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Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method, Total:30 items.

In the international standard classification, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method involves: Organic chemicals, Fuels, Wastes, Petroleum products in general, Analytical chemistry, Coals, Inorganic chemicals, Nuclear energy engineering, Ceramics.

American Society for Testing and Materials (ASTM), Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

ASTM D7359-14 Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection &40;Combustion Ion Chromatography-CIC&41;
ASTM D7359-14a Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection (Combustion Ion Chromatography-CIC)
ASTM D7359-08 Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection (Combustion Ion Chromatography-CIC)
ASTM D7359-13 Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection lpar;Combustion Ion Chromatography-CICrpar;
ASTM D7994-17 Standard Test Method for Total Fluorine, Chlorine, and Sulfur in Liquid Petroleum Gas (LPG) by Oxidative Pyrohydrolytic Combustion Followed by Ion Chromatography Detection (Combustion Ion Chromatograp
ASTM D7359-23 Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection (Combustion Ion
ASTM D7359-18 Standard Test Method for Total Fluorine, Chlorine and Sulfur in Aromatic Hydrocarbons and Their Mixtures by Oxidative Pyrohydrolytic Combustion followed by Ion Chromatography Detection (Combustion Ion
ASTM D8247-19 Standard Test Method for Determination of Total Fluorine and Total Chlorine in Coal by Oxidative Pyrohydrolytic Combustion Followed by Ion Chromatography Detection
ASTM D5599-00(2005) Standard Test Method for Determination of Oxygenates in Gasoline by Gas Chromatography and Oxygen Selective Flame Ionization Detection
ASTM D5599-00 Standard Test Method for Determination of Oxygenates in Gasoline by Gas Chromatography and Oxygen Selective Flame Ionization Detection
ASTM D5599-00(2010) Standard Test Method for Determination of Oxygenates in Gasoline by Gas Chromatography and Oxygen Selective Flame Ionization Detection
ASTM UOP991-17 Trace Chloride, Fluoride, and Bromide in Liquid Organics by Combustion Ion Chromatography (CIC)

工业和信息化部, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

HG/T 6116-2022 Determination of sulfur, fluorine and chlorine content in waste chemicals by oxygen bomb combustion ion chromatography

RU-GOST R, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

GOST R 54282-2010 Gasoline. Determination of oxigenates by method of gas chromatography and oxygen selective flame ionization detection
GOST R 54282-2010(2019) Gasoline. Determination of oxigenates by method of gas chromatography and oxygen selective flame ionization detection
GOST R 57033-2016 Liquid petroleum products. Determination of trace chlorides, fluorides, and bromides by ion chromatography with sample combustion method (CIC)

Korean Agency for Technology and Standards (KATS), Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

KS M 0180-2009(2019) Standard test method for halogen(F, Cl, Br) and sulfur content by oxidative pyrohydrolytic combustion followed by ion chromatography detection (Combustion ion chromatography－CIC)
KS M 0180-2009 Standard test method for halogen(F, Cl, Br) and sulfur content by oxidative pyrohydrolytic combustion followed by ion chromatography detection (Combustion ion chromatography－CIC)

Liaoning Provincial Standard of the People's Republic of China, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

DB21/T 2974-2018 Determination of Total Sulfur and Total Chlorine in Crude Oil and Liquid Petroleum Products Combustion Oxidation-Ion Chromatography

Anhui Provincial Standard of the People's Republic of China, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

DB34/T 2192-2014 Determination of Chloride and Sulfate Content in High Purity Sodium Hydroxide by Ion Chromatography

Professional Standard - Nuclear Industry, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

EJ/T 20165-2018 Determination of Fluorine, Chlorine and Bromine in Reprocessed Uranium Trioxide Powder by Pyrohydrolysis-Ion Chromatography

German Institute for Standardization, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

DIN EN 17813:2022 Environmental matrices - Halogens and sulfur by oxidative pyrohydrolytic combustion followed by ion chromatography detection and complementary determination methods; German and English version prEN 17813:2022
DIN EN 17813:2022-02 Environmental matrices - Halogens and sulfur by oxidative pyrohydrolytic combustion followed by ion chromatography detection and complementary determination methods; German and English version prEN 17813:2022 / Note: Date of issue 2022-01-14

Association Francaise de Normalisation, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

FD CEN/TR 17345:2020 Déchets - État de l'art - Halogènes et soufre par combustion pyrohydrolytique oxydative suivie d'une détection par chromatographie ionique
NF B40-675-2*NF EN ISO 14720-2:2013 Testing of ceramic raw and basic materials - Determination of content of sulfur in powders and granules of non-oxidic ceramic raw and basic materials - Part 2: inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after

British Standards Institution (BSI), Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

22/30444882 DC BS EN 17813. Environmental matrices. Halogens and sulfur by oxidative pyrohydrolytic combustion followed by ion chromatography detection and complementary determination methods
BS EN ISO 14720-2:2013 Testing of ceramic raw and basic materials. Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials. Inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after burning in an oxygen

Danish Standards Foundation, Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

DS/EN ISO 14720-2:2013 Testing of ceramic raw and basic materials - Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials - Part 2: Inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after burning in

Lithuanian Standards Office , Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

LST EN ISO 14720-2:2013 Testing of ceramic raw and basic materials - Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials - Part 2: Inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after burning in

International Organization for Standardization (ISO), Chlorine High Temperature Oxidation Combustion Method and Ion Chromatography Detection Method

ISO 14720-2:2013 Testing of ceramic raw and basic materials - Determination of sulfur in powders and granules of non-oxidic ceramic raw and basic materials - Part 2: Inductively coupled plasma optical emission spectrometry (ICP/OES) or ion chromatography after burning in