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JJG 678-2007: Verification Regulation of Catalysis Combustion Type Methane Measuring Device
Status: Valid JJG 678: Evolution and historical versions
| Standard ID | Contents [version] | USD | STEP2 | [PDF] delivered in | Standard Title (Description) | Status | PDF |
| JJG 678-2007 | English | 389 |
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Verification Regulation of Catalysis Combustion Type Methane Measuring Device
| Valid |
JJG 678-2007
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| JJG 678-1996 | English | 319 |
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Verification Regulation of Catelysis Combustion Type Methane Measuring Device
| Obsolete |
JJG 678-1996
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| JJG 678-1990 | English | 439 |
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Verification Regulation of Catalysis Combustion Type Methane Measuring Device
| Obsolete |
JJG 678-1990
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PDF similar to JJG 678-2007
Basic data | Standard ID | JJG 678-2007 (JJG678-2007) | | Description (Translated English) | Verification Regulation of Catalysis Combustion Type Methane Measuring Device | | Sector / Industry | Metrology & Measurement Industry Standard | | Classification of Chinese Standard | A61 | | Classification of International Standard | 17.120 | | Word Count Estimation | 15,115 | | Date of Issue | 2007-08-21 | | Date of Implementation | 2008-02-21 | | Older Standard (superseded by this standard) | JJG 678-1996 | | Quoted Standard | AQSIQ Announcement No. 142 of 2007 | | Regulation (derived from) | AQSIQ Announcement No. 142 of 2007 | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine | | Summary | This standard applies to mines with a loss of catalytic combustion of methane detector initial verification, testing and use of follow-up inspection. | JJG 678-2007: Verification Regulation of Catalysis Combustion Type Methane Measuring Device---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Verification Regulation of Catalysis Combustion Type Methane Measuring Device
State verification procedures People's Republic of China
Catalytic combustion of methane detector
Posted 2007-08-21
2008-02-21 implementation
The State Administration of Quality Supervision, Inspection and Quarantine released
Catalytic combustion of methane detector
Verification Regulation
Device
Replacing JJG 678-1996
The regulations by the State Administration of Quality Supervision, Inspection and Quarantine approved on August 21, 2007, and from
From February 21, 2008 implementation.
Focal point. the National Technical Committee on Environment stoichiometry
The main drafting units. China Institute of Metrology
Chongqing cheap energy Ltd.
National Mine Safety metering station
Participated in the drafting unit. Jinan City, the metrological verification
National Mine Safety metering station sub-station in Urumqi
Chongqing Ke Electronic Co., Ltd.
This procedure commissioned the National Technical Committee of the stoichiometric environment responsible for interpreting
The main drafters of this procedure.
Chen Yonghua (China Institute of Metrology)
Zhou Zongfu (Chongqing inexpensive energy Ltd.)
Chen Fumin (National Mine Safety metering station)
Drafters participate.
Wang Limin (Jinan City, the metrological verification)
Cao Zhigang (China Institute of Metrology)
Dongzi Bing (National Mine Safety Urumqi metering station sub-station)
Du Jianguo (Chongqing Ke Electronic Co., Ltd.)
table of Contents
1 Scope (1)
2 Overview (1)
3 metering performance requirements (1)
3.1 indication error (1)
3.2 Alarm error (1)
3.3 Response Time (1)
3.4 Drift (1)
3.5 alarm sound level and signal strength (1)
3.6 load characteristics (1)
4 General Requirements (2)
4.1 Appearance (2)
4.2 Identification and Accessories (2)
4.3 energizing check (2)
5 control of measuring instruments (2)
5.1 verification Conditions (2)
5.2 Verification Project (3)
5.3 Verification Methods (3)
5.4 Verification Results Processing (5)
5.5 test cycle (5)
Appendix A test certificate-page format (6)
Appendix B test results in the notice page format (7)
Appendix C portable instrument calibration original record format (8)
Appendix D stationary instrument calibration original record format (9)
Catalytic combustion of methane detector test procedures
1 Scope
The order applies to mines with catalytic combustion of methane detector (hereinafter referred to as equipment) initial verification, subsequent verification
And in-service inspection.
2 Overview
Instrument carrier thermal catalytic combustion principle, by a carrier catalytic element constituting the measuring bridge, when the instrument environment
The presence of methane gas due to methane in the catalytic element surface flameless combustion, catalytic carrier resistance detection element
Value changes, the bridge imbalance signal to produce an output signal magnitude and linearly proportional to the methane content in order to achieve
Methane content detection and alarm.
Catalytic combustion of methane detector has two types of portable and fixed, stationary methane detector, also known as methane Biography
Sensors. For measuring methane content in mine and alarm, when the methane concentration reaches the alarm set point, the instrument emits sound,
Light alarm signal.
3 metering performance requirements
3.1 Indication error
Indication error expressed in absolute error. Instrument under specified operating conditions, the differential value of the maximum value and the standard should not be
Than specified in Table 1.
Table 1 shows the error
Measurement range /% CH4 0 ~ 4
Break /% CH4 0≤X≤1 1 \u003cX≤2 2\u003cX≤4
The maximum permissible error /% CH4 ± 0.10 ± 0.20 ± 0.30
3.2 Alarm error
Instrument alarm differential value and alarm set value should not exceed ± 0.10% CH4.
3.3 Response Time
Diffusion sampling instrument shall not exceed 20s, inhaled sampling instruments should not exceed 10s.
3.4 Drift
Instrument drift includes zero drift and span drift. Zero drift should not exceed ± 0.10% CH4, span drift
Shall not exceed ± 0.20% CH4.
3.5 alarm sound level and signal strength
The portable instrument alarm sound level intensity should not be less than 75dB (A), fixed instrument alarm sound level intensity should not be less than
80dB (A). Alarm signal light in a dark environment at 20m should be clearly visible.
3.6 load characteristics
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