What is Decree No. 142 / 1997 Coll.?

Decree of the State Office of Nuclear Safety No. 142 / 1997 Coll., on the type-approval of packaging sets for the transport, storage or storage of radionuclide radionuclides and nuclear materials, type-approval of sources of ionising radiation, type-approval of protective equipment for working with sources of ionising radiation and other equipment for working with them (type-approval) — Decree of the State Office for Nuclear Safety on the type approval of packaging sets for the transport, storage or storage of radionuclide radionuclides and nuclear materials, type approval of sources of ionising radiation, type approval of protective equipment for work with sources of ionising radiation and other equipment for working with them (type approval).

When it became Decree No. 142 / 1997 Coll. effectiveness?

Decree No. 142 / 1997 Coll. became effective 07.07.1997.

Is Decree No. 142 / 1997 Coll. still valid?

Yes, Decree No. 142 / 1997 Coll. is still valid and effective.

How many times was it Decree No. 142 / 1997 Coll. amended?

Decree No. 142 / 1997 Coll. has 2 time versions of the text.

Decree No. 142 / 1997 Coll.

Decree of the State Office for Nuclear Safety on the type approval of packaging sets for the transport, storage or storage of radionuclide radionuclides and nuclear materials, type approval of sources of ionising radiation, type approval of protective equipment for work with sources of ionising radiation and other equipment for working with them (type approval)

Valid Order Effective from 07.07.1997

Text versions: 07.07.1997

§ 1 § 2 § 3 § 4 § 5 § 6 § 7 § 8 § 9

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142

DECLARATION

State Office for Nuclear Security

of 17 June 1997

on the type-approval of packaging sets for the transport, storage or storage of radionuclide emitters and nuclear materials, type-approval of sources of ionising radiation, type-approval of protective equipment for working with sources of ionising radiation and other equipment for working with them (type-approval)

According to § 47 (7) for the implementation of § 23 (1) to (5) of Act No. 18 / 1997 Coll., on the Peaceful Use of Nuclear Energy and Ionising Radiation (Atomic Act) and on the Amendment and Addition of Certain Laws ("the Act '):

Subject matter

§ 1

This Decree provides for the type-approval, verification and verification of compliance with the approved type of packaging files for the transport, storage or storage of nuclear materials and radionuclide radionuclides [§ 2 (c) (1) of the Act], sources of ionising radiation, protective work equipment for the work of ionising radiation sources and other equipment for the work of ionising radiation sources.

§ 2

(1) For the purposes of this decree:

(a) a package of components comprising, in particular, one or more containers, shielding, absorption material, internal distance structures, auxiliary and service equipment (valves, thermal insulation) necessary for the complete closure of radionuclide lamps, for their transport, storage or storage, providing at the same time nuclear safety and radiation protection for workers, operators and the population;

(b) radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionulator meeting the criteria set out in Part A of Annex 1 to this Decree;

(c) articles of surface-contaminated radionuclide (hereinafter referred to as surface-contaminated articles) which satisfy the criteria set out in Part B of Annex 1 to this Decree.

(2) The packaging files are divided into

(a) packaging sets of type PZ-1, PZ-2 or PZ-3 which are packaging files intended for the transport of radionuclide radionuclides with low specific activity or surface contaminated objects;

(b) type A packaging files, which are packaging files intended for transporting radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radion to the activity value A1 listed in Annex 4, if the radionuclide radionuclide radionuclide form is a special form, (1) or the A2 value referred to in Annex 4, if the radionuclide radionuclide radion is other than special forms,

(c) type B packaging files, which are packaging sets intended for the transport of radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionavium of activity which may exceed the values of A1 listed in Annex 4 if the radionuclide radionuclide radionulent is of a specific form, or which may exceed the values of A2 listed in Annex 4, other than special forms;

(d) transport and storage packages, which are packaging files intended for both transport and storage;

(e) S-type packaging sets, which are packaging sets intended for the storage of radionuclide radionuclide radionuclides, excluding minor and minor sources of ionising radiation;

(f) type D packaging files which are packaging files intended for the storage of radioactive waste.

§ 3

Type-approved products

(1) Types of approval

(a) type B packaging files for the transport of radionuclide radionuclides;

(b) packaging sets of type A, PZ-1, PZ-2 and PZ-3 for the transport of nuclear materials in quantities exceeding those specified in Annex 2 to the specific Regulation, 1)

(c) type S packaging files for the storage of radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionaphragm on an activity that may exceed the values of A1, as set out in Annex 4, or for the storage of nuclear materials in quantities exceeding those specified in Annex 2 to the specific Regulation, 1)

(d) packing packages for transport and storage where they or their components are subject to points (a), (b) or (c) of this paragraph;

(e) type D packaging files for the storage of spent or irradiated nuclear fuel or radioactive waste resulting from its reprocessing;

(f) radiation generators, other than insignificant sources of ionising radiation;

(g) closed radionuclide lamps and devices containing them;

(h) open radionuclide radionuclide lamps intended for use in medical and industrial applications, except for radiopharmaceuticals registered with the approval of the State Office for Nuclear Safety ("the Authority") pursuant to a specific regulation, 2)

(i) ionisation fire detectors;

(j) open radionuclide radionuclide lamps and equipment containing them, intended as demonstration aids for school teaching;

(k) open radionuclide lamps intended for use in households;

(l) protective work aids for working with sources of ionising radiation, except those for working with insignificant and small resources and radiopharmaceuticals registered with the approval of the Office under a special regulation, (2)

1. personal protective equipment for health at work with sources of ionising radiation;

2. other protective work equipment,

(m) other equipment intended for immediate activities with simple, significant and very significant sources of ionising radiation, the construction of which may affect the level of radiation protection.

(2) The sources of ionising radiation and the products referred to in paragraph 1 (l) and (m) which are not intended for circulation (e.g. equipment produced or imported for demonstration or testing purposes) are not subject to type approval.

§ 4

Application for type approval

(1) The application for type approval includes:

(a) the identification of the applicant, including the name and surname of the natural person, the birth number, the place of permanent residence, and, where applicable, the name and surname, the birth number, the place of permanent residence of the agent responsible, if any; in the case of a legal person, name and legal form, registered office, identification number, extract from the commercial register, name and surname, place of permanent residence of the person or persons who are its statutory authority;

(b) the name of the product and the type designation or other unambiguous identification of the product for which type approval is sought;

(c) a description of the use and the way in which the product is put into circulation and, in the case of sources of ionising radiation, a justification for its use under Article 4 (2) of the Act;

(d) draft procedures for verifying and assessing the conformity of individual product characteristics and parameters with the approved type, including the determination of the periodicity of operational controls and, for sources of ionising radiation, also data on the extent and manner of taking-over and long-term stability and stability and stability tests according to the specific Regulation;

(e) operator and maintenance instructions including rules on the safe handling of the product;

(f) the required period of validity of the type approval in the Czech Republic.

(2) The application for type approval shall also contain the following documents:

(a) for packages:

1. a description of the radionuclide emitters or nuclear materials for which the packaging is designed, in particular a description of their physical and chemical status;

2. a detailed description of the packaging file type, including complete technical drawings, a list of the materials and technological methods used in its manufacture;

3. the method of quality assurance for the production of the packaging as established for the type-approval series and the method of quality assurance for the design of the packaging type in accordance with the specific Regulation;

4. evidence of radiation protection and evidence of nuclear safety, if radionuclides in the package will be specific fissile materials [§ 2 (a) (1) bb) of the Act] or 241Pu,

5. where radionuclides in the package produce heat, also an evaluation of the measures to ensure the safe removal of heat from the package for the proposed means of transport or storage;

(b) for radionuclide heaters:

1. basic technical data on the source of ionising radiation, in the case of radionuclide radionuclides, in particular data on their activity, chemical and physical form,

2. the concept of decommissioning, including safe management of radioactive waste.

§ 5

Test documentation

(1) The documentation of the tests is part of the supporting documents for the Authority's decision on type approval,

(a) for packaging sets, reports of test results demonstrating compliance with the requirements of the relevant packaging type set out in Annexes 2 to 9 to this Decree, for:

1. packaging sets of type PZ-1, PZ-2, PZ-3 the requirements of Annexes 2 and 3 to this Decree,

2. packaging files of the type A requirements under Annexes 2 and 5 to this Decree,

3. Type B packaging sets requirements according to Annexes 2, 5 and 6 to this Decree;

4. transport and storage packages, the requirements for the relevant transport packages and the requirements laid down in Annexes 2 and 7 to this Decree;

5. type S packaging files the requirements set out in points 1, 2, 3, 4, 7, 8, 9 and 10 of Annex No 2, the requirements set out in points 2 to 14 of Annex No 5 and the requirements set out in Annex No 7 to this Decree,

6. type D packaging sets, the requirements set out in points 1, 2, 3, 4, 7, 8, 9 and 10 of Annex No 2, the requirements set out in points 2 to 14 of Annex No 5, the requirements set out in Annex No 7 to this Decree and the characteristics of these packages within the period considered until the closure of the repository;

7. packaging sets referred to in points 1 to 6 of this point and intended for special fissile materials and 241Pu in addition to the requirements set out in Annex 8 to this Decree;

(b) for radiation generators, reports of test results demonstrating compliance with Czech technical standards, 3)

(c) in the case of closed radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide radionuclide and equipment, the additional compliance of the radionuclide radionuclide radionuclide radionuclide with the requirements of Annex 1 to the specific Regulation is also complied with, 1)

(d) in the case of ionisation fire detectors, reports of test results demonstrating the degree of resistance in them contained radionuclide radionuclide radionuclide, fire resistance and industrial fire and tightness (4) during the normal user cleaning procedure throughout the recommended period of use;

(e) in the case of personal protective equipment for working with ionising radiation sources, reports of test results demonstrating the declared protective properties.

(2) Certain tests may be replaced by calculation or by reference to previous satisfactory results of tests of products of similar characteristics or, in the case of imported products, by documentation of approval in the country of origin or by tests or calculations carried out by authorised persons, provided that the reliability or conservativity of the calculation methods and parameters are acceptable to the Authority.

(3) Tests for type approval shall be carried out on the applicant's cargo at the Office of designated legal persons.

(4) The tests shall be carried out with prototypes or samples of products, or with models of an appropriate scale, which correspond to those relevant to the assessment of nuclear safety and radiation protection in the handling of the verified product. The tests of packaging sets, radionuclide radionuclides and equipment containing them shall be carried out, if possible, with a model mimicking the properties of the radionuclide content proposed.

§ 6

Type-approval procedure

(1) In the decision on type-approval, the Office shall indicate:

(a) identification of the applicant and the manufacturer;

(b) the name of the product and the type designation;

(2) In the decision on type-approval, the Office shall lay down the conditions for verifying and certifying compliance as provided for in Article 7 of this Regulation. For sources of ionising radiation, it shall determine in particular the frequency and extent of the stability tests.

§ 7

Scope and method of attesting conformity

(1) Verification of conformity of the characteristics and parameters of individual manufactured or imported products with an approved type shall be ensured by the manufacturer, importer or person putting into circulation:

(a) for each package subject to type approval pursuant to Article 3 of this Decree, to the extent specified in the decision on type approval;

(b) for each closed radionuclide radionuclide lamp, a leak test and, where appropriate, additional tests to the extent specified in the type approval decision;

(c) for a statistically selected sample of manufactured or imported other products to the extent specified in the type approval decision; The statistical selection key shall be indicated by the Authority in the decision on type approval of those products.

(2) Conformity of products with the approved type is demonstrated by the manufacturer, importer or person putting into circulation

(a) in the case of closed radionuclide radionuclide radionuclide radionuclide, a certificate according to a specific Regulation;

(b) in the case of open radionuclide radionuclide radionuclide radionuclide, by means of a movement certificate according to a specific regulation;

(c) in the case of packages, sources of ionising radiation other than radionuclide emitters, protective equipment and others in the decision on type-approval of specified products by written declaration of conformity.

(3) The packaging file for which a written declaration of conformity of the products with the approved type has been issued shall bear the Czech mark of conformity (5) and the identification number assigned by the legal person verifying the conformity.

§ 8

Transitional provision

The source of ionising radiation, the prototype of which has been positively assessed in accordance with Section 14 of the Decree of the Ministry of Health of the Czech Socialist Republic No. 59 / 1972 Coll., on the protection of health against ionising radiation, shall be considered to be of a type approved under this Decree, for the period for which the relevant decision was given, but no later than 1 July 2002.

§ 9

Efficacy

This decree shall take effect on the day of its publication.

Chairman:

Ing. Stuller v. r.

Příloha č. 1

Annex No 1 to Decree No. 142 / 1997 Coll.

RADIONCULATED SETTLEMENT ON LESS MEASURING ACTIVITY AND SUPPLIED CONTAMINATED SUBJECT MATTERS

Low specific activity radionuclide lamp (NMA)

(1) The low specific activity (NMA) lamp is a radionuclide radionuclide that has a naturally limited specific activity or a radionuclide radionuclide that has been deliberately limited by its average specific activity. When determining the average specific activity, the external shielding surrounding the NMA material shall not be counted on.

(2) The NMA lamps are divided into three groups:

(a) NMA- I, comprising:

1. ores containing natural radionuclides, i.e. uranium, thorium and uranium or thorium concentrates of these ores; or

2. solid unirradiated natural uranium or depleted uranium or natural thorium, or their solid or liquid compounds or mixtures; or

3. radioactive material, other than fissile material, for which the A2 value is not limited.

(b) NMA- II, comprising:

1. water with a tritium volume activity up to 0,8 TBq / l; or

2. another radionuclide radionuclide lamp with a dispersed activity and a determined average specific activity not exceeding 10-4 A2 / g for solids and gases or 10-5 A2 / g for liquids.

1. radionuclide radionuclide radiators, dispersed in solid material or solid objects, or evenly divided into solid compact binding agents (such as concrete, bitumen, ceramics, etc.); or

2. A radionuclide lamp which is so insoluble or is bound in such an insoluble substance that even in the event of a breach or loss of packaging, the leakage of radioactive material from a single package by seven days of leaching in water would not exceed 0,1 A2; or

3. a fixed radionuclide radionuclide radiator whose determined average specific activity (without shielding material) does not exceed 2.10-3 A2 / g.

Surface contaminated objects (PKP)

(1) Surface contaminated objects (PKP) are solid objects which are not themselves radioactive but have a radionuclide radionuclide on their surface.

(2) PKP is divided into two groups.

(a) PKP-I, which are fixed objects on which

1. non-fixed and fixed contamination at the same time on an inaccessible surface with an area of more than 300 cm2 (or on an entire surface if it is less than 300 cm2) does not exceed 40 kBq / cm2 for beta, gamma and low toxic radionuclide radionuclides emitting alpha radiation or 4 kBq / cm2 for other radionuclide radionuclides emitting alpha radiation;

2. non-fixed contamination6) on an accessible surface of more than 300 cm2 (or on an entire surface if it is less than 300 cm2) does not exceed a surface activity value of 4 Bq / cm2 for beta and gamma-emitting radionuclides, uranium and thorium radionuclides and other radionuclide radionuclides with a half-life of less than 10 days of alpha-emitting alpha-radiation (low-toxic radionuclide radionuclides) or 0,4 Bq / cm2 for other alpha-emitting radionuclides radionuclides; and

3. fixed contamination on an accessible surface of more than 300 cm2 (or on an entire surface if less than 300 cm2) does not exceed a surface activity value of 40 kBq / cm2 for beta and gamma radionuclide radiators, for alpha-emitting low-toxic radionuclide lamps or 4,0 kBq / cm2 for other alpha-emitting radionuclide lamps.

(b) PKP-II, which are solid objects on whose surface the fixed or unfixed contamination exceeds the limits indicated for PKP-I and on which:

1. unfixed and fixed contamination at the same time on an inaccessible surface of more than 300 cm2 (or on an entire surface if less than 300 cm2) does not exceed 800 kBq / cm2 for beta, gamma and low toxic alpha emitters or 80 kBq / cm2 for other alpha emitters;

2. non-fixed contamination on an accessible surface of more than 300 cm2 (or on an entire surface if less than 300 cm2) does not exceed 400 Bq / cm2 for beta, gamma and low toxic alpha lamps or 40 Bq / cm2 for other alpha lamps; and

3. fixed contamination on an accessible surface of more than 300 cm2 (or on an entire surface if less than 300 cm2) does not exceed 800 kBq / cm2 for beta, gamma and low toxic alpha lamps or 80 kBq / cm2 for other alpha lamps.

Příloha č. 2

Annex No 2 to Decree No. 142 / 1997 Coll.

GENERAL REQUIREMENTS FOR OBAL FILES

(1) The packaging file must be so constructed that it can be easily and safely handled and transported with regard to its weight, volume and shape. It shall be so designed that it can be properly secured in the means of transport.

(2) The design of the packaging file must ensure that any clamping device on the packaging file is functional when used in the manner prescribed by the manufacturer and that, in the event of failure of this device, the capacity of the packaging file to meet the other requirements laid down in this Decree is not impaired. The design shall take into account the relevant safety factors in case of market lifting of the packaging.

(3) The fastening device and any other attachments on the outer surface of the packaging file which may be used to lift it shall be so designed as to maintain its mass in accordance with the requirements of paragraph 2, or to be removed or otherwise discarded during transport.

(4) The surface of the packaging file, if practically possible, must be constructed without the exiting parts and in such a way that water is not precipitated and not maintained and can be easily decontaminated.

(5) Any device connected to a packaging file during transport which is not part of it must not reduce its safety.

(6) The packaging file shall be able to withstand the effects of acceleration, vibration or resonance from vibration which may occur under conditions foreseeable during normal transport, without reducing the efficiency of the sealing devices of the various packaging compartments or the integrity of the packaging file as a whole. In particular, nuts, bolts and other locking devices shall be designed to prevent their spontaneous release and loss or loss of their function.

(7) The materials of the packaging file and any parts thereof must be physically and chemically tolerable to each other and comply with radionuclides in the packaging file, including anticipated changes after exposure.

(8) Any seals likely to leak radionuclides must be secured before unauthorised use.

(9) The packaging file shall contain:

(a) indicate the gross (total) weight, if more than 50 kg,

(b) for type A, the designation "TYPE A,"

1. the designation "TYPE B (U)" for packages meeting the requirements of Annex 2, points 1 to 14 of Annex 5 and the requirements of points 2 to 13 of Annex 6

3. the identification mark assigned to the packaging file by the Office or competent authority of the country of origin,

4. a serial number marked individually identifying each packaging;

5. on the outer surface marked in a durable way with a symbol of radioactivity

(d) where the package is approved for the transport of special fissile materials and 241Pu, "F" shall be added to the above designation.

(10) Where the packaging is designed for normal operating conditions to a maximum internal pressure exceeding 100 kPa, the manufacturer shall also describe the method of sampling of the container material of the packaging and the results of the pressure vessel tests carried out and the design material of the pressure vessel of the packaging shall be specified.

Příloha č. 3

Annex No. 3 to Decree No. 142 / 1997 Coll.

REQUIREMENTS FOR TYPE PZ-1, PZ-2 AND PZ-3 OBAL FILES

(1) The PZ-1 packaging file shall be so designed that its smallest outer overall dimension is not less than 100 mm.

(2) The PZ-2 type packaging file shall be so designed as to meet the requirements laid down for the PZ-1 type packaging file in accordance with paragraph 1 and, if subjected to an open fall test (Annex 9, Part II, paragraph 5) and the pressure test (Annex 9, Part II, paragraph 6), shall prevent:

(a) the loss or dispersion of radionuclides; and

(b) loss of shielding efficiency, which would cause more than 20% increase in dose equivalent power at any point in its external surface.

(3) The PZ-3 packaging file shall be so designed as to meet the requirements laid down for the PZ-1 packaging file in accordance with paragraph 1 and in addition the requirements laid down for the Type A packaging set in Annex 5, paragraphs 2 to 14.

(4) In the PZ-1 package, surface-contaminated articles (PKP) may be transported in accordance with Annex 1 to this Decree, namely the PKP-1 group or the low-specific activity material (NMA) referred to in Annex 1 to this Regulation, namely the NMA-1 group in solid form. NMA-1 in liquid form can only be transported in a PZ-1 packaging file for exclusive use (7).

(5) In the PZ-2 package, PKP-2 or NMA-1 can be transported in liquid form or NMA-2 in solid form. NMA-2 in gaseous and liquid form and NMA-3 can only be transported in the PZ-2 packaging file for exclusive use (7).

(O) NMA-2 can be transported in gaseous and liquid form and NMA-3 in the PZ-3 packaging file.

Příloha č. 4

Annex No. 4 to Decree No. 142 / 1997 Coll.

Table 1. ASSETS A1, A2

radionuklid (atomové číslo)	A₁	A₂
	[TBq]	[TBq]
Aktinium (89)
Ac-225 (a)	8×10^-1	6×10^-3
Ac-227 (a)	9×10^-1	9×10^-5
Ac-228	6×10^-1	5×10^-1
Stříbro (47)
Ag-105	2×10⁰	2×10⁰
Ag-108m (a)	7×10^-1	7×10^-1
Ag-110m (a)	4×10^-1	4×10^-1
Ag-111	2×10⁰	6×10^-1
Hliník (13)
Al-26	1×10^-1	1×10^-1
Americium (95)
Am-241	1×10¹	1×10^-3
Am-242m (a)	1×10¹	1×10^-3
Am-243 (a)	5×10⁰	1×10^-3
Argon (18)
Ar-37	4×10¹	4×10¹
Ar-39	4×10¹	4×10¹
Ar-41	3×10^-1	3×10^-1
Arsen (33)
As-72	3×10^-1	3×10^-1
As-73	4×10¹	4×10¹
As-74	1×10⁰	9×10^-1
As-76	3×10^-1	3×10^-1
As-77	2×10¹	7×10^-1
Astat (85)
At-211 (a)	2×10¹	5×10^-1
Zlato (79)
Au-193	7×10⁰	2×10⁰
Au-194	1×10⁰	1×10⁰
Au-195	1×10¹	6×10⁰
Au-198	1×10⁰	6×10^-1
Au-199	1×10¹	6×10^-1
Barium (56)
Ba-131 (a)	2×10⁰	2×10⁰
Ba-133	3×10⁰	3×10⁰
Ba-133m	2×10¹	6×10^-1
Ba-140 (a)	5×10^-1	3×10^-1
Berylium (4)
Be-7	2×10¹	2×10¹
Be-10	4×10¹	6×10^-1
Vizmut (83)
Bi-205	7×10^-1	7×10^-1
Bi-206	3×10^-1	3×10^-1
Bi-207	7×10^-1	7×10^-1
Bi-210	1×10⁰	6×10^-1
Bi-210m (a)	6×10^-1	2×10^-2
Bi-212 (a)	7×10^-1	6×10^-1
Berkelium (97)
Bk-247	8×10⁰	8×10^-4
Bk-249 (a)	4×10¹	3×10^-1
Brom (35)
Br-76	4×10^-1	4×10^-1
Br-77	3×10⁰	3×10⁰
Br-82	4×10^-1	4×10^-1
Uhlík (6)
C-11	1×10⁰	6×10^-1
C-14	4×10¹	3×10⁰
Vápník (20)
Ca-41	Neomezeně	Neomezeně
Ca-45	4×10¹	1×10⁰
Ca-47 (a)	3×10⁰	3×10^-1
Kadmium (48)
Cd-109	3×10¹	2×10⁰
Cd-113m	4×10¹	5×10^-1
Cd-115 (a)	3×10⁰	4×10^-1
Cd-115m	5×10^-1	5×10^-1
Cer (58)
Ce-139	7×10⁰	2×10⁰
Ce-141	2×10¹	6×10^-6
Ce-143	9×10^-1	6×10^-1
Ce-144 (a)	2×10^-1	2×10^-1
Kalifornium (98)
Cf-248	4×10¹	6×10^-3
Cf-249	3×10⁰	8×10^-4
Cf-250	2×10¹	2×10^-3
Cf-251	7×10⁰	7×10^-4
Cf-252	5×10^-2	3×10^-3
Cf-253 (a)	4×10¹	4×10^-2
Cf-254	1×10^-3	1×10^-3
Chlor (17)
Cl-36	1×10¹	6×10^-1
Cl-38	2×10^-1	2×10^-1
Curium (96)
Cm-240	4×10¹	2×10^-2
Cm-241	2×10⁰	1×10⁰
Cm-242	4×10¹	1×10^-2
Cm-243	9×10⁰	1×10^-3
Cm-244	2×10¹	2×10^-3
Cm-245	9×10⁰	9×10^-4
Cm-246	9×10⁰	9×10^-4
Cm-247 (a)	3×10⁰	1×10^-3
Cm-248	2×10^-2	3×10^-4
Kobalt (27)
Co-55	5×10^-1	5×10^-1
Co-56	3×10^-1	3×10^-1
Co-57	1×10¹	1×10¹
Co-58	1×10⁰	1×10⁰
Co-58m	4×10¹	4×10¹
Co-60	4×10^-1	4×10^-1
Chrom (24)
Cr-51	3×10¹	3×10¹
Cesium (55)
Cs-129	4×10⁰	4×10⁰
Cs-131	3×10¹	3×10¹
Cs-132	1×10⁰	l×10⁰
Cs-134	7×10^-1	7×10^-1
Cs-134m	4×10^-1	6×10^-1
Cs-135	4×10¹	1×10⁰
Cs-136	5×10^-1	5×10^-1
Cs-137 (a)	2×10⁰	6×10^-1
Měď (29)
Cu-64	6×10⁰	1×10⁰
Cu-67	1×10¹	7×10^-1
Dysprosium (66)
Dy-159	2×10¹	2×10¹
Dy-165	9×10^-1	6×10^-1
Dy-166 (a)	9×10^-1	3×10^-1
Erbium (68)
Er-169	4×10¹	1×10⁰
Er-171	8×10^-1	5×10^-1
Europium (63)
Eu-147	2×10⁰	2×10⁰
Eu-148	5×10^-1	5×10^-1
Eu-149	2×10¹	2×10¹
Eu-150 (s krátkým poločasem)	2×10⁰	7×10^-1
Eu-150 (s dlouhým poločasem)	7×10^-1	7×10^-1
Eu-152	1×10⁰	1×10⁰
Eu-152m	8×10^-1	8×10^-1
Eu-154	9×10^-1	6×10^-1
Eu-155	2×10¹	3×10⁰
Eu-156	7×10^-1	7×10^-1
Fluor (9)
F-18	1×10⁰	6×10^-1
Železo (26)
Fe-52 (a)	3×10^-1	3×10^-1
Fe-55	4×10¹	4×10¹
Fe-59	9×10^-1	9×10^-1
Fe-60 (a)	4×10¹	2×10^-1
Galium (31)
Ga-67	7×10⁰	3×10⁰
Ga-68	5×10^-1	5×10^-1
Ga-72	4×10^-1	4×10^-1
Gadolinium (64)
Gd-146 (a)	5×10^-1	5×10^-1
Gd-148	2×10¹	2×10^-3
Gd-153	1×10¹	9×10⁰
Gd-159	3×10⁰	6×10^-1
Germanium (32)
Ge-68 (a)	5×10^-1	5×10^-1
Ge-71	4×10¹	4×10¹
Ge-77	3×10^-1	3×10^-1
Hafnium (72)
Hf-172 (a)	6×10^-1	6×10^-1
Hf-175	3×10⁰	3×10⁰
Hf-181	2×10⁰	5×10^-1
Hf-182	Neomezeně	Neomezeně
Rtuť (80)
Hg-194 (a)	1×10⁰	1×10⁰
Hg-195m (a)	3×10⁰	7×10^-1
Hg-197	2×10¹	1×10¹
Hg-197m	1×10¹	4×10^-1
Hg-203	5×10⁰	1×10⁰
Holmium (67)
Ho- 166	4×10^-1	4×10^-1
Ho-166m	6×10^-1	5×10^-1
Jod (53)
I-123	6×10⁰	3×10⁰
I-124	1×10⁰	1×10⁰
I-125	2×10¹	3×10⁰
I-126	2×10⁰	1×10⁰
I-129	Neomezeně	Neomezeně
I-131	3×10⁰	7×10^-1
I-132	4×10^-1	4×10^-1
I-133	7×10^-1	6×10^-1
I-134	3×10^-1	3×10^-1
I-135 (a)	6×10^-1	6×10^-1
Indium (49)
In-111	3×10⁰	3×10⁰
In-113m	4×10⁰	2×10⁰
In-114m (a)	1×10¹	5×10^-1
In-115m	7×10⁰	1×10⁰
Iridium (77)
Ir-189 (a)	1×10¹	1×10¹
Ir-190	7×10^-1	7×10^-1
Ir-192	1×10⁰ Ď	6×10^-1
Ir-194	3×10^-1	3×10^-1
Draslík (19)
K-40	9×10^-1	9×10^-1
K-42	2×10^-1	2×10^-1
K-43	7×10^-1	6×10^-1
Krypton (36)
Kr-81	4×10¹	4×10¹
Kr-85	1×10¹	1×10¹
Kr-85m	8×10⁰	3×10⁰
Kr-87	2×10^-1	2×10^-1
Lantan (57)
La-137	3×10¹	6×10⁰
La-140	4×10^-1	4×10^-1
Lutecium (71)
Lu-172	6×10^-1	6×10^-1
Lu-173	8×10⁰	8×10⁰
Lu-174	9×10⁰	9×10⁰
Lu-174m	2×10¹	1×10¹
Lu-177	3×10¹	7×10^-1
Hořčík (12)
Mg-28 (a)	3×10^-1	3×10^-1
Mangan (25)
Mn-52	3×10^-1	3×10^-1
Mn-53	Neomezeně	Neomezeně
Mn-54	1×10⁰	1×10⁰
Mn-56	3×10^-1	3×10^-1
Molybden (42)
Mo-93	4×10¹	2×10¹
Mo-99 (a)	1×10⁰	6×10^-1
Dusík(7)
N-13	9×10^-1	6×10^-1
Sodík (11
Na-22	5×10^-1	5×10^-1
Na-24	2×10^-1	2×10^-1
Niob (41)
Nb-93m	4×10¹	3×10¹
Nb-94	7×10^-1	7×10^-1
Nb-95	1×10⁰	1×10⁰
Nb-97	9×10^-1	6×10^-1
Neodym (60)
Nd-147	6×10⁰	6×10^-1
Nd-149	6×10^-1	5×10^-1
Nikl (28)
Ni-59	Neomezeně	Neomezeně
Ni-63	4×10¹	3×10¹
Ni-65	4×10^-1	4×10^-1
Neptunium (93)
Np-235	4×10¹	4×10¹
Np-236 (s krátkým poločasem)	2×10¹	2×10⁰
Np-236 (s dlouhým poločasem)	9×10⁰	2×10^-2
Np-237	2×10¹	2×10^-3
Np-239	7×10⁰	4×10^-1
Osmium (76)
Os-185	1×10⁰	1×10⁰
Os-191	1×10¹	2×10⁰
Os-191m	4×10¹	3×10¹
Os-193	2×10⁰	6×10^-1
Os-194 (a)	3×10^-1	3×10^-1
Fosfor (15)
P-32	5×10^-1	5×10^-1
P-33	4×10¹	1×10⁰
Protaktinium (91)
Pa-230 (a)	2×10⁰	7×10^-2
Pa-231	4×10⁰	4×10^-4
Pa-233	5×10⁰	7×10^-1
Olovo (82)
Pb-201	1×10⁰	1×10⁰
Pb-202	4×10¹	2×10¹
Pb-203	4×10⁰	3×10⁰
Pb-205	Neomezeně	Neomezeně
Pb-210 (a)	1×10⁰	5×10^-2
Pb-212 (a)	7×10^-1	2×10^-1
Paladium (46)
Pd-103 (a)	4×10¹	4×10¹
Pd-107	Neomezeně	Neomezeně
Pd-109	2×10⁰	5×10^-1
Prometium (61)
Pm-143	3×10⁰	3×10⁰
Pm-144	7×10^-1	7×10^-1
Pm-145	3×10¹	1×10¹
Pm-147	4×10¹	2×10⁰
Pm-148m (a)	8×10^-1	7×10^-1
Pm-149	2×10⁰	6×10^-1
Pm-151	2×10⁰	6×10^-1
Polonium (84)
Po-210	4×10¹	2×10^-2
Praseodym (59)
Pr-142	4×10^-1	4×10^-1
Pr-143	3×10⁰	6×10^-1
Platina (78)
Pt-188 (a)	1×10⁰	8×10^-1
Pt-191	4×10⁰	3×10⁰
Pt-193	4×10¹	4×10¹
Pt-193m	4×10¹	5×10^-1
Pt-195m	1×10¹	5×10^-1
Pt-197	2×10¹	6×10^-1
Pt-197m	1×10¹	6×10^-1
Plutonium (94)
Pu-236	3×10¹	3×10^-3
Pu-237	2×10¹	2×10¹
Pu-238	1×10¹	1×10^-3
Pu-239	1×10¹	1×10^-3
Pu-240	1×10¹	1×10^-3
Pu-241 (a)	4×10¹	6×10^-2
Pu-242	1×10¹	1×10^-3
Pu-244 (a)	4×10^-1	1×10^-3
Radium (88)
Ra-223 (a)	4×10^-1	7×10^-3
Ra-224 (a)	4×10^-1	2×10^-2
Ra-225 (a)	2×10^-1	4×10^-3
Ra-226 (a)	2×10^-1	3×10
Ra-228 (a)	6×10^-1	2×10^-2
Rubidium (37)
Rb-81	2×10⁰	8×10^-1
Rb-83 (a)	2×10⁰	2×10⁰
Rb-84	1×10⁰	1×10⁰
Rb-86	5×10^-1	5×10^-1
Rb-87	Neomezeně	Neomezeně
Rb (přírodní)	Neomezeně	Neomezeně
Rhenium (75)
Re-184	1×10⁰	1×10⁰
Re-184m	3×10⁰	1×10⁰
Re-186	2×10⁰	6×10^-1
Re-187	Neomezeně	Neomezeně
Re-188	4×10^-1	4×10^-1
Re-189(a)	3×10⁰	6×10^-1
Re (přírodní)	Neomezeně	Neomezeně
Rhodium (45)
Rh-99	2×10⁰	2×10⁰
Rh-10¹	4×10⁰	3×10⁰
Rh-102	5×10^-1	5×10^-1
Rh-102m	2×10⁰	2×10⁰
Rh-103m	4×10¹	4×10¹
Rh-105	1×10¹	8×10^-1
Radon (86)
Rn-222 (a)	3×10^-1	4×10^-3
Ruthenium (44)
Ru-97	5×10⁰	5×10⁰
Ru-103 (a)	2×10⁰	2×10⁰
Ru-105	1×10⁰	6×10^-1
Ru-106 (a)	2×10^-1	2×10^-1
Síra (16)
S-35	4×10¹	3×10⁰
Antimon (51)
Sb-122	4×10^-1	4×10^-1
Sb-124	6×10^-1	6×10^-1
Sb-125	2×10⁰	1×10⁰
Sb-126	4×10^-1	4×10^-1
Skandium (21)
Sc-44	5×10^-1	5×10^-1
Sc-46	5×10^-1	5×10^-1
Sc-47	1×10¹	7×10^-1
Sc-48	3×10^-1	3×10^-1
Selen (34)
Se-75	3×10⁰	3×10⁰
Se-79	4×10¹	2×10⁰
Křemík (14)
Si-31	6×10^-1	6×10^-1
Si-32	4×10¹	5×10^-1
Samarium (62)
Sm-145	1×10¹	1×10¹
Sm-147	Neomezeně	Neomezeně
Sm-151	4×10¹	1×10¹
Sm-153	9×10⁰	6×10^-1
Cín (50)
Sn-113 (a)	4×10⁰	2×10⁰
Sn-117m	7×10⁰	4×10^-1
Sn-119m	4×10¹	3×10¹
Sn-121m (a)	4×10¹	9×10^-1
Sn-123	8×10^-1	6×10^-1
Sn-125	4×10^-1	4×10^-1
Sn-126 (a)	6×10^-1	4×10^-1
Stroncium (38)
Sr-82 (a)	2×10^-1	2×10^-1
Sr-85	2×10⁰	2×10⁰
Sr-85m	5×10⁰	5×10⁰
Sr-87m	3×10⁰	3×10⁰
Sr-89	6×10^-1	6×10^-1
Sr-90 (a)	3×10^-1	3×10^-1
Sr-91 (a)	3×10^-1	3×10^-1
Sr-92 (a)	1×10⁰	3×10^-1
Tricium (1)
T(H-3)	4X10¹	4X10¹
Tantal (73)
Ta-178 (s dlouhým poločasem)	1×10⁰	8×10^-1
Ta-179	3×10¹	3×10¹
Ta-182	9×10^-1	5×10^-1
Terbium (65)
Tb-157	4×10¹	4×10¹
Tb-158	1×10⁰	1×10⁰
Tb-160	1×10⁰	6×10^-1
Technecium (43)
Tc-95m (a)	2×10⁰	2×10⁰
Tc-96	4×10^-1	4×10^-1
Tc-96m (a)	4×10^-1	4×10^-1
Tc-97	Neomezeně	Neomezeně
Tc-97m	4×10¹	1×10⁰
Tc-98	8×10^-1	7×10^-1
Tc-99	4×10¹	9×10^-1
Tc-99m	1×10¹	4×10⁰
Telur (52)
Te-121	2×10⁰	2×10⁰
Te-121m	5×10⁰	3×10⁰
Te-123m	8×10⁰	1×10⁰
Te-125m	2×10¹	9×10^-1
Te-127	2×10¹	7×10^-1
Te-127m (a)	2×10¹	5×10^-1
Te-129	7×10^-1	6×10^-1
Te-129m (a)	8×10^-1	4×10^-1
Te-131m (a)	7×10^-1	5×10^-1
Te-132 (a)	5×10^-1	4×10^-1
Thorium (90)
Th-227	1×10¹	5×10^-3
Th-228 (a)	5×10^-1	1×10^-3
Th-229	5×10⁰	5×10^-4
Th-230	1×10¹	1×10^-3
Th-231	4×10¹	2×10^-2
Th-232	Neomezeně	Neomezeně
Th-234 (a)	3×10^-1	3×10^-1
Th (přírodní)	Neomezeně	Neomezeně
Titan (22)
Ti-44 (a)	5×10^-1	4×10^-1
Thalium (81)
Tl-200	9×10^-1	9×10^-1
Tl-201	1×10¹	4×10⁰
Tl 202	2×10⁰	2×10⁰
Tl-204	1×10¹	7×10^-1
Thulium (69)
Tm-167	7×10⁰	8×10^-1
Tm-170	3×10⁰	6×10^-1
Tm-171	4×10¹	4×10¹
Uran (92)
U-230 (rychlá retence) (a) (d)	4×10¹	1×10^-1
U-230 (středně rychlá retence) (a) (e)	4×10¹	4×10^-3
U-230 (pomalá retence) (a) (f)	3×10¹	3×10^-3
U-232 () (d)	4×10¹	1×10^-2
U-232 () (e)	4×10¹	7×10^-3
U-232 (pomalá retence) (f)	1×10¹	1×10^-3
U-233 (rychlá retence) (d)	4×10¹	9×10^-2
U-233 () (e)	4×10¹	2×10^-2
U-233 (pomalá retence) (g)	4×10¹	6×10^-3
U-234 (rychlá retence) (d)	4×10¹	9×10^-2
U-234 ( středně rychlá retence)(e)	4×10¹	2×10^-2
U-234 () (f)	4×10¹	6×10^-3
U-235 (všechny typy retence) (a), (d),(e), (f)	Neomezeně	Neomezeně
U-236 (rychlá retence) (d)	Neomezeně	Neomezeně
U-236 (středně rychlá retence) (e)	4×10¹	2×10^-2
U-236 (pomalá retence) (f)	4×10¹	6×10^-3
U-238 (všechny typy retence) (d), (e), (f)	Neomezeně	Neomezeně
U (přírodní)	Neomezeně	Neomezeně
U (obohacený do 20% nebo méně) (g)	Neomezeně	Neomezeně
U (ochuzený)	Neomezeně	Neomezeně
Vanad (23)
V-48	4×10^-1	4×10^-1
V-49	4×10¹	4×10¹
Wolfram (74)
W-178 (a)	9×10⁰	5×10⁰
W-181	3×10¹	3×10¹
W-185	4×10¹	8×10^-1
W-187	2×10⁰	6×10^-1
W-188 (a)	4×10^-1	3×10^-1
Xenon (54)
Xe-122 (a)	4×10^-1	4×10^-1
Xe-123	2×10⁰	7×10^-1
Xe-127	4×10⁰	2×10⁰
Xe-131m	4×10¹	4×10¹
Xe-133	2×10¹	1×10¹
Xe-135	3×10⁰	2×10⁰
Ytrium (39)
Y-87 (a)	1×10⁰	1×10⁰
Y-88	4×10^-1	4×10^-1
Y-90	3×10^-1	3×10^-1
Y-91	6×10^-1	6×10^-1
Y-91m	2×10⁰	2×10⁰
Y-92	2×10^-1	2×10^-1
Y-93	3×10^-1	3×10^-1
Yterbium (79)
Yb-169	4×10⁰	1×10⁰
Yb-175	3×10¹	9×10^-1
Zinek (30)
Zn-65	2×10⁰	2×10⁰
Zn-69	3×10⁰	6×10^-1
Zn-69m (a)	3×10⁰	6×10^-1
Zirkonium (40)
Zr-88	3×10⁰	3×10⁰
Zr-93	Neomezeně	Neomezeně
Zr-95 (a)	2×10⁰	8×10^-1
Zr-97 (a)	4×10^-1	4×10^-1

(a) activity values A1 or A2 or both include contributions of radioactive transformation products with a half-life of less than 10 days

(b) radionuclides and products of their radioactive transformation corresponding to a permanent equilibrium are listed below:

Sr-90	Y-90
Zr93	Nb-93m
Zr-97	Nb-97
Ru-106	Rh-106
Cs-137	Ba-137m
Ce-134	La-134
Ce-l44	Pr-144
Ba-140	La-140
Bi-212	Tl-208 (0.36), Po-212 (0.64)
Pb-210	Bi-210, Po-210
Pb-212	Bi-212, Tl-208 (0.36), Po-212 (0.64)
Rn-220	Po-216
Rn-222	Po-218, Pb-214, Bi-214, Po-214
Ra-223	Rn-219, Po-215, Pb-211, Bi-211, Tl-207
Ra-224	Rn-220, Po-216, Pb-212, Bi-212, Tl-208 (0.36), Po-212 (0.64)
Ra-226	Rn-222, Po-218, Pb-214, Po-214, Pb-210, Bi-210, Po-210
Ra-228	Ac-228
Th-226	Ra-222, Rn-218, Po-214
Th-228	Ra-224, Rn-220, Po-216, Pb212, Bi-212, Tl208 (0.36), Po-212 (0.64)
Th-229	Ra-225, Ra-225, Fr-221, At-217, Bi-213, Po-213, Pb-209
Th-přírodní	Ra-228, Ac-228, Th-228, Ra-224, Rn-220, Po-216, Pb-212, Bi-212, T1-208(0.36),Po-212(0.64)
Th-234	Pa-234m
U-230	Th-226, Ra-222, Rn-218, Po-214
U-232	Th-228, Ra-224, Rn-220, Po-216, Pb-212, Bi-212, Tl-208 (0.36), Po-212 (0.64)
U-235	Th-231
U-238	Th-234, Pa-234m
U-přírodní	Th-234, Pa-234m, U-234, Th-230, Ra-226, Rn-222, Po-218, Pb-214, Bi-214, Po-214, Pb-210, Bi-210, Po-210
U-240	Np-240m
Np-237	Pa-233
Am-242m	Am-242
Am-243	Np-239

(c) The quantity may be determined by measuring the rate of conversion or by measuring the dose input at a specified distance from the radionuclide radionuclide.

(d) These values are only applicable to the following uranium compounds: UF6, U2F2, UO2 (NO3) 2

(e) These values are only applicable to the following uranium compounds: UO3, UF4, UCl4 and hexavalent uranium compounds.

(f) These values are applicable to other uranium compounds not mentioned in (d) and (e).

(g) These values are valid only for unirradiated uranium.

Table 2. Values of ACTIVIT A1, A2 for unspecified radionuclides and mixtures thereof

Radionuklidy	A₁	A₂
	[TBq]	[TBq]
Je známa pouze přítomnost radionuklidů emitujících záření beta nebo gama	0,1	0,02
Je známa pouze přítomnost radionuklidů emitujících záření alfa	0,2	9×10^-5
Žádné dostupné údaje	0,001	9×10^-5

Příloha č. 5

Annex 5 to Decree No. 142 / 1997 Coll.

REQUIREMENTS FOR TYPE A OBAL FILES, TYPE B

(1) The packaging file shall be so designed that its smallest outer overall dimension is not less than 100 mm.

(2) The outer surface of the packaging shall allow sealing or sealing of the file in such a way as to ensure that the seal or seal cannot be easily broken and the packaging file opened unchecked.

(3) Any linings on the packaging file shall be so designed that the stresses arising from these linings in the tests specified for the packaging file in Annex 9 to this Regulation do not interfere with the ability of the packaging to comply with the requirements of this Regulation.

(4) The project must take into account that individual parts of the packaging can be exposed to temperatures from - 40 ° C to + 70 ° C. Special attention shall be paid to low temperatures in the case of liquid contents and the possibility of degradation of packaging materials within a given temperature range.

(5) The design and technology of the material processing and manufacture of the packaging package must comply with the method of quality assurance in accordance with the specific Regulation.

(6) The packaging file project shall contain a system to prevent the leakage of its projected content of radionuclides into the environment (hereinafter referred to as the "restraint system '), which can be safely closed by a closing mechanism which cannot be opened accidentally or due to pressure which may arise in a packaging filled with the proposed content.

(7) Radioactive material of a special form may be considered as part of the restraint system.

(8) If the restraint system consists of a special unit of the packaging file, it shall be securely closed by a closing mechanism independent of any other component of the packaging package or its contents.

(9) The design of any part of the restraint shall, whenever applicable, take into account the radiolytic decomposition of liquids and other unstable materials and the formation of gas by chemical reaction and radiolysis.

Zobrazit všechna ustanovení (340)

§ 1 § 2 § 3 § 4 § 5 § 6 § 7 § 8 § 9

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Regulation Information

Citation	Decree of the State Office of Nuclear Safety No. 142 / 1997 Coll., on the type-approval of packaging sets for the transport, storage or storage of radionuclide radionuclides and nuclear materials, type-approval of sources of ionising radiation, type-approval of protective equipment for working with sources of ionising radiation and other equipment for working with them (type-approval)
Regulation Type	Order
Author	-
Collection	Code of Laws

Date of Promulgation	07.07.1997
Effective from	07.07.1997
Effective until	-
Status	Valid

Legal Areas: Health and safety at work Economic (State) Commercial law Labour law Industrial rights Administrative law Environment

The regulation text is for informational purposes only.

Decree No. 142 / 1997 Coll.

Contents

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