Sampling Guide for Air Contaminants in the Workplace - Irsst
Sampling Guide for Air Contaminants in the Workplace - Irsst
Sampling Guide for Air Contaminants in the Workplace - Irsst
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142 IRSST – <strong>Sampl<strong>in</strong>g</strong> <strong>Guide</strong> <strong>for</strong> <strong>Air</strong> <strong>Contam<strong>in</strong>ants</strong> <strong>in</strong> <strong>the</strong> <strong>Workplace</strong><br />
Appendix 2: Table of acronyms of <strong>the</strong> analytical pr<strong>in</strong>ciples<br />
Acronym<br />
IC-CD<br />
IC-VIS<br />
HPLC-Flu<br />
HPLC-FGAA<br />
HPLC-SAAE<br />
HPLC-MS<br />
HPLC-UV<br />
HPLC-UV-Flu<br />
COLO<br />
GC-NPD<br />
GC-ECD<br />
GC-ELD<br />
GC-FID<br />
GC-FPD<br />
GC-PID<br />
GC-Hall<br />
GC-MS<br />
XRD<br />
SE<br />
HMOS<br />
ICP-MS<br />
DRI-Am<br />
DRI-EX<br />
DRI-IR<br />
DRI-PAD<br />
DRI-elec<br />
FTIR<br />
LAL<br />
DLM<br />
DLM-GC<br />
PLM<br />
PCOM<br />
Grav<br />
Polaro<br />
ET-AAS<br />
FAAS<br />
CV-AAS<br />
ICP<br />
SM<br />
UV/VIS-S<br />
Analytical pr<strong>in</strong>ciple<br />
Ion chromatography with conductivity detection<br />
Ion chromatography with visible detection<br />
High per<strong>for</strong>mance liquid chromatography with fluorescence detection<br />
High per<strong>for</strong>mance liquid chromatography coupled with atomic absorption graphite furnace<br />
High per<strong>for</strong>mance liquid chromatography with electro<strong>the</strong>rmal atomic absorption spectrophotometry<br />
High per<strong>for</strong>mance liquid chromatography with mass spectrometry<br />
High per<strong>for</strong>mance liquid chromatography with UV detection<br />
High per<strong>for</strong>mance liquid chromatography with UV and fluorescence detection<br />
Colorimetry<br />
Gas chromatography with nitrogen-phosphorus detection<br />
Gas chromatography with electron capture detection<br />
Gas chromatography with electrolytic conductivity detection<br />
Gas chromatography with flame ionization detection<br />
Gas chromatography with flame photometric detection<br />
Gas chromatography with photoionization detection<br />
Gas chromatography with Hall electrolytic detector<br />
Gas chromatography with mass spectrometry<br />
X-ray diffraction<br />
Ion specific electrode<br />
Metal oxide semiconductor<br />
Inductively coupled plasma mass spectrometry<br />
Direct-read<strong>in</strong>g <strong>in</strong>strument – Amalgamation<br />
Direct-read<strong>in</strong>g <strong>in</strong>strument – Explosimeter<br />
Direct-read<strong>in</strong>g <strong>in</strong>strument – Infrared detection<br />
Direct-read<strong>in</strong>g <strong>in</strong>strument – Photoacoustic detection<br />
Direct-read<strong>in</strong>g <strong>in</strong>strument – Electrochemical cell<br />
Fourier trans<strong>for</strong>m <strong>in</strong>frared spectrophotometry<br />
Limulus amebocyte lysate<br />
Direct light microscopy<br />
Direct light microscopy and gas chromatography<br />
Polarized light microscopy<br />
Phase contrast optical microscopy<br />
Gravimetric measurement<br />
Differential pulse polarography<br />
Electro<strong>the</strong>rmal atomic absorption spectrophotometry<br />
Flame atomic absorption spectrophotometry<br />
Cold vapour atomic absorption spectrophotometry<br />
Inductively coupled plasma spectrometry<br />
Stereomicroscopy<br />
Ultraviolet and visible spectrophotometry
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