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Ion source detection
Ion source detection, Total:61 items.
In the international standard classification, Ion source detection involves: Air quality, Non-destructive testing, Welding, brazing and soldering, Non-metalliferous minerals, Alarm and warning systems, Electromechanical components for electronic and telecommunications equipment, Products of the chemical industry, Vocabularies, Powder metallurgy, Wastes, Water quality, Galvanic cells and batteries, Analytical chemistry, Commercial vehicles, Sugar. Sugar products. Starch.
Association Francaise de Normalisation, Ion source detection
- NF EN ISO 25140:2010 Émissions de sources fixes - Méthode automatique pour la détermination de la concentration en méthane par détection à ionisation de flamme (FID)
- NF X43-353*NF EN ISO 25140:2010 Stationary source emissions - Automatic method for the determination of the methane concentration using flame ionisation detection (FID).
- NF EN 12619:2013 Émissions de sources fixes - Détermination de la concentration massique en carbone organique total - Méthode du détecteur continu à ionisation de flamme
- NF T90-048*NF EN ISO 14911:1999 Water quality - Determination of dissolved Li+, Na+, NH 4+, K+, Mn 2+, Ca 2+, Mg 2+, Sr 2+ and Ba 2+ using ion chromatography - Method for water and waste water.
Korean Agency for Technology and Standards (KATS), Ion source detection
- KS I ISO 25140-2012(2017) Stationary source emissions-Automatic method for the determination of the methane concentration using flame ionization detection(FID)
- KS I ISO 25140:2022 Stationary source emissions — Automatic method for the determination of the methane concentration using flame ionization detection(FID)
- KS I ISO 14911:2009 Water quality-Determination of dissolved Li+, Na+,NH4+, K+, Mn2+, Ca2+, Mg2+, Sr2+ and Ba2+ using ion chromatography-Method for water and waste water
RU-GOST R, Ion source detection
- GOST R ISO 25140-2017 Stationary source emissions. Automatic method for the determination of the methane concentration using flame ionisation detection
Danish Standards Foundation, Ion source detection
- DS/EN ISO 25140:2010 Stationary source emissions - Automatic method for the determination of the methane concentration using flame ionisation detection (FID)
- DS/EN 12619:2013 Stationary source emissions - Determination of the mass concentration of total gaseous organic carbon - Continuous flame ionisation detector method
KR-KS, Ion source detection
- KS I ISO 25140-2022 Stationary source emissions — Automatic method for the determination of the methane concentration using flame ionization detection(FID)
AENOR, Ion source detection
- UNE-EN ISO 25140:2011 Stationary source emissions - Automatic method for the determination of the methane concentration using flame ionisation detection (FID) (ISO 25140:2010)
- UNE-EN 12619:2013 Stationary source emissions - Determination of the mass concentration of total gaseous organic carbon - Continuous flame ionisation detector method
Lithuanian Standards Office , Ion source detection
- LST EN ISO 25140:2010 Stationary source emissions - Automatic method for the determination of the methane concentration using flame ionisation detection (FID) (ISO 25140:2010)
German Institute for Standardization, Ion source detection
- DIN EN ISO 25140:2010-12 Stationary source emissions - Automatic method for the determination of the methane concentration using flame ionisation detection (FID) (ISO 25140:2010); German version EN ISO 25140:2010
- DIN 54402:1985 Testing of ion exchangers; determination of the total capacity of anion exchangers
- DIN 54410:1985 Testing of ion exchangers; determination of density
- DIN EN ISO 14911:1999 Water quality - Determination of dissolved Li<(hoch)+>, Na<(hoch)+>, NH<(Index)4><(hoch)+>, K<(hoch)+>, Mn<(hoch)2+>, Ca<(hoch)2+>, Mg<(hoch)2+>, Sr<(hoch)2+> and Ba<(hoch)2+> using ion chromatography - Method for water and waste water (ISO 14911:1998); G
- DIN EN 12619:2013-04 Stationary source emissions - Determination of the mass concentration of total gaseous organic carbon - Continuous flame ionisation detector method; German version EN 12619:2013
British Standards Institution (BSI), Ion source detection
- BS EN ISO 25140:2010 Stationary source emissions. Automatic method for the determination of the methane concentration using flame ionisation detection (FID)
HU-MSZT, Ion source detection
Professional Standard - Civil Aviation, Ion source detection
Professional Standard - Machinery, Ion source detection
Professional Standard - Geology, Ion source detection
- DZ/T 0064.51-1993 Groundwater quality testing methods - Determination of chloride, fluoride, bromide, nitrate and sulfate by ion chromatography
Group Standards of the People's Republic of China, Ion source detection
Professional Standard - Post and Telecommunication, Ion source detection
- YD/T 998.1-1999 Lithium-ion battery and charger for cellular phones:Lithium-ion Battery
PL-PKN, Ion source detection
- PN C04860-12-1991 Ion exchange resins. Testing methods. Determination of the operating exchange capacity of cation exchange resins in hydrogen ion exchange
- PN C04860-01-1990 ?on exchange resin Testing methods Introduction
- PN C04860-02-1990 ?on exchange resins Testing methods Sampling
- PN C04860-11-1991 Ion exchange resins. Testing methods. Determination of the total strongly basic and weakly basic anion exchage resins
Professional Standard - Non-ferrous Metal, Ion source detection
YU-JUS, Ion source detection
- JUS N.A0.391-1987 Detection and measurement of ionizing radiation by electric means. Terms and definitions.
National Metrological Verification Regulations of the People's Republic of China, Ion source detection
General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Ion source detection
- GB 12951-2009 Americium-241 alpha sources for ionization smoke fire detectors
中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会, Ion source detection
- GB/T 12951-2009 Americium-241 alpha sources for ionization smoke fire detectors
International Organization for Standardization (ISO), Ion source detection
- ISO 14911:1998 Water quality - Determination of dissolved Li<(hoch)+>, Na<(hoch)+>, NH<(Index)4><(hoch)+>, K<(hoch)+>, Mn<(hoch)2+>, Ca<(hoch)2+>, Mg<(hoch)2+>, Sr<(hoch)2+> and Ba<(hoch)2+> using ion chromatography - Method for water and waste water
American Society for Testing and Materials (ASTM), Ion source detection
- ASTM D8234-19 Standard Test Method for Anions in High Ionic Water by Ion Chromatography using Tandem Suppressed Conductivity and UV Detection
Japanese Industrial Standards Committee (JISC), Ion source detection
- JIS K 0556:1995 Testing methods for determination of anions in highly purified water
Guangxi Provincial Standard of the People's Republic of China, Ion source detection
- DB45/T 1152-2015 Ion Chromatography Method for Detection of Sulfite Ion and Phosphate Ion Content in Intermediate Products of Sugar Production Process
Association of German Mechanical Engineers, Ion source detection
- VDI 2452 Blatt 2-1975 Gaseous air pollution measurement; determination of fluoric ion concentration; preseparation and electrometric detection
Taiwan Provincial Standard of the People's Republic of China, Ion source detection
European Committee for Standardization (CEN), Ion source detection
- EN ISO 14911:1999 Water Quality - Determination of Dissolved Li+, Na+, NH4+, K+, Mn2+, Ca2+, Mg2+, Sr2+ and Ba2+ Using Ion Chromatography - Method for Water and Waste Water ISO 14911:1998
Military Standard of the People's Republic of China-General Armament Department, Ion source detection
- GJB 9788-2020 Specification for alarms for poison detection using ion migration method
未注明发布机构, Ion source detection
- WS 262-2017 Quality control and testing specifications for post-installed gamma source brachytherapy