences and access routes.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Description of nuclear material
9.
Description of the use of nuclear material (Article 3(1)).
10.
Description, by means of drawings or otherwise, of all nuclear material in the installation, showing:
(a)
all types of items, including normal handling equipment;
(b)
chemical composition or main alloy constituents;
(c)
form and dimensions;
(d)
enrichment;
(e)
nominal weight of nuclear material, with design tolerances;
(f)
cladding materials;
(g)
methods of identifying items.
Location and handling of nuclear material
11.
Description, by means of layout drawings or otherwise, of:
(a)
nuclear material storage areas (inventory locations);
(b)
the estimated range of inventories of nuclear material in these locations;
(c)
nuclear material storage and/or shipping containers;
(d)
the routes and equipment used for movement of nuclear material, if applicable.
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
12.
Description of nuclear material accountancy and control system (describe item and/or mass accountancy system, including assay methods used and assessed accuracies, supplying specimen blank forms used in all accountancy and control procedures). Period during which such records must be retained should be stated.
Physical inventory
13.
Description of procedures, scheduled frequency and methods for operator’s physical inventory taking (both for item and/or mass accountancy, including main assay methods), and expected accuracy.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
14.
Organisational arrangements for material accountancy and control.
15.
Information on the health and safety rules which have to be observed at the installation and with which the inspectors must comply.
I-E. ISOTOPE SEPARATION INSTALLATIONS
Date: …………
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail address.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Building schedule (if installation not in operation):
(a)
date building starts;
(b)
date of installation acceptance;
(c)
commissioning date.
7.
Purpose and type (nominal separation capacity, enrichment facilities, etc.)
8.
Operating mode influencing its production (shift system adopted, approximate periods of operating times in year, etc.)
9.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc.)
10.
Layout of installation:
(a)
structural containment, fences and access routes;
(b)
containment of certain parts of the installation;
(c)
routes followed by nuclear material;
(d)
incoming nuclear material storage area;
(e)
each main processing area and process laboratory, including weighing and sampling area, decontamination, purification and feed areas, etc.;
(f)
test or experimental areas;
(g)
outgoing nuclear material storage area;
(h)
nuclear waste disposal area;
(i)
analytical laboratory.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Description of nuclear material
11.
Description of the use of nuclear material (Article 3(1)).
12.
Description, by means of flow sheets or otherwise, of estimated flow and inventory of all nuclear material for storage and process areas. The description should include:
(a)
physical and chemical form;
(b)
enrichment range for feed, product and tails;
(c)
content range or expected upper limits for each category of solid or liquid discard material.
Flow, location and handling of nuclear material
13.
Description, by means of diagrams or otherwise, of storage and process areas. The description should include:
(a)
sampling and measuring points;
(b)
batch size and/or flow rate;
(c)
method of storage or packing;
(d)
storage capacities.
14.
In addition to point 13 above, the description of the installation should include:
(a)
separation capacity;
(b)
enrichment techniques or methods;
(c)
possible points for feed, product and tails;
(d)
recycling facilities;
(e)
type and size of UF 6 cylinders used, filling and emptying methods.
15.
Power consumption should be given, where necessary.
16.
Each diagram should indicate, under steady-state conditions:
(a)
nominal throughput per year;
(b)
physical inventory of in-process materials;
(c)
material loss rate owing to leakage, decomposition, deposition, etc.;
(d)
arrangements for regular plant maintenance (periodic shutdown or continuous component replacement, etc.)
17.
Description of special sampling and measurement points associated with decontamination of off-process equipment that is to be maintained or replaced.
18.
Description of process waste disposal point, including disposal method, storage period, type of disposal, etc.
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
19.
Description of the accountancy system used to record and report accountancy data and to establish material balances, supplying specimen blank forms used in all procedures. Period during which such records must be retained should be stated.
20.
Indicate when and how often material balances are established, including any established during campaigns. Description of method and procedure for adjusting accounts after a physical inventory taking.
21.
Description of procedure for handling shipper/receiver differences and method of adjusting accounts.
22.
Description of procedure for correcting accounts owing to procedural or clerical errors and the effect on shipper/receiver differences, if applicable.
Physical inventory
23.
Identification of items of equipment mentioned in the description referred to in points 13 and 18 that are to be regarded as containers for nuclear material under physical inventory conditions. State the timing of physical inventory taking.
Methods for measurement, sampling and analysis
24.
Refer to the information given under points 13 and 17 for location of sampling and measurement points.
25.
Description of method for establishing each measurement at the point indicated; equations or tables used and calculations made to determine actual quantities of weights or volumes should be identified. Indicate whether data are recorded automatically or manually. Method and practical procedures for sampling at each point indicated should be described. Indicate number of samples taken and rejection criteria.
26.
Description of analytical methods used for accountancy purposes. Refer to a manual or report, if possible.
Control of measurement accuracy
27.
Description of programmes for the continuous appraisal of weight, volume and sampling precision and biases, and for the calibration of associated equipment.
28.
Descriptions of type and quality of standards used for analytical methods referred to in point 26, type of analytical equipment used, method and frequency of calibration.
Statistical evaluation
29.
Description of methods for statistical evaluation of data collected in measurement control programmes for evaluating the precision and the accuracy of measurements and for estimating measurement uncertainties (i.e. determination of the standard deviations of random and systematic error in the measurements). Also description of statistical procedures used to combine individual error estimates to obtain the standard deviations of overall error for shipper/receiver differences, the book inventory, the physical inventory and material unaccounted for.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
30.
Organisational arrangements for material accountancy and control.
31.
Information on the health and safety rules which have to be observed at the installation, and with which the inspectors must comply.
I-F. INSTALLATIONS USING NUCLEAR MATERIAL IN QUANTITIES EXCEEDING ONE EFFECTIVE KILOGRAM
Date: …………
For any installation of a type not referred to in sections A to E which uses more than one effective kilogram per annum, information should be given on the following:
—
identification of the installation,
—
general arrangements at the installation, including those relating to material use and accountancy, containment and surveillance,
—
description of the use of nuclear material (Article 3(1)),
—
nuclear material accountancy and control system, including techniques for physical inventory taking,
—
other information relevant to the application of safeguards.
The information required under these headings is, where applicable, the same as that required for the types of installations coming under sections C, D and E of this Annex.
I-G. INSTALLATIONS CANDIDATE MEMBERS OF THE CATCH All MBA (CAM)
Date: …………
For these holders, the total inventory is calculated as the sum of the stock of each category of nuclear material held, each expressed as a percentage of the following limits:
depleted uranium
350 000 g or
thorium
200 000 g or
natural uranium
100 000 g or
low enriched uranium
1 000 g or
high enriched uranium
5 g or
plutonium
5 g
For example:
(a)
a holder with 4 g of plutonium has a percentage inventory equal to 80 % (4/5);
(b)
a holder with 1 g of high enriched uranium plus 20 000 g of natural uranium has a percentage inventory equal to 40 % (1/5 + 20 000/100 000).
IDENTIFICATION OF THE INSTALLATION AND OF THE NUCLEAR MATERIAL
1.
Name.
2.
Owner and/or operator.
3.
Location, exact address with telephone and fax numbers and e-mail addresses.
4.
Type of nuclear material.
5.
Description of containers used for storage and handling.
6.
Description of the use of nuclear material (Article 3(1)).
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
The holders’ obligations have been simplified as following:
A.
Limits on holdings/movements
If any individual receipt of nuclear material exceeds the quantities indicated above or if the ‘percentage inventory’ of the installation exceeds 100 % at any time, the Commission must be notified immediately.
B.
Accounting/operating records to be maintained
Accounting/operating records must be kept in a manner permitting ready verification of reports made to the Commission and of any correction thereto.
C.
Inventory change reports (ICR)
Need be submitted only if an inventory change occurs.
A note explaining unusual inventory changes and corrections or any other piece of information included in the report should be attached. In particular, the identification and address should be given of any entity to which material is shipped (including export) or from whom material is received (including import).
Even if no inventory change occurred during the year, an ending book inventory by category as at 31 December must be declared. This declaration must be forwarded to the European Commission, Euratom Safeguards, L-2920 Luxembourg by 31 January of each year.
D.
Report form
No special form is required for the report under C above. The report can be made by letter.
I-H. WASTE TREATMENT OR WASTE STORAGE INSTALLATIONS ( *4 )
Date: …………
IDENTIFICATION OF THE INSTALLATION
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail addresses.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Present status (e.g. under construction, in operation or closed down).
6.
Purpose and type.
7.
Area layout (map showing the installation, boundaries, buildings, roads, rivers, railways, etc).
8.
Layout of installation:
(a)
structural containment, fences and access routes;
(b)
routes followed by nuclear material;
(c)
nuclear waste disposal areas;
(d)
each main processing area and process laboratory;
(e)
test or experimental areas;
(f)
analytical laboratory.
GENERAL ARRANGEMENTS AT THE INSTALLATION, INCLUDING THOSE RELATING TO MATERIAL USE AND ACCOUNTANCY, CONTAINMENT AND SURVEILLANCE
Locations and handling of nuclear material
9.
Description of the use of nuclear material (Article 3(1)).
10.
Description, by means of drawings or otherwise, of:
(a)
nuclear material storage areas (inventory locations);
(b)
the estimated range of inventories of nuclear material in these locations;
(c)
nuclear material storage and/or shipping containers;
(d)
the routes and equipment used for movement of nuclear material, if applicable.
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
Accountancy system
11.
Description of the nuclear material accountancy and control system, supplying specimen blank forms used in all accountancy and control procedures. Period during which such records must be retained should be stated.
Physical inventory
12.
Description of procedures, scheduled frequency and methods for operator’s physical inventory taking (both for item and/or mass accountancy including main assay methods), and expected accuracy.
OTHER INFORMATION RELEVANT TO APPLICATION OF SAFEGUARDS
13.
Organisational arrangements for material accountancy and control.
14.
Information on the health and safety rules which have to be observed at the installation and with which the inspectors must comply.
I-J. OTHER INSTALLATIONS ( *5 )
Date: …………
IDENTIFICATION OF THE INSTALLATION AND OF THE NUCLEAR MATERIAL
1.
Name.
2.
Location, exact address with telephone and fax numbers and e-mail addresses.
3.
Owner (legally responsible body or individual).
4.
Operator (legally responsible body or individual).
5.
Type of nuclear material.
6.
Description of containers used for storage and handling (e.g. to determine whether sealing is possible).
7.
Description of the use of nuclear material (Article 3(1)).
8.
In the case of ore producers, the potential annual throughput of the installation.
9.
The current status (e.g. under construction, in operation or closed down).
NUCLEAR MATERIAL ACCOUNTANCY AND CONTROL
10.
Description of the procedures for nuclear material accountancy and control, including procedures for physical inventory taking.
11.
Organisational arrangements for material accountancy and control.
( *1 ) Items 12 to 15 are to be answered for each type of assembly in the installation. Terminology consistent with item 12 should be used.
( *2 ) To be provided for each critical assembly if more than one in the installation.
( *3 ) Separate installations not normally associated with reactors, with enrichment, conversion and fabrication installations, or with chemical reprocessing and recovery installations.
( *4 ) Separate installations engaged solely in the handling, storing or processing of waste materials (not forming a part of enrichment, conversion, fabrication, chemical reprocessing and recovery installations or of reactors).
( *5 ) The term ‘other’ denotes all the installations not covered by sections A to H, and where nuclear material in quantities not exceeding one effective kilogram is habitually used. It also specifically includes ore producers (point 8 above).