Validation Errors
  • This element has value in Concepts: VocabularyConcept[id=15458383,identifier=AE31,label=AE31 Aethalometer,definition=,notation=AE31],VocabularyConcept[id=15458384,identifier=AE33,label=AE33 Aethalometer,definition=,notation=AE33],VocabularyConcept[id=15458385,identifier=AIRTOXICA73022,label=Chromatotec AirTOXIC BTX PID - A73022,definition=Using gas chromatography, the model airTOXIC BTX PID measures the amount of Benzene, Toluene, Ethylbenzene and Xylenes in the air from sub-ppb levels up to 1,000 ppb.,notation=AIRTOXICA73022],VocabularyConcept[id=15458387,identifier=API,label=Teledyne API undertermined,definition=,notation=API],VocabularyConcept[id=15458388,identifier=API100,label=Teledyne API 100 UV Fluorescent SO2 Analyser,definition=,notation=API100],VocabularyConcept[id=15458389,identifier=API100A,label=Teledyne API 100A UV Fluorescent SO2 Analyser,definition=,notation=API100A],VocabularyConcept[id=15458390,identifier=API100E,label=Teledyne API 100E UV Fluorescent SO2 Analyser,definition=,notation=API100E],VocabularyConcept[id=15458391,identifier=API101,label=Teledyne API 101 UV Fluorescent SO2 Analyser,definition=,notation=API101],VocabularyConcept[id=15458392,identifier=API101A,label=Teledyne API 101A UV Fluorescent SO2 Analyser,definition=,notation=API101A],VocabularyConcept[id=15458393,identifier=API200,label=Teledyne API 200 chemiluminescent NOx analyser,definition=,notation=API200],VocabularyConcept[id=15458394,identifier=API200A,label=Teledyne API 200A chemiluminescent NOx analyser,definition=,notation=API200A],VocabularyConcept[id=15458396,identifier=API200E,label=Teledyne API 200E chemiluminescent NOx analyser,definition=,notation=API200E],VocabularyConcept[id=15458397,identifier=API200EU,label=Teledyne API 200EU chemiluminescent NOx analyser,definition=,notation=API200EU],VocabularyConcept[id=15458398,identifier=API200EU-BL,label=Teledyne API 200EU chemiluminescent NOx analyser - blue light,definition=,notation=API200EU-BL],VocabularyConcept[id=15458399,identifier=API200UP,label=Teledyne API 200UP chemiluminescent NOx analyser,definition=,notation=API200UP],VocabularyConcept[id=15458400,identifier=API201A,label=Teledyne API 200A chemiluminescent NOx analyser,definition=,notation=API201A],VocabularyConcept[id=15458401,identifier=API300,label=Teledyne API 300 gas filter correlation CO analyser,definition=,notation=API300],VocabularyConcept[id=15458402,identifier=API300A,label=Teledyne API 300A gas filter correlation CO analyser,definition=,notation=API300A],VocabularyConcept[id=15458403,identifier=API300E,label=Teledyne API 300E gas filter correlation CO analyser,definition=,notation=API300E],VocabularyConcept[id=15458404,identifier=API400,label=Teledyne API 400 UV photometric O3 analyser,definition=,notation=API400],VocabularyConcept[id=15458405,identifier=API400A,label=Teledyne API 400A UV photometric O3 analyser,definition=,notation=API400A],VocabularyConcept[id=15458406,identifier=API400E,label=Teledyne API 400E UV photometric O3 analyser,definition=,notation=API400E],VocabularyConcept[id=15458407,identifier=APIM100E,label=Teledyne API M100E UV Fluorescent SO2 Analyser,definition=,notation=APIM100E],VocabularyConcept[id=15458408,identifier=APIM200E,label=Teledyne API M200E chemiluminescent NOx analyser,definition=,notation=APIM200E],VocabularyConcept[id=15458409,identifier=APIM300E,label=Teledyne API M300E gas filter correlation CO analyser,definition=,notation=APIM300E],VocabularyConcept[id=15458410,identifier=APIM400E,label=Teledyne API M400E UV photometric O3 analyser,definition=,notation=APIM400E],VocabularyConcept[id=15458411,identifier=APIT100,label=Teledyne API T100 UV Fluorescent SO2 Analyser,definition=,notation=APIT100],VocabularyConcept[id=15458412,identifier=APIT200,label=Teledyne API T200 chemiluminescent NOx analyser,definition=,notation=APIT200],VocabularyConcept[id=15458413,identifier=APIT200U,label=Teledyne API T200U chemiluminescent NOx analyser,definition=The Model T200U Trace-level NO/NO2/NOx analyzer has been developed specifically to address the challenges of low level monitoring as required, for example, in the US NCore network. It uses the proven chemiluminescence principle and is designed to allow ultra-sensitive measurements with a lower detectable limit of 50 ppt while still meeting the requirements for use as a US EPA compliance analyzer. The Model T200U combines a gold plated reaction cell with an enhanced performance pump, special low noise photomultiplier tube, and unique signal conditioning to provide exceptional sensitivity. In addition, a pre-reactor separates the NO-O3 reaction from background chemiluminescence to allow accurate auto-zero of the analyzer. All T Series instruments offer an advanced color display, capacitive touch screen, intuitive user interface, flexible I/O, and built-in data acquisition capability. All instrument set up, control and access to stored data and diagnostic information is available through the front panel, or via RS232, Ethernet, or USB com ports, either locally or by remote connection. The Model T200U comes NumaView™ Software. NumaView™ Remote PC Software allows for a remote connection with virtual interface and data downloading capability to analyzers operating NumaView™ Software.,notation=APIT200U],VocabularyConcept[id=15458414,identifier=APIT300,label=Teledyne API T300 gas filter correlation CO analyser,definition=,notation=APIT300],VocabularyConcept[id=15458415,identifier=APIT400,label=Teledyne API T400 UV photometric O3 analyser,definition=,notation=APIT400],VocabularyConcept[id=15458416,identifier=BAM1020,label=MetOne BAM-1020,definition=,notation=BAM1020],VocabularyConcept[id=15458417,identifier=BAM1020heated,label=MetOne BAM-1020 heated,definition=,notation=BAM1020heated],VocabularyConcept[id=15458418,identifier=BAM1020unheated,label=MetOne BAM-1020 unheated,definition=,notation=BAM1020unheated],VocabularyConcept[id=15458419,identifier=CP7001-BTX,label=Chrompack BTX CP7001 Monitor,definition=,notation=CP7001-BTX],VocabularyConcept[id=15458421,identifier=Ecophysics-CLD700AL,label=Eco Physics CLD 700 AL,definition=,notation=Ecophysics-CLD700AL],VocabularyConcept[id=15458422,identifier=Ecophysics-CLD780TR,label=Eco Physics CLD 780 TR,definition=,notation=Ecophysics-CLD780TR],VocabularyConcept[id=15458423,identifier=Enviro1003RS,label=Environnement S.A. Model 1003-RS O3,definition=Environnement S.A. Model 1003-RS under DASIBI license,notation=Enviro1003RS],VocabularyConcept[id=15458424,identifier=F-701-20,label=F-701-20 Verewa / Durag,definition=Ambient Air Dust Concentration Monitor,notation=F-701-20],VocabularyConcept[id=15458425,identifier=FIDAS200,label=Palas model FIDAS 200,definition=,notation=FIDAS200],VocabularyConcept[id=15458426,identifier=FIDAS200E,label=Palas model FIDAS 200E,definition=,notation=FIDAS200E],VocabularyConcept[id=15458427,identifier=FIDAS200S,label=Palas model FIDAS 200S,definition=,notation=FIDAS200S],VocabularyConcept[id=15458428,identifier=GC5000BTX-FID,label=AMA GC5000 BTX Type FID,definition=,notation=GC5000BTX-FID],VocabularyConcept[id=15458429,identifier=GC5000BTX-PID,label=AMA GC5000 BTX Type PID,definition=,notation=GC5000BTX-PID],VocabularyConcept[id=15458430,identifier=GC855BTX,label=SINTECH SPECTRAS BTX GC 855 series undetermined,definition=,notation=GC855BTX],VocabularyConcept[id=15458431,identifier=GC855BTX-600,label=SINTECH SPECTRAS BTX GC 855 serie 600,definition=,notation=GC855BTX-600],VocabularyConcept[id=15458432,identifier=GC955,label=SYNTECH SPECTRAS GC 955 series undetermined,definition=,notation=GC955],VocabularyConcept[id=15458433,identifier=GC955-600,label=SYNTECH SPECTRAS GC 955-600,definition=,notation=GC955-600],VocabularyConcept[id=15458434,identifier=GC955-800,label=SYNTECH SPECTRAS GC 955-800,definition=,notation=GC955-800],VocabularyConcept[id=15458435,identifier=GRIMM-EDM107,label=GRIMM model EDM 107 for PM10, PM2.5, PM1 and TC,definition=,notation=GRIMM EDM 107],VocabularyConcept[id=15458436,identifier=GRIMM-EDM180,label=GRIMM model EDM 180 for PM10 and PM2.5,definition=,notation=GRIMM EDM 180],VocabularyConcept[id=15458437,identifier=GRIMM-EDM180C,label=GRIMM model EDM 180-C for PM10 and PM2.5,definition=,notation=GRIMM-EDM180C],VocabularyConcept[id=15458438,identifier=GRIMM-EDM180D,label=GRIMM model EDM 180-D for PM10, PM2.5, PM1 and TC,definition=,notation=GRIMM-EDM180D],VocabularyConcept[id=15458439,identifier=GRIMM-EDM180MC,label=GRIMM model EDM 180-MC for PM10, PM2.5, PM1, TC and 31 size channels,definition=,notation=GRIMM-EDM180MC],VocabularyConcept[id=15458440,identifier=GRIMM-EDM365,label=GRIMM model EDM 365 for PM10, PM2.5, PM1 and TC,definition=,notation=GRIMM EDM 365],VocabularyConcept[id=15458443,identifier=ML2010,label=Monitor Labs model 2010 O3 analyser,definition=,notation=ML2010],VocabularyConcept[id=15458444,identifier=ML2030,label=Monitor Labs model 2030 CO analyser,definition=,notation=ML2030],VocabularyConcept[id=15458893,identifier=ML2040,label=Monitor Labs model 2040 SO2 analyser,definition=,notation=ML2040],VocabularyConcept[id=15458445,identifier=ML2041,label=Monitor Labs model 2041 NOx analyser,definition=,notation=ML2041],VocabularyConcept[id=15458446,identifier=ML2050,label=Monitor Labs model 2050 SO2 analyser,definition=,notation=ML2050],VocabularyConcept[id=15458447,identifier=ML8410,label=Monitor Labs model 8410 NOx analyser,definition=Monitor Labs model 8410 NOx analyser,notation=ML8410],VocabularyConcept[id=15458448,identifier=ML8440,label=Monitor Labs model 8440 NOx analyser,definition=,notation=ML8440],VocabularyConcept[id=15458449,identifier=ML8441,label=Monitor Labs model 8841 NOx analyser,definition=,notation=ML8441],VocabularyConcept[id=15458450,identifier=ML8810,label=Monitor Labs model 8810 O3 analyser,definition=,notation=ML8810],VocabularyConcept[id=15458451,identifier=ML8830,label=Monitor Labs model 8830 CO analyser,definition=,notation=ML8830],VocabularyConcept[id=15458452,identifier=ML8831,label=Monitor Labs model 8831 CO analyser,definition=,notation=ML8831],VocabularyConcept[id=15458453,identifier=ML8840,label=Monitor Labs model 8840 NOx analyser,definition=,notation=ML8840],VocabularyConcept[id=15458454,identifier=ML8841,label=Monitor Labs model 8841 NOx analyser,definition=,notation=ML8841],VocabularyConcept[id=15458455,identifier=ML8850,label=Monitor Labs model 8850 SO2 analyser,definition=,notation=ML8850],VocabularyConcept[id=15458456,identifier=ML8850M,label=Monitor Labs model 8850M SO2 analyser,definition=,notation=ML8850M],VocabularyConcept[id=15458457,identifier=ML8850S,label=Monitor Labs model 8850S SO2 analyser,definition=,notation=ML8850S],VocabularyConcept[id=15458458,identifier=ML8930,label=Monitor Labs model 8930 CO analyser,definition=Monitor Labs model 8930 CO analyser,notation=ML8930],VocabularyConcept[id=15458459,identifier=ML8941A,label=Monitor Labs model 8941A NOx analyser,definition=,notation=ML8941A],VocabularyConcept[id=15458461,identifier=ML9810,label=Monitor Labs model 9810 O3 analyser,definition=,notation=ML9810],VocabularyConcept[id=15458462,identifier=ML9810A,label=Monitor Labs model 9810A O3 analyser,definition=,notation=ML9810A],VocabularyConcept[id=15458463,identifier=ML9810B,label=Monitor Labs model 9810B O3 analyser,definition=,notation=ML9810B],VocabularyConcept[id=15458464,identifier=ML9811,label=Monitor Labs model 9811 O3 analyser,definition=,notation=ML9811],VocabularyConcept[id=15458465,identifier=ML9812,label=Monitor Labs model 9812 O3 analyser,definition=,notation=ML9812],VocabularyConcept[id=15458466,identifier=ML9830,label=Monitor Labs model 9830 CO analyser,definition=,notation=ML9830],VocabularyConcept[id=15458467,identifier=ML9830B,label=Monitor Labs model 9830B CO analyser,definition=,notation=ML9830B],VocabularyConcept[id=15458468,identifier=ML9832,label=Monitor Labs model 9832 CO analyser,definition=,notation=ML9832],VocabularyConcept[id=15458469,identifier=ML9840,label=Monitor Labs model 9840 NOx analyser,definition=,notation=ML9840],VocabularyConcept[id=15458470,identifier=ML9841,label=Monitor Labs model 9841 NOx analyser,definition=,notation=ML9841],VocabularyConcept[id=15458471,identifier=ML9841A,label=Monitor Labs model 9841A NOx analyser,definition=,notation=ML9841A],VocabularyConcept[id=15458472,identifier=ML9841B,label=Monitor Labs model 9841B NOx analyser,definition=,notation=ML9841B],VocabularyConcept[id=15458473,identifier=ML9841T,label=Monitor Labs model 9841T NOx analyser,definition=,notation=ML9841T],VocabularyConcept[id=15458474,identifier=ML9850,label=Monitor Labs model 9850 SO2 analyser,definition=,notation=ML9850],VocabularyConcept[id=15458475,identifier=ML9850B,label=Monitor Labs model 9850B SO2 analyser,definition=,notation=ML9850B],VocabularyConcept[id=15458476,identifier=PicarroG2401,label=Picarro G2401 (used for CO measurement),definition=,notation=PicarroG2401],VocabularyConcept[id=15458479,identifier=SWAM5aDual,label=SWAM 5a Dual channel monitor,definition=,notation=SWAM5aDual],VocabularyConcept[id=15458480,identifier=SWAM5aSingle,label=SWAM 5a Single channel monitor,definition=FAI SWAM5a Single Channel,notation=SWAM5aSingle],VocabularyConcept[id=15458481,identifier=Serinus10,label=Serinus 10 O3,definition=,notation=Serinus10],VocabularyConcept[id=15458482,identifier=Serinus30,label=Serinus30 CO,definition=,notation=Serinus30],VocabularyConcept[id=15458483,identifier=Serinus50,label=Serinus 50 SO2,definition=,notation=Serinus50],VocabularyConcept[id=15458484,identifier=TEOM1400,label=TEOM 1400,definition=,notation=TEOM1400],VocabularyConcept[id=15458485,identifier=TEOM1400A,label=TEOM 1400A,definition=,notation=TEOM1400A],VocabularyConcept[id=15458486,identifier=TEOM1400AB,label=TEOM 1400AB,definition=,notation=TEOM1400AB],VocabularyConcept[id=15458487,identifier=TEOM1400AB-FDMS,label=TEOM 1400AB with FDMS module (8500),definition=,notation=TEOM1400AB-FDMS],VocabularyConcept[id=15458489,identifier=TEOM1405,label=TEOM 1405,definition=,notation=TEOM1405],VocabularyConcept[id=15458490,identifier=TEOM1405D,label=TEOM 1405D,definition=,notation=TEOM1405D],VocabularyConcept[id=15458491,identifier=TEOM1405DF-FDMS,label=TEOM 1405DF with FDMS Dichotomous monitor for PM2.5 & PM10,definition=,notation=TEOM1405DF-FDMS],VocabularyConcept[id=15458492,identifier=TEOM1405F-FDMS,label=TEOM 1405F with FDMS,definition=,notation=TEOM1405F-FDMS],VocabularyConcept[id=15458497,identifier=VOC71M,label=Environnement VOC71M,definition=,notation=VOC71M],VocabularyConcept[id=15458498,identifier=VOC72M,label=Environnement VOC72M,definition=,notation=VOC72M],VocabularyConcept[id=15458500,identifier=agilentHP6890,label=agilent HP 6890,definition=Agilent HP 6890 (used for benzene and toluene measurement),notation=agilentHP6890],VocabularyConcept[id=15458502,identifier=airmoVOC_BTX,label=airmoVOC BTX,definition=The airmoVOC BTX is an automatic gas chromatograph dedicated to the analysis and monitoring of trace amounts of BTEX compounds (Benzene, Toluene, Ethylbenzene, m-, p-, and o-Xylenes),,notation=airmoVOC_BTX],VocabularyConcept[id=15458503,identifier=airmoVOC_BTX1000,label=airmotec BTX 1000,definition=,notation=airmoVOC_BTX1000],VocabularyConcept[id=15458504,identifier=airpointer,label=airpointer,definition=The airpointer‘s modular design comprising a base unit, analyzing modules and sensor modules allows for a configuration according to different application requirements.,notation=airpointer],VocabularyConcept[id=15458506,identifier=andersenFH621N,label=Andersen/GMW Model FH621-N Beta Monitor,definition=Andersen Instruments Model FH62I-N PM10 Beta Attenuation Monitor consisting of the following components: FH101 Vacuum Pump Assembly; FH102 Accessory Kit; FH107 Roof Flange Kit; FH125 Zero and Span PM 10 Mass Foil Calibration Kit; FH62I Beta Attenuation 19-inch Control Module; SA246b PM10Inlet (16.7 liter/min) or the louvered inlet specified in 40 CFR 50 Appendix L, Figs. L-2 thru L-19; operated for 24-hour average measurements, with an observing time of 60 minutes, the calibration factor set to 2400, a glass fiber filter tape, an automatic filter advance after each 24-hour sample period, and with or without either of the following options: FH0P1 Indoor Cabinet; FH0P2 Outdoor Shelter Assembly,notation=andersenFH621N],VocabularyConcept[id=15458513,identifier=andersenFH62C14,label=Thermo Andersen Series FH 62 C14 Continuous PM10 Ambient Particulate Monitor,definition=Thermo Andersen Series FH 62 C14 Continuous PM10 Ambient Particulate Monitor and Thermo Scientific Model 5014i Beta (5014i Beta), Continuous Ambient Particulate Monitor,” operated for 24-hour average measurements, with the specified 10-micron EPA PM10inlet (or alternative louvered PM10inlet meeting 40 CFR 50 Appendix L specifications), inlet connector, sample tube with heater, roof flange kit, mass foil kit, pump kit, sample filter tape; with operational settings of 1000 L/h (16.67 L/min) sample flowrate, daily filter change, auto filter change at volumetric flow <950 L/h, auto filter change at mass >1500 micrograms, and factory default calculation mode settings operated with software version 1.07. Operated, calibrated and serviced according to the appropriate Operator Manual,notation=andersenFH62C14],VocabularyConcept[id=15458507,identifier=andersenFH62IN,label=Andersen/GMW Model FH62I-N Beta Monitor,definition=Andersen Instruments Model FH62I-N PM10 Beta Attenuation Monitor consisting of the following components: FH101 Vacuum Pump Assembly; FH102 Accessory Kit; FH107 Roof Flange Kit; FH125 Zero and Span PM 10 Mass Foil Calibration Kit; FH62I Beta Attenuation 19-inch Control Module; SA246b PM10Inlet (16.7 liter/min) or the louvered inlet specified in 40 CFR 50 Appendix L, Figs. L-2 thru L-19; operated for 24-hour average measurements, with an observing time of 60 minutes, the calibration factor set to 2400, a glass fiber filter tape, an automatic filter advance after each 24-hour sample period, and with or without either of the following options: FH0P1 Indoor Cabinet; FH0P2 Outdoor Shelter Assembly,notation=andersenFH62IN],VocabularyConcept[id=15458508,identifier=andersenFH62IR,label=Thermo Andersen ESM FH 62 I-R,definition=,notation=andersenFH62IR],VocabularyConcept[id=15458510,identifier=andersenHVS,label=Andersen/GMW generic High-Volume Air Sampler,definition=,notation=andersenHVS],VocabularyConcept[id=15458511,identifier=bendix8101c,label=Bendix/Combustion Engineering Model 8101-C Oxides of Nitrogen Analyze,definition=Bendix or Combustion Engineering Model 8101-C Oxides of Nitrogen Analyzer operated on a 0-0.5 ppm range with a Teflon sample filter (Bendix P/N 007163) installed on the sample inlet line.,notation=bendix8101c],VocabularyConcept[id=15458512,identifier=csi1600,label=Columbia Scientific Industries Models 1600,definition=CSI Model 1600 Oxides of Nitrogen Analyzer operated on a 0-0.5 ppm range with a Teflon sample filter (CSI P/N M951-8023)installed on the sample inlet line,notation=csi1600],VocabularyConcept[id=15458514,identifier=csi5600,label=Columbia Scientific Industries Models 5600,definition=CSI Model 5600 Oxides of Nitrogen Analyzer operated on a 0-0.5 ppm range, with any signal integration time in the range of 20 to 99 seconds, with a Teflon sample filter (CSI P/N M951-8023) installed on the sample inlet line,notation=csi5600],VocabularyConcept[id=15458516,identifier=dasibi1003,label=DASIBI 1003 O3 analyser,definition=,notation=dasibi1003],VocabularyConcept[id=15458517,identifier=dasibi1003PC,label=DASIBI 1003-PC O3 analyser,definition=,notation=dasibi1003PC],VocabularyConcept[id=15458518,identifier=dasibi1003RS,label=DASIBI 1003-RS O3 analyser,definition=,notation=dasibi1003RS],VocabularyConcept[id=15458519,identifier=dasibi1008,label=DASIBI 1008 O3 analyser,definition=,notation=dasibi1008],VocabularyConcept[id=15458520,identifier=dasibi1008AH,label=DASIBI 1008-AH O3 analyser,definition=,notation=dasibi1008AH],VocabularyConcept[id=15458521,identifier=dasibi1008PC,label=DASIBI 1008-PC O3 analyser,definition=,notation=dasibi1008PC],VocabularyConcept[id=15458522,identifier=dasibi1008RS,label=DASIBI 1008-RS O3 analyser,definition=,notation=dasibi1008RS],VocabularyConcept[id=15458523,identifier=dasibi1108,label=DASIBI 1108 O3 analyser,definition=,notation=dasibi1108],VocabularyConcept[id=15458524,identifier=dasibi2108,label=DASIBI 2108 NOx analyser,definition=,notation=dasibi2108],VocabularyConcept[id=15458525,identifier=dasibi3008,label=DASIBI 3008 CO analyser,definition=,notation=dasibi3008],VocabularyConcept[id=15458526,identifier=dasibi4108,label=DASIBI 4108 SO2 analyser,definition=,notation=dasibi4108],VocabularyConcept[id=15458531,identifier=enrivoAC30M,label=Environnement S.A. Model AC30M NO2 Analyzer,definition=,notation=enrivoAC30M],VocabularyConcept[id=15458532,identifier=enrivoAC31M,label=Environnement S.A. Model AC31M NO2 Analyzer,definition=Environnement S. A. Model AC31M Chemiluminescent Nitrogen Oxide Analyzer operated with a full scale range of 0 -500ppb, at any temperature in the range of 15°C to 35°C, with a 5-micron PTFE sample particulate filter, with the following software settings: Automatic response time ON; Minimum response time set to 60 seconds (RT 2); and with or without any of the following options: Internal Permeation Oven; Connection for Silica Gel Dryer; RS232-422 interface; EV3 valve; Internal Printer,notation=enrivoAC31M],VocabularyConcept[id=15458533,identifier=enrivoAC32M,label=Environnement S.A. Model AC32M NO2 Analyzer,definition=Environnement S. A. Model AC32M Chemiluminescent Nitrogen Oxides Analyzer operated with a full scale range of 0 -500 ppb, at any temperature in the range of 10°C to 35°C, with a 5-micron PTFE sample particulate filter, with response time setting 11 (automatic response time), and with or without the following option:Internal permeation oven.,notation=enrivoAC32M],VocabularyConcept[id=15458535,identifier=enviroAF20M,label=Environnement S.A. Model AF20M SO2 Analyzer,definition=,notation=enviroAF20M],VocabularyConcept[id=15458536,identifier=enviroAF21M,label=Environnement S.A. Model AF21M SO2 Analyzer,definition=Environnement S.A Model AF21M Sulfur Dioxide Analyzer operated on a range of 0-0.5 ppm with a response time coefficient setting of 01, a Teflon ilter installed in the rear - panel filter assembly, and with or without any of the following options: Rack Mount/Slides; RS-232-C Interface,notation=enviroAF21M],VocabularyConcept[id=15458537,identifier=enviroAF22M,label=Environnement S.A. Model AF22M SO2 Analyzer,definition=Environnement S.A Model AF22M UV Fluorescence Sulfur Dioxide Analyzer operated with a full scale range of 0 - 500 ppb, at any temperature in the range of 10°C to 35°C, with a 5-micron PTFE sample particulate filter, with a response time setting of 11 (Automatic response time), with the automatic “ZERO-REF” cycle ON and set for activation every 24 hours, and with or without either of the follow ing options: Permeation oven, Rack mount slides,notation=enviroAF22M],VocabularyConcept[id=15458538,identifier=enviroAS32M,label=Environnement S.A. Model AS32M Nitrogen Dioxide Analyzer,definition=,notation=enviroAS32M],VocabularyConcept[id=15458539,identifier=enviroCO10M,label=Environnement S.A. Model CO10M CO Analyzer,definition=,notation=enviroCO10M],VocabularyConcept[id=15458540,identifier=enviroCO11M,label=Environnement S.A. Model CO11M CO Analyzer,definition=Environnement S.A. Model CO11M Ambient Carbon Monoxide Analyzer operated on a full scale range of 0 - 50 ppm, at any temperature in the range of 15 °C to 35°C, with a 5-micron PTFE sample particulate filter, with the following software settings:Automatic response time ON; Minimum response time set to 40 seconds (RT 13); Automatic ZERO-REF cycle programmed every 24 hours; and with or without any of the following options: RS232-422 Serial Interface; Internal Printer,notation=enviroCO11M],VocabularyConcept[id=15458541,identifier=enviroCO12E,label=Environnement S.A. Model CO12E CO Analyzer,definition=,notation=enviroCO12E],VocabularyConcept[id=15458542,identifier=enviroCO12M,label=Environnement S.A. Model CO12M CO Analyzer,definition=Environnement S.A Model CO12M Gas Filter Correlation Carbon Monoxide Analyzer operated with a full scale range of 0 - 50 ppm, at any temperature in the range of 10°C to 35°C, with a 5-micron PTFE sample particulate filter, with response time ON, and with the automatic “ZERO-REF” cycle either ON or OFF,notation=enviroCO12M],VocabularyConcept[id=15458543,identifier=enviroMP101M,label=Environnement S.A. Model MP101M (may be used for PM10 and PM2.5),definition=Environnement S. A. Model MP101M with PM10 or PM2.5 Beta Gauge Monitor,” configured with the louvered PM 10 or PM2.5 inlet specified in 40 CFR 50 Appendix L or its flat-topped predecessor version and one of the three optional temperature-regulated sampling tubes (RST), and operated with a full scale measurement range of 0 - 0.500 mg/m3 (0 - 500 g/m3), with the sample flow rate set to 1.00 m3/h and flow regulation set to yes , the “norms selection” set to m3(actual volume), the “cycle” set to 24 hours, the “period” set to none, and the “counting time” set to 200 seconds,notation=enviroMP101M],VocabularyConcept[id=15458544,identifier=enviroMP2.5M,label=Environnement S.A. Model MP2.5M undefined,definition=,notation=enviroMP2.5M],VocabularyConcept[id=15458545,identifier=enviroMPSI100,label=Environnement S.A. Model MPSI 100,definition=,notation=enviroMPSI100],VocabularyConcept[id=15458547,identifier=enviroO341M,label=Environnement S.A. Model O341M UV Ozone Analyzer,definition=Environnement S.A. Model O341M UV Photometric Ozone Analyzer operated on a full scale range of 0 - 500 ppb, at any temperature in the range of 15°C to 35°C, with the response time set to 50 seconds, and with or without any of the following options: Internal Ozone Generator; Span External Control; RS232 - 422 Serial Interface; Internal Printer.,notation=enviroO341M],VocabularyConcept[id=15458548,identifier=enviroO342E,label=Environnement S.A. Model O342E UV Ozone Analyzer,definition=,notation=enviroO342E],VocabularyConcept[id=15458549,identifier=enviroO342M,label=Environnement S.A. Model O342M UV Ozone Analyze,definition=Environnement S.A Model O342M UV Photometric Ozone Analyzer,” operated with a full scale range of 0 - 500 ppb, at any temperature in the range of 10°C to 35°C, with a 5-micron PTFE sample particulate filter, with response time setting of 11 (Automatic response time), and with or without any of the following options: c) Internal ozone generator, d) Span external control (zero/span solenoid valve).,notation=enviroO342M],VocabularyConcept[id=15458550,identifier=enviroSANOA,label=Environnement S.A. SANOA Multigas Longpath Monitoring System,definition=Environnement S.A. Model SANOA Multigas Longpath Air Quality Monitoring System consisting of a receiver, one or more projectors, interface unit, a user-provided control unit computer running the SANOA VisionAIR software, and associated incidental equipment; configured for measuring SO2, with the temperature control and internal calibration cell options installed, operated with a measurement range of 0 to 0.5 ppm, over an installed monitoring path length of between 27 and 500 meters, within an ambient air temperature range of -30 to +45°C,with a measurement (integrating) time of 180 seconds, and with or without external temperature and barometric pressure sensors or any of the following options: external (meteo) input connection, series 1M bus connection, OGR type projector, analog outputs.,notation=enviroSANOA],VocabularyConcept[id=15458551,identifier=horibaAPDA350,label=Horiba model APDA 350 TSP analyser,definition=,notation=horibaAPDA350],VocabularyConcept[id=15458552,identifier=horibaAPDA350E,label=Horiba model APDA 350E TSP analyser,definition=,notation=horibaAPDA350E],VocabularyConcept[id=15458553,identifier=horibaAPDA351,label=Horiba model APDA 351 TSP analyser,definition=,notation=horibaAPDA351],VocabularyConcept[id=15458554,identifier=horibaAPDA351E,label=Horiba model APDA 351E TSP analyser,definition=,notation=horibaAPDA351E],VocabularyConcept[id=15458555,identifier=horibaAPDA371,label=Horiba model APDA 371,definition=,notation=horibaAPDA371],VocabularyConcept[id=15458559,identifier=horibaAPMA300,label=Horiba model APMA 300 CO analyser,definition=,notation=horibaAPMA300],VocabularyConcept[id=15458560,identifier=horibaAPMA300E,label=Horiba model APMA 300E CO analyser,definition=,notation=horibaAPMA300E],VocabularyConcept[id=15458561,identifier=horibaAPMA350,label=Horiba model APMA 350 CO analyser,definition=,notation=horibaAPMA350],VocabularyConcept[id=15458562,identifier=horibaAPMA350E,label=Horiba model APMA 350E CO analyser,definition=,notation=horibaAPMA350E],VocabularyConcept[id=15458563,identifier=horibaAPMA360,label=Horiba model APMA 360 CO analyser,definition=,notation=horibaAPMA360],VocabularyConcept[id=15458564,identifier=horibaAPMA360CE,label=Horiba model APMA 360CE CO analyser,definition=,notation=horibaAPMA360CE],VocabularyConcept[id=15458565,identifier=horibaAPMA360E,label=Horiba model APMA 360E CO analyser,definition=,notation=horibaAPMA360E],VocabularyConcept[id=15458566,identifier=horibaAPMA370,label=Horiba model APMA 370 CO analyser,definition=,notation=horibaAPMA370],VocabularyConcept[id=15458567,identifier=horibaAPNA300,label=Horiba model APNA 300 NOx analyser,definition=,notation=horibaAPNA300],VocabularyConcept[id=15458568,identifier=horibaAPNA300E,label=Horiba model APNA 300E NOx analyser,definition=,notation=horibaAPNA300E],VocabularyConcept[id=15458569,identifier=horibaAPNA350,label=Horiba model APNA 350 NOx analyser,definition=,notation=horibaAPNA350],VocabularyConcept[id=15458570,identifier=horibaAPNA350E,label=Horiba model APNA 350E NOx analyser,definition=,notation=horibaAPNA350E],VocabularyConcept[id=15458571,identifier=horibaAPNA360,label=Horiba model APNA 360 NOx analyser,definition=,notation=horibaAPNA360],VocabularyConcept[id=15458572,identifier=horibaAPNA360E,label=Horiba model APNA 360E NOx analyser,definition=,notation=horibaAPNA360E],VocabularyConcept[id=15458573,identifier=horibaAPNA370,label=Horiba model APNA 370 NOx analyser,definition=,notation=horibaAPNA370],VocabularyConcept[id=15458574,identifier=horibaAPOA300,label=Horiba model APOA 300 O3 analyser,definition=,notation=horibaAPOA300],VocabularyConcept[id=15458575,identifier=horibaAPOA350,label=Horiba model APOA 350 O3 analyser,definition=,notation=horibaAPOA350],VocabularyConcept[id=15458576,identifier=horibaAPOA350E,label=Horiba model APOA 350E O3 analyser,definition=,notation=horibaAPOA350E],VocabularyConcept[id=15458577,identifier=horibaAPOA360,label=Horiba model APOA 360 O3 analyser,definition=,notation=horibaAPOA360],VocabularyConcept[id=15458578,identifier=horibaAPOA360E,label=Horiba model APOA 350E O3 analyser,definition=,notation=horibaAPOA360E],VocabularyConcept[id=15458579,identifier=horibaAPOA370,label=Horiba model APOA 370 O3 analyser,definition=,notation=horibaAPOA370],VocabularyConcept[id=15458580,identifier=horibaAPSA300,label=Horiba model APSA 300 SO2 analyser,definition=,notation=horibaAPSA300],VocabularyConcept[id=15458581,identifier=horibaAPSA350,label=Horiba model APSA 350 SO2 analyser,definition=,notation=horibaAPSA350],VocabularyConcept[id=15458582,identifier=horibaAPSA350E,label=Horiba model APSA 350E SO2 analyser,definition=,notation=horibaAPSA350E],VocabularyConcept[id=15458583,identifier=horibaAPSA360,label=Horiba model APSA 360 SO2 analyser,definition=,notation=horibaAPSA360],VocabularyConcept[id=15458584,identifier=horibaAPSA360A,label=Horiba model APSA 360A SO2 analyser,definition=,notation=horibaAPSA360A],VocabularyConcept[id=15458585,identifier=horibaAPSA360E,label=Horiba model APSA 360E SO2 analyser,definition=,notation=horibaAPSA360E],VocabularyConcept[id=15458586,identifier=horibaAPSA370,label=Horiba model APSA 370 SO2 analyser,definition=,notation=horibaAPSA370],VocabularyConcept[id=15458587,identifier=horibaFH621R,label=ONLY USED IN ONE STATION IN RS,definition=,notation=horibaFH621R],VocabularyConcept[id=15458588,identifier=kimoto168s,label=KIMOTO 168s,definition=,notation=kimoto168s],VocabularyConcept[id=15458593,identifier=mcvCAV-AMSb,label=MCV CAV-A/MSb Captador dAlt Volum Seqüencial,definition=,notation=mcvCAV-AMSb],VocabularyConcept[id=15458594,identifier=mcvCAV-Amb,label=MCV CAV-A/mb Captador dAlt Volum,definition=,notation=mcvCAV-Amb],VocabularyConcept[id=15458595,identifier=meloySA700,label=Meloy Model SA 700 Fluorescence Sulfur Dioxide Analyze,definition=Meloy Model SA 700 Fluorescence Sulfur Dioxide Analyzeroperated on the 0-250 ppb1, the 0-500 ppb, or the 0-1000 ppb range with a time constant switch position of either 2 or 3.The analyzer may be operated at temperatures between 20°C and 30°C and at line voltages between 105 and 130 volts, with or without any of the following options: FS-1 Current Output; FS-2 Rack Mount Conversion; FS-2A Rack Mount Conversion; FS-2B Rack Mount Conversion; FS-3 Front Panel Mounted Digital Meter; FS-5 Auto/Manual Zero/Span With Status; FS-6 Remote/Manual Zero/Span With Status; FS-7 Auto Zero Adjust.,notation=meloySA700],VocabularyConcept[id=15458597,identifier=opsisAR500,label=Opsis AR500 Open path monitor,definition=,notation=opsisAR500],VocabularyConcept[id=15458598,identifier=opsisAR500-ER110,label=Opsis AR500 Open path monitor with ER 110,definition=,notation=opsisAR500-ER110],VocabularyConcept[id=15458599,identifier=opsisAR500-ER120,label=Opsis AR500 Open path monitor with ER 120,definition=,notation=opsisAR500-ER120],VocabularyConcept[id=15458600,identifier=opsisAR500-ER150,label=Opsis AR500 Open path monitor with ER 150,definition=,notation=opsisAR500-ER150],VocabularyConcept[id=15458601,identifier=opsisSM200,label=Opsis SM200 Particulate Analyser with PM2.5 & PM10 Heads,definition=,notation=opsisSM200],VocabularyConcept[id=15458607,identifier=philipsK50033,label=PHILIPS K50033 API 100E,definition=,notation=philipsK50033],VocabularyConcept[id=15458608,identifier=philipsK50034,label=PHILIPS K50034 API 200A,definition=,notation=philipsK50034],VocabularyConcept[id=15458609,identifier=philipsK50093,label=PHILIPS K50093 API 300A,definition=,notation=philipsK50093],VocabularyConcept[id=15458610,identifier=philipsK50094,label=PHILIPS K50094 API 400,definition=,notation=philipsK50094],VocabularyConcept[id=15458611,identifier=philipsK50102,label=PHILIPS K50102 NO,definition=,notation=philipsK50102],VocabularyConcept[id=15458612,identifier=philipsK50109,label=PHILIPS K50109/00 Gas Filter Correlation CO analyser,definition=,notation=philipsK50109],VocabularyConcept[id=15458613,identifier=philipsK50110,label=PHILIPS K50110/00 UV Photometric O3 analyser,definition=,notation=philipsK50110],VocabularyConcept[id=15458616,identifier=philipsK50206,label=PHILIPS K50206/00 Pulsed Fluorescence SO2 analyser,definition=,notation=philipsK50206],VocabularyConcept[id=15458617,identifier=philipsK50235,label=PHILIPS K50235/00 NO-NOx-NO2 analyser,definition=,notation=philipsK50235],VocabularyConcept[id=15458618,identifier=philipsPW9755,label=PHILIPS PW9755/00 SO2 Analyser,definition=,notation=philipsPW9755],VocabularyConcept[id=15458619,identifier=philipsPW9762,label=PHILIPS PW9762/00 NO/NO2/NOX Analyser,definition=,notation=philipsPW9762],VocabularyConcept[id=15458620,identifier=picarroG2302,label=Picarro G2302,definition=Picarro G2302 (used for CO measurement),notation=picarroG2302],VocabularyConcept[id=15458621,identifier=picarroG2303,label=Picarro G2303,definition=Picarro G2303 (used for CO measurement),notation=picarroG2303],VocabularyConcept[id=15458622,identifier=serinus40,label=serinus 40 Nox,definition=,notation=serinus40],VocabularyConcept[id=15458623,identifier=serinus40NH3,label=serinus 40 with NH3 converter,definition=Ecotech serinus 40 used for NOx-NO2-NO modified to measure NOH3 (including a converter),notation=serinus40NH3],VocabularyConcept[id=15458628,identifier=thermo14B,label=Thermo model 14B chemiluminescence NO-NO2-Nox,definition=,notation=thermo14B],VocabularyConcept[id=15458629,identifier=thermo14B-E,label=Thermo model 14B/E chemiluminescence NO-NO2-Nox,definition=,notation=thermo14B-E],VocabularyConcept[id=15458630,identifier=thermo14BE,label=Thermo model 14B/E chemiluminescence NO-NO2-Nox,definition=,notation=thermo14BE],VocabularyConcept[id=15458631,identifier=thermo42,label=Thermo model 42 NO/Nox analyser,definition=,notation=thermo42],VocabularyConcept[id=15458632,identifier=thermo42c,label=Thermo model 42c NO/Nox analyser,definition=,notation=thermo42c],VocabularyConcept[id=15458633,identifier=thermo42c-TL,label=Thermo model 42C-TL (Trace level Nox),definition=,notation=thermo42c-TL],VocabularyConcept[id=15458634,identifier=thermo42i,label=Thermo model 42i NO/Nox analyser,definition=,notation=thermo42i],VocabularyConcept[id=15458635,identifier=thermo42i-BL,label=Thermo model 42i NO/NOx analyser - blue light,definition=,notation=thermo42i-BL],VocabularyConcept[id=15458636,identifier=thermo42i-TL,label=Thermo model 42i-TL (Trace level Nox),definition=,notation=thermo42i-TL],VocabularyConcept[id=15458637,identifier=thermo42s,label=Thermo model 42s NO/Nox analyser,definition=,notation=thermo42s],VocabularyConcept[id=15458638,identifier=thermo42w,label=Thermo model 42w NO/Nox analyser,definition=,notation=thermo42w],VocabularyConcept[id=15458639,identifier=thermo43,label=Thermo model 43 SO2 analyser,definition=,notation=thermo43],VocabularyConcept[id=15458640,identifier=thermo43CTL,label=Thermo model 43c-TL SO2 analyser,definition=,notation=thermo43CTL],VocabularyConcept[id=15458641,identifier=thermo43a,label=Thermo model 43a SO2 analyser,definition=,notation=thermo43a],VocabularyConcept[id=15458642,identifier=thermo43b,label=Thermo model 43b SO2 analyser,definition=,notation=thermo43b],VocabularyConcept[id=15458643,identifier=thermo43bs,label=Thermo model 43bs SO2 analyser,definition=,notation=thermo43bs],VocabularyConcept[id=15458644,identifier=thermo43c,label=Thermo model 43c SO2 analyser,definition=,notation=thermo43c],VocabularyConcept[id=15458645,identifier=thermo43h,label=Thermo model 43h pulsed fluorescence SO2 analyser,definition=,notation=thermo43h],VocabularyConcept[id=15458646,identifier=thermo43i,label=Thermo model 43i SO2 analyser,definition=,notation=thermo43i],VocabularyConcept[id=15458647,identifier=thermo43i-TLE,label=Thermo model 43i-TLE (Enhanced Trace Level),definition=,notation=thermo43i-TLE],VocabularyConcept[id=15458648,identifier=thermo43s,label=Thermo model 43s SO2 analyser,definition=,notation=thermo43s],VocabularyConcept[id=15458649,identifier=thermo43w,label=Thermo model 43w SO2 analyser,definition=,notation=thermo43w],VocabularyConcept[id=15458650,identifier=thermo48,label=Thermo model 48 CO analyser,definition=,notation=thermo48],VocabularyConcept[id=15458651,identifier=thermo48-GFC,label=Thermo model 48 CO analyser (gas filter correlation),definition=,notation=thermo48-GFC],VocabularyConcept[id=15458652,identifier=thermo48c,label=Thermo model 48c CO analyser,definition=,notation=thermo48c],VocabularyConcept[id=15458653,identifier=thermo48i,label=Thermo model 48i CO analyser,definition=,notation=thermo48i],VocabularyConcept[id=15458654,identifier=thermo48i-TLE,label=Thermo model 48i-TLE (Enhanced Trace Level),definition=,notation=thermo48i-TLE],VocabularyConcept[id=15458655,identifier=thermo48w,label=Thermo model 48w CO analyser,definition=,notation=thermo48w],VocabularyConcept[id=15458656,identifier=thermo49,label=Thermo model 49 O3 analyser,definition=,notation=thermo49],VocabularyConcept[id=15458657,identifier=thermo49c,label=Thermo model 49c O3 analyser,definition=,notation=thermo49c],VocabularyConcept[id=15458658,identifier=thermo49cps,label=Thermo 49 CPS Ozone Primary Standard,definition=,notation=thermo49cps],VocabularyConcept[id=15458659,identifier=thermo49i,label=Thermo model 49i O3 analyser,definition=,notation=thermo49i],VocabularyConcept[id=15458660,identifier=thermo49w,label=Thermo model 49w O3 analyser,definition=,notation=thermo49w],VocabularyConcept[id=15458661,identifier=thermo5014i,label=Thermo 5014i Beta Continuous Ambient Particulate Monitor,definition=Measure PM-10, PM-2.5 or PM-1 mass concentrations with the Thermo Scientific™ 5014i Beta Continuous Ambient Particulate Monitor. The 5014i distinguishes itself from other beta measurement methods by utilizing a continuous (non-step wise) mass measurement with a proven industry standard which provides for long-term unattended operation. To accurately address potential water bias and volatile loss, the Dynamic Heating System allows the user to hold the sample temperature at a fixed value or below a relative humidity threshold.,notation=thermo5014i],VocabularyConcept[id=15458662,identifier=thermo5030SHARP,label=Thermo model 5030 SHARP Particular Monitor with PM10 & PM2.5 heads,definition=The Thermo Scientific™ 5030 SHARP continuously measures the mass concentration of particulate utilizing a combination of beta attenuation and light scattering technology. The only continuous (non-step wise) hybrid ambient monitor that provides high resolution measurement of airborne particulates with excellent short and long term precision.,notation=thermo5030SHARP] Please delete the values before removing the element binding.

Edit vocabulary

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Bound elements for concepts

Element Type Status
skos:editorialNote Quantitative
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24 Sep 2013
Remove
skos:example Quantitative
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24 Sep 2013
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skos:broader Quantitative
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30 Sep 2013
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skos:narrower Quantitative
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17 Sep 2015
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skos:relatedMatch Quantitative
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24 Sep 2013
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skos:broadMatch Quantitative
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30 Sep 2013
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skos:narrowMatch Quantitative
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30 Sep 2013
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measuresPollutant Vocabulary
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21 Jul 2014
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Vocabulary concepts

287 concepts found, displaying 1 to 20.FirstPrev12345678Last
Id Label Status Status Modified Notation
AE22-PM2.5 AE22 Aethalometer with PM2.5 cyclone Quick edit Valid 22.03.2013 AE22-PM2.5
AE31 AE31 Aethalometer Quick edit Valid 02.03.2017 AE31
AE33 AE33 Aethalometer Quick edit Valid 02.03.2017 AE33
AIRTOXICA73022 Chromatotec AirTOXIC BTX PID - A73022 Quick edit Valid 20.07.2018 AIRTOXICA73022
ANNOX ANNOX Quick edit Valid 22.03.2013 ANNOX
API Teledyne API undertermined Quick edit Valid 06.08.2013 API
API100 Teledyne API 100 UV Fluorescent SO2 Analyser Quick edit Valid 06.08.2013 API100
API100A Teledyne API 100A UV Fluorescent SO2 Analyser Quick edit Valid 06.08.2013 API100A
API100E Teledyne API 100E UV Fluorescent SO2 Analyser Quick edit Valid 06.08.2013 API100E
API101 Teledyne API 101 UV Fluorescent SO2 Analyser Quick edit Valid 06.08.2013 API101
API101A Teledyne API 101A UV Fluorescent SO2 Analyser Quick edit Valid 06.08.2013 API101A
API200 Teledyne API 200 chemiluminescent NOx analyser Quick edit Valid 06.08.2013 API200
API200A Teledyne API 200A chemiluminescent NOx analyser Quick edit Valid 06.08.2013 API200A
API200AU TELEDYNE API 200AU Quick edit Valid 14.09.2017 API200AU
API200E Teledyne API 200E chemiluminescent NOx analyser Quick edit Valid 06.08.2013 API200E
API200EU Teledyne API 200EU chemiluminescent NOx analyser Quick edit Valid 03.03.2017 API200EU
API200EU-BL Teledyne API 200EU chemiluminescent NOx analyser - blue light Quick edit Valid 03.03.2017 API200EU-BL
API200UP Teledyne API 200UP chemiluminescent NOx analyser Quick edit Valid 03.03.2017 API200UP
API201A Teledyne API 200A chemiluminescent NOx analyser Quick edit Valid 06.08.2013 API201A
API300 Teledyne API 300 gas filter correlation CO analyser Quick edit Valid 06.08.2013 API300
CSV Import

The CSV file should contain a header row for element names and data rows for concepts.
It is strongly recommended to use an exported CSV file as a template for bulk editing. Columns and rows can be added to or deleted from the template file.
A concept can be ignored by prepending a double-slash '//' to the concept row in the CSV
    Notes:
  • If the header row contains unknown elements the import will aborted and data will be rolled back
  • Erroneous concept rows are ignored, valid data rows are still imported
  • Successful import cannot be undone (unless "undo checkout" is performed)
  • If a concept with the same identifier already exists in the vocabulary it will be overwritten
  • "Purge Vocabulary" option deletes all the vocabulary concepts before import
Note
  • With this operation, contents of RDF file will be imported into vocabulary folder.
  • Only a working copy can be updated with a RDF file upload.
  • If user select "Purge Per Predicate" option. All seen predicates will be removed from vocabulary.
  • If user select "Purge All Vocabulary Data" option. All data will be removed from vocabulary.
  • Once import is successful, operation cannot be undone. If an error occurs during import, then all data will be rolled back.
In this case, existing vocabulary information will be updated with information from imported concepts.
In this case, predicates of existing concepts will be replaced with the imported predicates.
In this case, all existing concepts will be removed and the imported concepts will be added.
In this case, all imported concepts will be removed from the vocabulary.
How to handle missing concepts?