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GB/T 14054-2013: Radiation protection instrumentation -- Installed dose rate meters, warning assemblies and monitors for X and gamma radiation of energy between 50 keV and 7 MeV
Status: Valid GB/T 14054: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| GB/T 14054-2013 | English | 734 |
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Radiation protection instrumentation -- Installed dose rate meters, warning assemblies and monitors for X and gamma radiation of energy between 50 keV and 7 MeV
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GB/T 14054-2013
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| GB/T 14054-1993 | English | 679 |
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Installed X or gamma radiation doserate meters, warning assemblies and monitors for use in radiation protection
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GB/T 14054-1993
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Basic data | Standard ID | GB/T 14054-2013 (GB/T14054-2013) | | Description (Translated English) | Radiation protection instrumentation -- Installed dose rate meters, warning assemblies and monitors for X and gamma radiation of energy between 50 keV and 7 MeV | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | F84 | | Classification of International Standard | 13.280 | | Word Count Estimation | 37,395 | | Older Standard (superseded by this standard) | GB/T 14054-1993 | | Quoted Standard | GB/T 2900.81-2008; GB/T 2900.82-2008; GB/T 2900.83-2008; GB/T 12162.1-2000; GB/T 12162.2-2004; GB/T 12162.3-2004; GB/T 12162.4-2010; GB/T 12164.1-2008; GB/T 14055.1-2008; GB/T 14055.2-2012; GB/T 16511-1996; GB/T 17626.4-2008; GB/T 17626.5-2008; NB/T 20026 | | Adopted Standard | IEC 60532-2010 IDT | | Regulation (derived from) | National Standards Bulletin No. 21 of 2013 | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This standard applies to: fixed dose rate meter, alarm devices and monitors, these instruments is used to prevent or mitigate the release of radioactive or deterioration of fuel to keep it at a nuclear power plant (NPP)/nuclear facility (NF) within the de | GB/T 14054-2013: Radiation protection instrumentation -- Installed dose rate meters, warning assemblies and monitors for X and gamma radiation of energy between 50 keV and 7 MeV
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Radiation protection instrumentation. Installed dose rate meters, warning assemblies and monitors for X and gamma radiation of energy between 50 keVand 7 MeV
ICS 13.280
F84
National Standards of People's Republic of China
Replacing GB/T 14054-1993
Radiation protection instrumentation energy 50keV ~ 7MeV
X and γ radiation dose rate meter fixed,
Alarms and monitors
Radiationprotectioninstrumentation-Instaleddoseratemeters, warning
(IEC 60532.2010, Radiationprotectioninstrumentation-Instaleddose
ratemeters, warningassembliesandmonitors-Xandgammaradiationof
energybetween50keVand7MeV, IDT)
Issued on. 2014-02-01 2013-10-10 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
table of Contents
Introduction Ⅲ
Introduction Ⅴ
1 Scope 1
2 Normative references 1
3 Terms and definitions 3
5 4 design requirements
4.1 General characteristics 5
4.2 Detailed characteristics 6
5 General test methods 8
5.1 test characteristics 8
5.2 Reference conditions and standard test conditions 8
Test 8 under standard test conditions of 5.3
5.4 Test with the impact of changes in the amount of 9
5.5 statistical fluctuation 9
5.6 Reference radiation 9
5.7 natural background radiation considerations 9
6 radiation characteristics 9
6.1 false alarm test 9
6.2 Test Point 10
10 6.3 Linear
6.4 response change with photon radiation energy 10
6.5 response change with the angle of incidence of 11
Response 6.6 pairs β radiation 12
6.7 Response to neutron radiation 12
Characteristics 13 6.8 Overload
6.9 statistical fluctuation 13
Response time 13 6.10
Zero drift 14 6.11
6.12 ALARM 15
6.13 alarm response time and stability 15
Preheat 15 6.14
7 electrical, mechanical and environmental properties 15
7.1 Power 15
7.2 Electromagnetic compatibility (EMC) 16
7.3 Mechanical properties 19
7.4 Environmental Characteristics 19
8 file 20
20 8.1 Type test report
8.2 Certificate 21
8.3 Operation and Maintenance Manual 21
Appendix A (informative) pulse of ionizing radiation monitoring 25
Appendix NA (normative) Normative references in this standard correspondence documents of international documents and files 26
References 28
Means for rotating the detector 1 Example 12
Table 1 SAC/TC30/SC2 and SC3 standard series Ⅴ
Table 2 emission frequency range 16
Table 3 Reference conditions and standard test conditions 21
Table 4 under the test standard test conditions of 22
Table 5 Test with changes affect the amount of 22
Table 6 electromagnetic disturbance generated by the additional indication of the maximum value of 23
Foreword
This standard was drafted in accordance with GB/T 1.1-2009 given rules.
This standard replaces GB/T 14054-1993 "radiation protection with fixed X, γ radiation dose rate meters, warning assemblies and monitors", and
GB/T 14054-1993 compared, in addition to editorial changes outside the main technical changes are as follows.
--- Standard name changed to "Radiation protection instrumentation energy 50keV ~ 7MeV X and γ radiation dose rate meter fixed, alarm
Assemblies and monitors ";
--- "2 Normative references" to remove the GB/T 8993.1 "Nuclear Instruments and Methods Basic environmental testing General" and
GB/T 10257 "nuclear instruments and nuclear radiation detectors quality inspection rules," added the reference radiation, environmental testing, electromagnetic compatibility,
National standard nuclear power plant instrumentation and control systems important to safety, the standard voltage, equipment and other aspects of random files, industry standards and national
International standards;
--- In the "terms and definitions" commonly used to remove the amount of radiation terminology and definitions, such as. ambient dose equivalent, release air ratio of kinetic energy, dose
Etc; increased test terminology;
--- Chapter 4, the heading "technical requirements" to "design requirements" include only "general characteristics of 4.1" and "4.2 detailed characteristics", and
Radiation characteristics as well as electrical, mechanical and environmental characteristics of this standard are as Chapters 6 and 7 and the technical contents of
Changes and additions;
--- Increase EMC technical content, including the emission of electromagnetic radiation, electrostatic discharge, radio frequency electromagnetic fields, or by a fast transient burst
Conducted disturbances induced by conducted disturbances induced surge, conducted disturbances induced by the radio frequency, oscillation, 50Hz magnetic field, voltage
Requirements and test methods dips and interruptions;
--- Delete Chapter 6, "Inspection Rules";
--- Delete Chapter 7 "logo, packaging, transportation and storage";
--- Chapter 8, the heading "in the specification and quality certificate" to "File";
--- Appendix A of the "number of readings required to determine the inter-instrument indicating real difference" to "pulse ionizing radiation monitoring";
--- Increase the "References."
This standard uses the translation method identical with IEC 60532.2010 "Radiation protection instrumentation fixed radiation dose rate meters, warning assemblies and
Monitor X and γ radiation energy 50keV ~ 7MeV ".
Consistency correspondence with international standards in this standard references of the document Appendix NA.
The standard IEC 60532.2010 made the following editorial changes.
--- "2 Normative references" in the prior corresponding national standards with international standards to our standards, increase in 4.2.2
IEC 60987, and references cited in 4.2.3 of IEC 61559, delete does not appear in the text of the IEC 60068-2-
27.2008;
--- "3 Terms and definitions" of key words according to GB/T 1.1-2009 provisions to "GB/T 2900.81, GB/T 2900.82 and
GB/T 2900.83 define the following terms and definitions apply to this document, "removal instructions expressed in terms of the operative verb
Note;
--- 6.4.2 in the second row instead of a column content item description, but the following Energy explanatory method, so deleting "---";
--- 7.1 "Power" just to keep the content of the current use;
--- 7.2.4.1 The "Table 4" is a clerical error, was changed to "Table 6";
--- 7.2.9 does not meet the conditions to remove the "60Hz";
--- 7.4.1.2 "Table 4" is a clerical error, was changed to "Table 5";
--- Table 3 "nominal voltage ± 1%" was changed to "nominal voltage (1 ± 1%)", "nominal frequency ± 2%" was changed to "nominal frequency
(1 ± 2%) ";
--- Table 5 "Power" just to keep the content of the current use;
--- Increased appendix NA "Normative references in this standard correspondence documents of international documents and files."
The standard proposed by the Defense Science and Technology Industrial Development Bureau.
This standard by the National Nuclear Instrument Standardization Technical Committee (SAC/TC30) centralized.
This standard was drafted. Xi'an Nuclear Instrument Factory.
The main drafters of this standard. Sun Liping, Yang Niying.
This standard was first released in January 1993, this revision is the first revision.
Introduction
a) standard technical background, major publications and organizations
This standard specifically focuses on the use of normal and accident conditions of radiation monitoring systems.
The standard for users in its dedicated power plant radiation monitoring system when preparing technical specifications and manufacturing facilities in the development of normal and accident conditions
The process used to determine the system's use of the desired product characteristics. Some special characteristics of the instrument (for example. measurement range, the required energy response
And surrounding environmental requirements) depending on the particular application. In these cases, the special requirements established to provide guidance, but did not specify the specific
Requirements, but typical examples are given in the informative appendix.
This standard is a standard relating to the nuclear power plant after the accident radiation monitoring equipment important to safety series. The series of standards consists of the following standard
Associate composition.
GB/T 12726.1 important to safety of nuclear power plants after the accident and radiation monitoring instrumentation - Part 1. General requirements
(IEC 60951-1.2009, IDT)
Instrumentation important to safety after the accident and radiation monitoring - Part 2 GB/T 12726.2 nuclear power plants. in gaseous effluents and ventilation
Radioactive continuous off-line monitoring equipment (IEC 60951-2.2009, IDT)
GB/T 12726.3 important to safety of nuclear power plants after the accident and radiation monitoring instruments - Part 3. High range area γ continuously monitored
Measuring equipment (IEC 60951-3.2009, IDT)
GB/T 12726.4 important to safety of nuclear power plants after the accident and radiation monitoring instrumentation - Part 4. Process flow tube or inner tube placed beside
Radioactive continuous monitor (IEC 60951-4.2009, IDT)
b) in the SAC/TC30/SC2 and SC3 standard structure in the current standard status
GB/T 12726 series of standards is in the third level in SC2 standard hierarchy.
GB/T 12726 series of standards for the design and testing after accidents and accident conditions, radiation monitoring equipment to provide guidance. SC2 and
SC3 other criteria established for normal operating conditions for radiation monitoring instrumentation to provide guidance.
GB/T 7165 series of standards for the off-line continuous monitoring of radioactivity in gaseous effluents under normal operating conditions of the equipment specified requirements.
GB/T 10253 is a continuous off-line monitoring normal conditions of liquid radioactive effluents device specifies the requirements. IEC 60768 is a continuous monitor
Measured normal operation and anticipated operational occurrences within the process stream or a bypass pipe radioactive device specifies the requirements. Finally, ISO 2889 for the gas and
Particle sampling guidance. Table 1 shows the relationship between these different standards of radiation monitoring.
Table 1 SAC/TC30/SC2 and SC3 standard series
Making organization ISO SC2 --- process and safety monitoring
After the scope and methods of sampling circuit accidents and accident conditions of normal and anticipated operational occurrences
SC3 --- Radiation Protection
And effluent monitors
Zone sampling gases, particulates and
Iodine monitoring (offline)
ISO 2889
GB/T 12726.1 and
GB/T 12726.2
GB/T 7165 series of standards
Monitor with a liquid sample (from
line)
NA NA GB/T 10253
Without sampling (gaseous discharge
Flow, steam or liquid) process
Flow monitor (next to the pipe or tube)
Not applicable
GB/T 12726.1 and
GB/T 12726.4
IEC 60768 is not applicable
Regional monitoring does not apply
GB/T 12726.1 and
GB/T 12726.3
GB/T 14054
The central control system is not applicable IEC 61504 IEC 61559 (all parts)
c) Recommendations and limitations of the standard applications
This standard does not pay particular attention to the establishment of additional functional requirements for the safety systems.
Relations d) SC2/SC3 standard describe the structure of the series and with other standards and other bodies (IAEA, ISO ) file
IEC 61508 series of standards defines the overall security architecture and life cycle system life cycle framework requirements. When developed with security
When functional, regional nuclear power plant radiation monitoring instruments used beyond, it should at the same time meet the IEC 61508 series of standards also comply with this standard
Requirements.
Top standard SC2 standard series is NB/T 20026. It is important for the implementation of nuclear power plant safety functions and instrumentation and control systems set up
Preparation of the provisions of the general requirements. NB/T 20026 standard series built SC2.
NB/T 20026 standard SC2 direct reference to the other, to the functional classification and grading systems, qualification, system isolation, common cause
Barrier defense, computer-based software systems, hardware-based computer systems and control room design and other aspects. At the secondary level should be considered
Direct reference to these standards and with the NB/T 20026 together as a reference document.
In the third level, not NB/T 20026 directly referenced SC2/SC3 standard relates to special equipment, technical methods, or specific living
Moving standard. In general, it refers to the second-level files These files can be its own reference.
Expanded technical report SC2/SC3 standard series, the fourth dimension is not part of the scope of standardization.
NB/T 20026 and basic safety publications have adopted similar representation formats.
IEC 61508 series of standards including the overall security architecture and life cycle system life cycle provides a general framework for the nuclear power sector
Description of requirements (IEC 61508.1, IEC 61508.2 and IEC 61508.4). Since the nuclear industry has to explain, in line with
NB/T 20026 will facilitate the IEC 61508 series of standards consistent with the requirements. In this framework, nuclear applications sector and IEC 60880
IEC 62138 correspond to IEC 61508.3.
NB/T 20026 quality assurance (QA) aspects of reference GB/T 19000-2008, GB/T 19001-2008 and HAF003
(Corresponding to IAEA50-C-QA, IAEA50-C-QA now IAEAGS-R-3-substituted).
SC2 and consistent implementation of the standard series detailing the principles and basic safety considerations for nuclear safety and nuclear safety regulations guide nuclear power plant,
Especially HAF102 requirements, the establishment of nuclear power plant design and safety guide HAD102/14 relates to nuclear power plant safety important instrument
And control systems related to safety requirements. SC2 standard uses of nuclear safety regulations and nuclear safety guidelines consistent terminology and definitions.
Radiation protection instrumentation energy 50keV ~ 7MeV
X and γ radiation dose rate meter fixed,
Alarms and monitors
1 Scope
This standard applies to stationary dose rate meters, warning assemblies and monitors, these instruments used to prevent or mitigate radioactive releases or inferior fuel
Of keeping it within the plant (NPP)/Nuclear Facilities (NF) design basis, the nuclear power plant and/or of radioactive nuclear facilities appear
After personnel have been released or during radiation or dangerous event, to warn personnel to ensure their safety. According to IEC 61226.
2009, equipment is divided into categories "A", "B" class, "C" class or "classless."
This standard relates to a device for measuring the air by the isotropic energy range 50keV ~ 7MeV X or γ radiation generated
Kerma, ambient dose equivalent or other exposure. Equipment is mainly used for radiation protection purposes and can obtain or maintain plant safety
Play an auxiliary or indirect role.
Within the scope of this standard, a limited range of instruments to measure energy covering at least 80keV ~ 1.5MeV.
General provisions of such devices as a regional radiation monitor. Means for continuously determining Typically these may vary over time in the radiation field
Radiological conditions work area (for example, nuclear power plants, particle accelerators, high-level radioactive laboratory, nuclear fuel reprocessing plant) in and radiation
Field Provides alarm beyond a predetermined limit. These devices are also used for safety-related protection systems, for example, allow access may be affected by the radiation field
Personnel access control system of the irradiation region.
The standard equipment for use in pulsed radiation field gives guidance, for example, measuring the radiation generated by a pulse of radiation or particle accelerators
Shoot. Since most of the equipment specified in this standard work in pulsed radiation fields may give false readings, so this guide is very important.
This standard relates to apparatus includes at least.
--- Detector (for example, the ionization chamber, Geiger - Mueller counter, scintillation counter, semiconductor) devices;
--- Measuring device can be mounted on a central control panel, and the alarm devices and monitors for providing an output signal and can trigger an alarm or emergency
Shutdown/interlock circuit contacts in order to achieve the purpose of radiation protection.
This standard is also applicable to special purpose designed fixed dose rate measuring device (e.g., a high dose rate). However, certain requirements
You may be required in accordance with the special characteristics of this type of device to be modified or supplemented.
This standard does not apply to critical monitor.
The relevant requirements of the device to perform multiple functions should meet these functions of each function.
This standard specifies the general characteristics of the apparatus, general test methods, radiation characteristics, electrical characteristics, and environmental characteristics and safety features
Certificate.
2 Normative references
The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein
Member. For undated references, the latest edition (including any amendments) applies to this document.
GB/T 2900.81-2008 Electrotechnical terminology Nuclear Instruments Physical phenomena and basic concepts (IEC 60050-393.2003, IDT)
GB/T 2900.82-2008 Electrotechnical terminology nuclear instrumentation equipment, systems, equipment and detectors (IEC 60050-394.2007,
IDT)
GB/T 2900.83-2008 Electrotechnical terminology nuclear instrumentation electrical and magnetic devices (IEC 60050-151.2001, IDT)
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