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volume fraction concentration

volume fraction concentration, Total:56 items.

In the international standard classification, volume fraction concentration involves: Analytical chemistry, Paint ingredients, Measurement of fluid flow, Products of the chemical industry, Air quality, Agricultural machines, implements and equipment, Beverages, Water quality, Radiation protection.

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, volume fraction concentration

• GB/T 10248-2005 Gas analysis.Preparation of calibration gas mixtures.Static volumetric methods

Spanish Association for Standardization (UNE), volume fraction concentration

• UNE 28012-3:1954 WOODS USED IN AIRCRAFT. VOLUMETRIC CONCENTRATION TEST.
• UNE-EN 16966:2022 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration
• UNE-EN 14789:2006 Stationary source emissions - Determination of volume concentration of oxygen (O2) - Reference method - Paramagnetism
• UNE-EN 14789:2017 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism

South African Bureau of Standard, volume fraction concentration

• SANS 5560:2005 Pigment volume concentration of paints with a non-aqueous solvent base

SCC, volume fraction concentration

• NS-EN 16966:2018 Workplace exposure — Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates — Metrics to be used such as number concentration, surface area concentration and mass concentration
• DANSK DS/EN 16966:2018 Workplace exposure – Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates – Metrics to be used such as number concentration, surface area concentration and mass concentration
• DIN EN 16966 E:2016 Draft Document - Workplace exposure - Metrics to be used for the measurements of exposure to inhaled nanoparticles (nano-objects and nanostructured materials) such as mass concentration, number concentration and surface area concentration; German and E...
• AWWA WQTC60762 Volume Reduction of High-Silica RO Concentrate
• BS EN ISO 9698:2015 Water quality. Determination of tritium activity concentration. Liquid scintillation counting method
• NS-EN 14789:2005 Stationary source emissions — Determination of volume concentration of oxygen (O2) — Reference method — Paramagnetism
• AENOR UNE-EN 14789:2017 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism
• NS-EN 14789:2017 Stationary source emissions — Determination of volume concentration of oxygen — Standard reference method: Paramagnetism
• DANSK DS/EN 14789:2017 Stationary source emissions – Determination of volume concentration of oxygen – Standard reference method: Paramagnetism

CZ-CSN, volume fraction concentration

• CSN ISO 8840:1992 Rfractory materials. Determination of bulk density of granular materials (grain density)

CEN - European Committee for Standardization, volume fraction concentration

• EN 16966:2018 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration@ surface area concentration and mass concentration

German Institute for Standardization, volume fraction concentration

• DIN EN 16966:2019-01 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration; German version EN 16966:2018
• DIN EN 16966:2019 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration
• DIN EN 16966 E:2016-03 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration
• DIN EN 14789:2006 Stationary source emissions - Determination of volume concentration of oxygen (O<(Index)2>) - Reference method - Paramagnetism; English version of DIN EN 14789:2006-04
• DIN EN 14789 E:2003-12 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism
• DIN EN ISO 9698:2015-12 Water quality - Determination of tritium activity concentration - Liquid scintillation counting method (ISO 9698:2010); German version EN ISO 9698:2015 / Note: To be replaced by DIN EN ISO 9698 (2017-04).
• DIN EN 14789 E:2014-12 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism
• DIN EN 14789:2017-05 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism; German version EN 14789:2017

Association Francaise de Normalisation, volume fraction concentration

• NF X43-602*NF EN 16966:2018 Workplace exposure - Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates - Metrics to be used such as number concentration, surface area concentration and mass concentration
• NF X43-370:2006 Stationary source emissions - Determination of volume concentration of oxygen (O2) - Reference method - Paramagnetism.
• NF U26-033*NF ISO 16236:2013 Crop protection equipment - Test method for the determination of drainable volume and its concentration
• NF EN 14789:2017 Emissions from stationary sources - Determination of the volume concentration of oxygen - Standardized reference method: paramagnetism
• NF X43-370*NF EN 14789:2017 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method : Paramagnetism

International Organization for Standardization (ISO), volume fraction concentration

• ISO/CD 6640 Determination of concentration or density of Suspended and deposited sediment in water bodies by Radiometric Methods
• ISO 16236:2013 Crop protection equipment - Test method for the determination of drainable volume and its concentration

Canadian General Standards Board （CGSB), volume fraction concentration

• CGSB 1-GP-71 METH 21.2-1981 Methods of Testing Paints and Pigments Pigment Content Pigment Volume Concentration (PVC)

CU-NC, volume fraction concentration

• NC 44-01-1965 SAMPLING ORES and CONCENTRATES in BULK

國家市場監督管理總局、中國國家標準化管理委員會, volume fraction concentration

• GB/T 40870-2021 Gas analysis—Conversion of gas mixture composition data
• GB/T 40345-2021 Crop protection equipment—Test method for the determination of drainable volume and its concentration

British Standards Institution (BSI), volume fraction concentration

• BS EN 16966:2018 Workplace exposure. Measurement of exposure by inhalation of nano-objects and their aggregates and agglomerates. Metrics to be used such as number concentration, surface area concentration and mass concentration
• BS ISO 16236:2013 Crop protection equipment. Test method for the determination of drainable volume and its concentration
• BS EN 14789:2017 Stationary source emissions. Determination of volume concentration of oxygen. Standard reference method: Paramagnetism

DIN, volume fraction concentration

• DIN 12803-2:2019 Laboratory glassware - Alcoholometry - Part 2: Alcoholometers for the alcoholic strength by volume

RU-GOST R, volume fraction concentration

• GOST R 51822-2001 Wines and wine materials. Gas-chromatographic method for determination of volume fraction of ethanol and mass concentration of acetic and propionic acids

Lithuanian Standards Office , volume fraction concentration

• LST EN 14789-2006 Stationary source emissions - Determination of volume concentration of oxygen (O2) - Reference method - Paramagnetism

Danish Standards Foundation, volume fraction concentration

• DS/EN 14789:2005 Stationary source emissions - Determination of volume concentration of oxygen (O2) - Reference method - Paramagnetism
• DS/ISO 9698:2011 Water quality - Determination of tritium activity concentration - Liquid scintillation counting method
• DS/ISO 16236:2013 Crop protection equipment - Test method for the determination of drainable volume and its concentration

European Committee for Standardization (CEN), volume fraction concentration

• EN 14789:2017 Stationary source emissions - Determination of volume concentration of oxygen - Standard reference method: Paramagnetism
• EN 14789:2005 Stationary source emissions - Determination of volume concentration of oxygen (O2) - Reference method - Paramagnetism

GSO, volume fraction concentration

• GSO ISO 16236:2015 Crop protection equipment -- Test method for the determination of drainable volume and its concentration
• OS GSO ISO 4365:2013 Liquid flow in open channels -- Sediment in streams and canals -- Determination of concentration, particle size distribution and relative density
• GSO ISO 9698:2013 Water quality -- Determination of tritium activity concentration -- Liquid scintillation counting method
• BH GSO ISO 9698:2016 Water quality -- Determination of tritium activity concentration -- Liquid scintillation counting method
• BH GSO ISO 16236:2017 Crop protection equipment -- Test method for the determination of drainable volume and its concentration

KR-KS, volume fraction concentration

• KS B ISO 4365-2022 Liquid flow in open channels — Sediment in streams and canals — Determination of concentration, particle size distribution and relative density

VN-TCVN, volume fraction concentration

• TCVN 6830-2016 Water quality - Determination of tritium activity concentration - Liquid scintillation counting method

Korean Agency for Technology and Standards (KATS), volume fraction concentration

• KS B ISO 4365:2022 Liquid flow in open channels — Sediment in streams and canals — Determination of concentration, particle size distribution and relative density

American Society for Testing and Materials (ASTM), volume fraction concentration

• ASTM D3977-97(2013) Standard Test Methods for Determining Sediment Concentration in Water Samples

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