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JJG 635-2011 related PDF English (JJG635-1999, JJG635-1990)

JJG 635-2011 (JJG635-2011) & related versions
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JJG 635-2011English220 Add to Cart 0-9 seconds. Auto delivery. Verification Regulation of Carbon Monoxide and Carbon Dioxide Infrared Gas Analyzer JJG 635-2011 Valid JJG 635-2011
JJG 635-1999English639 Add to Cart 5 days Verification Regulation of Monooxide and Carbon Diaxide Infrared Gas Analyzer JJG 635-1999 Obsolete JJG 635-1999
JJG 635-1990English519 Add to Cart 4 days Regulation of verification for carbon monooxide and carbon dioxide infrared gas analyzer JJG 635-1990 Obsolete JJG 635-1990
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JJG 635-2011 JJG NATIONAL METROLOGICAL VERIFICATION REGULATIONS OF THE PEOPLE’S REPUBLIC OF CHINA Carbon Monoxide and Carbon Dioxide Infrared Gas Analyzer ISSUED ON: SEPTEMBER 14, 2011 IMPLEMENTED ON: MARCH 14, 2012 Issued by: General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Table of Contents 1 Scope ... 5  2 Overview ... 5  3 Metering performance requirements ... 5  3.1 Detection gas, indication error, repeatability and response time ... 5  3.2 Drift ... 5  3.3 Non-measured component interference error ... 6  4 General technical requirements ... 6  4.1 Appearance ... 6  4.2 Insulation resistance... 6  4.3 Insulation strength ... 6  5 Measuring instrument control ... 6  5.1 Verification conditions ... 7  5.2 Verification items ... 8  5.3 Verification methods ... 9  5.4 Processing of verification results ... 12  5.5 Verification cycle ... 13  Annex A Verification records for carbon monoxide and carbon dioxide infrared gas analyzer... 14  Annex B Inner page format of verification certificate ... 16  Annex C Inner page format of notification of verification results ... 17  Carbon Monoxide and Carbon Dioxide Infrared Gas Analyzer 1 Scope This Standard applies to the initial verification, subsequent verification and in- use inspection of carbon monoxide, carbon dioxide infrared gas analyzer (hereinafter referred to as the instrument). 2 Overview The instrument is mainly composed of infrared sensor plus electronic parts and display part. The sensor converts the detected carbon monoxide gas or carbon dioxide gas into an electrical signal. And then it is processed by electronic parts. Display as concentration value. The instrument can be divided into continuous measurement and discontinuous measurement instruments according to the working state. According to the sampling method, it can be divided into diffusion type and suction type instruments. 3 Metering performance requirements 3.1 Detection gas, indication error, repeatability and response time See Table 1 for detection gas, indication error, repeatability and response time. Table 1 -- Detection gas, indication error, repeatability and response time 3.2 Drift 3.2.1 Zero drift: not greater than the instrument's indication value reference error. 3.2.2 Range drift: not greater than the instrument's indication value reference error. 3.3 Non-measured component interference error 3.3.1 Interference error of non-measured components excluding water vapor: ±2%FS. 3.3.2 Water vapor interference error: not greater than the instrument's indication value reference error. 4 General technical requirements 4.1 Appearance 4.1.1 The instrument shall be marked with the name of the manufacturer, the instrument model and serial number, and the date of manufacture. Domestically-made instruments must have the mark and number of the manufacturing license for measuring instruments. The accessories shall be complete, with instructions for use. 4.1.2 The display of the instrument shall be clear and complete. Each regulator component shall be able to work normally. The fasteners shall not be loose. 4.1.3 The instrument shall not have appearance damage that affects its normal operation. 4.2 Insulation resistance Insulation resistance ≥40MΩ. 4.3 Insulation strength For instruments that use alternating current, the insulation strength of the phase (or middle) line of the power supply to the ground shall be able to withstand the test of which the AC voltage is 1500V, 50Hz and the test current is 10mA, which lasts for 1min. 5 Measuring instrument control The measuring instrument control of the instrument includes the initial verification, subsequent verification and in-use inspection. 5.3 Verification methods 5.3.1 Appearance Use visual inspection and hand feel method according to requirements of 4.1. 5.3.2 Instrument adjustment Carry out the warm-up stabilization of the instrument and the adjustment of the zero point and the indication value according to the requirements of the instrument manual. During the instrument verification, connect the standard gas, the flow controller and the inspected instrument as shown in Figure 1. According to the different sampling methods of the tested instrument, use the flow controller to control different standard gas flow. When verifying a diffusion instrument, the flow rate shall be in accordance with the requirements of the instrument manual. If there is no clear requirement in the instrument manual, it is generally controlled in the range of (300±50) mL/min. When verifying suction instruments, it is necessary to ensure that the bypass flowmeter in the flow controller has flow vent. 5.3.3 Indication value reference error Access the standard gas with a concentration of approximately 20%, 50% and 80% of the upper limit of the instrument range. After the reading is stable, record the display value Ai of the instrument. Repeat the measurement 3 times. Calculate the reference error Δe of the indication value of each concentration point of the instrument according to formula (1). Take the largest absolute value Δe as the indication error of the instrument. Where, - Arithmetic mean of the values displayed by the instrument at each concentration test point; As - Concentration value of standard gas; R - Upper limit of the measuring range of the instrument (the same below). 5.3.4 Repeatability Access standard gas with a concentration of about 50% of the upper limit of the instrument range. After the reading is stable, record the instrument display value Ai. Then access zero-point gas. After the instrument is stable, access the standard gas of the above concentration. Repeat the above measurement 6 times. Repeatability is expressed as the relative standard deviation of a single measurement. Calculate the repeatability sr of the instrument according to formula (3): 5.3.5 Response time Access standard gas with a concentration of about 50% of the upper limit of the instrument range. After the instrument display value stabilizes, record the instrument reading. Then access zero-point gas. After the instrument is stable, access the standard gas of the above concentration. At the same time start the stopwatch to start timing. When the indication value of the instrument reaches 90% of the last stable value, stop the watch, and the time displayed by the stopwatch shall be the response time. Repeat the measurement 3 times. Take the arithmetic average value as the response time of the instrument. 5.3.6 Drift Access zero-point gas. After the instrument is stable, record the displayed value of the instrument Az0. Access standard gas with a concentration of about 50% of the upper limit of the instrument range. After the instrument is stable, record the reading As0. Remove the standard gas. Discontinuity measurement instrument runs for 1h. Repeat the above steps every 15min. Continuity measurement instrument runs for 8h. Repeat the above steps every 2h. At the same time record the instrument display values Azi and Asi (i=1,2,3,4). Calculate the zero drift Δzi according to formula (5). Take the largest absolute value Δzi as Figure 2 -- Water vapor generator 5.3.9 Insulation resistance The instrument is not connected to the power supply, and the power switch is on. Respectively connect the two wires of the insulation resistance tester to the phase (or center) wire and ground terminal of the power plug of the instrument. Use the insulation resistance tester to measure the insulation resistance of the instrument. 5.3.10 Insulation strength The instrument is not connected to the power supply, and the power switch is on. Respectively connect the two wires of the insulation strength tester to the phase (or center) wire and ground terminal of the power plug of the instrument. The voltage shall rise steadily to 1500V during the test. Test current is 10mA. Remain 1min. During the test, the instrument shall not experience breakdown or arcing. 5.4 Processing of verification results For qualified instruments verified according to the regulations and requirements of this Regulation, a verification certificate will be issued, and the qualification level of the instrument will be indicated. For instruments that fail to pass the verification, a verification result notification will be issued, and the unqualified ......

BASIC DATA
Standard ID JJG 635-2011 (JJG635-2011)
Description (Translated English) Verification Regulation of Carbon Monoxide and Carbon Dioxide Infrared Gas Analyzer
Sector / Industry Metrology & Measurement Industry Standard
Classification of Chinese Standard A61
Classification of International Standard 17.020
Word Count Estimation 15,116
Date of Issue 2011-09-14
Date of Implementation 2012-03-14
Older Standard (superseded by this standard) JJG 635-1999
Drafting Organization Shanghai Measurement and Testing Technology
Administrative Organization National Environmental stoichiometric Technical Committee
Regulation (derived from) AQSIQ Announcement No. 134 of 2011
Issuing agency(ies) State Administration of Quality Supervision, Inspection and Quarantine
Summary This standard applies to carbon monoxide, carbon dioxide infrared gas analyzer (hereinafter referred to as the instrument) for initial verification, testing and use of follow-up inspection.

BASIC DATA
Standard ID JJG 635-1999 (JJG635-1999)
Description (Translated English) Verification Regulation of Monooxide and Carbon Diaxide Infrared Gas Analyzer
Sector / Industry Metrology & Measurement Industry Standard
Classification of Chinese Standard A61
Word Count Estimation 16,153
Date of Issue 1999/6/21
Date of Implementation 2000/3/15
Older Standard (superseded by this standard) JJG 635-1990
Drafting Organization Shanghai Institute of Measurement and Testing
Administrative Organization National Technical Committee on Environment stoichiometric
Regulation (derived from) National AQSIQ Notice 2011 No. 134
Summary This standard applies to the determination of the first test gas mixture of carbon monoxide gas or carbon dioxide gas, non-dispersive infrared gas analyzer, and the subsequent verification and in-service inspection.

BASIC DATA
Standard ID JJG 635-1990 (JJG635-1990)
Description (Translated English) Regulation of verification for carbon monooxide and carbon dioxide infrared gas analyzer
Sector / Industry Metrology & Measurement Industry Standard
Classification of Chinese Standard A61
Classification of International Standard 17.020
Word Count Estimation 13,122
Date of Issue 1990/1/11
Date of Implementation 1990/10/1