Parameter Viewer

Document ID ca-gcdwqgtd-2014-02-05-4 Title Guidelines for Canadian Drinking Water Quality: Guideline Technical Document – Turbidity URL https://www.canada.ca/en/health-canada/services/publications/healthy-living/guidelines-canadian-drinking-water-quality-turbidity/page-6-guidelines-canadian-drinking-water-quality-turbidity.html Jurisdiction /ca Subdomain(s) Drinking water, Analytical methods Language en Status completed Analyzed at 2026-03-17 14:41:00.892405+00:00 Relevance Provides approved analytical methods for turbidity monitoring in drinking water.
16 Qualitative 42 Quantitative 15 Definitions

Q Qualitative Requirements (16)

Req ID Category Intent Legal Status Name Subdomain(s) Context Conditions Confidence
#Q001monitoringoperationalrecommendedTurbidimeter Method Conformitydrinking waterUtilities should use turbidimeters that conform to one of the methods discussed below when monitoring drinking water.When monitoring drinking waterhigh
#Q002operationaloperationalrecommendedTurbidimeter Operation and Maintenance Programsdrinking waterUtilities should ensure that the appropriate operation, maintenance and calibration programs are in place for all turbidimeters.high
#Q003operationaloperationalrecommendedTurbidimeter Operating Proceduresdrinking waterFor example, all utilities should have operating procedures for cleaning turbidimeters, creating or using standards, sampling and calibrating turbidimeters.high
#Q004operationaloperationalrecommendedOnline Turbidimeter Calibration Frequencydrinking waterIt is recommended that utilities calibrate online turbidimeters at least quarterly, or more frequently if recommended by the manufacturer.Applies to online turbidimetershigh
#Q005operationaloperationalrecommendedTurbidimeter Calibration Verification and Re-calibrationdrinking waterThe calibration of turbidimeters should then be verified weekly with the appropriate standard and re-calibrated if the turbidimeter has drifted more than 10% from the value assigned to the standard.high
#Q006operationaloperationalrecommendedTurbidimeter Preventive Maintenancedrinking waterPreventive maintenance should also be part of a routine turbidimeter QA/QC program.high
#Q007operationaloperationalrecommendedQA/QC Interfering Factors Considerationdrinking waterOther factors, such as air bubbles, stray light, coloured water and particle contamination, should also be considered in QA/QC programs, as these can cause false high or low readings for turbidityhigh
#Q008monitoringoperationalrecommendedImmediate Sample Analysisdrinking waterAs the turbidity of a sample can change due to changes in temperature and particle flocculation and sedimentation, samples should be analyzed immediatelyhigh
#Q009monitoringoperationalrecommendedOn-site or Portable Sample Analysisdrinking waterIt is recommended that samples be analyzed using on-site turbidimeters in the treatment plant or portable turbidimeters when conducting sampling in the field.When analyzing samples in the treatment plant or fieldhigh
#Q010operationaloperationalmandatoryAnalyst Measurement Error Awarenessdrinking wateranalysts must be aware of the factors that can affect turbidity measurements and be careful to minimize potential sources of measurement error.high
#Q011operationaloperationalmandatoryLow-Level Measurement Support and Trainingdrinking waterlow-level turbidity measurement must be accompanied by careful instrument calibration and verification as well as comprehensive standard operating procedures, including rigorous analyst traininghigh
#Q012reportingreportingrecommendedStandard Method Reporting Precisiondrinking waterAll three methods state that turbidity readings should be reported to the nearest 0.05 NTU when the turbidity range is 0-1.0 NTU.When turbidity range is 0-1.0 NTU using APHA 2130B, EPA 180.1, or GLI Method 2high
#Q013prohibitionoperationalmandatoryParticle Counter Application Restrictiondrinking waterParticle counters are restricted to performance verification only, and no limit is set as a maximum acceptable concentration for the number of particles in the treated water.high
#Q014reportingreportingrecommendedISO 7027 Reporting Precisiondrinking waterISO 7027 (ISO, 1999) indicates that results should be reported to the nearest 0.01 FNU when turbidity is below 0.99 FNU.When turbidity is below 0.99 FNU using ISO 7027high
#Q015reportingreportingrecommendedASTM D6855-10 Reporting Precisiondrinking waterResults should be reported to the nearest 0.01 NTU for water with turbidity of less than 1.0 NTU and to the nearest 0.05 NTU for water with turbidity between 1.0 and 5.0 NTU (ASTM International, 2010).When measuring static turbidity using ASTM D6855-10high
#Q016reportingreportingrecommendedASTM D6698-07 Reporting Precisiondrinking waterResults should be reported to the nearest 0.01 NTU for water with turbidity less than 1.0 NTU and to the nearest 0.1 NTU for water with turbidity between 1.0 and 5.0 NTU (ASTM International, 2007).When measuring online turbidity using ASTM D6698-07high

P Quantitative Requirements (42)

Req ID Category Intent Legal Status Name Subdomain(s) Limit Type Limit Value Context Conditions Confidence
#P001operationaloperationalrecommendedTurbidity difference detection limit (U.S. EPA Method 180.1, GLI Method 2, APHA/AWWA/WEF Standard Method 2130B)drinking waterrequirement<= 0.02 NTUnephelometers designed under these methods should be able to detect turbidity differences of 0.02 NTU or lessin waters having a turbidity of less than 1.0 NTUhigh
#P002operationalreportingrecommendedTurbidity reporting resolution (U.S. EPA Method 180.1, GLI Method 2, APHA/AWWA/WEF Standard Method 2130B)drinking waterrequirement0.05 NTUturbidity readings should be reported to the nearest 0.05 NTUwhen the turbidity range is 0-1.0 NTUhigh
#P003operationalreportingrecommendedTurbidity reporting resolution (ISO 7027)drinking waterrequirement0.01 FNUresults should be reported to the nearest 0.01 FNUwhen turbidity is below 0.99 FNUhigh
#P004operationaloperationalrecommendedTurbidity difference detection limit (ASTM D6855-10)drinking waterrequirement<= 0.01 NTUresolution of the instrument should permit detection of turbidity differences of 0.01 NTU or lessin waters with a turbidity of less than 5.0 NTUhigh
#P005operationalreportingrecommendedTurbidity reporting resolution (ASTM D6855-10)drinking waterrequirement0.01 NTUResults should be reported to the nearest 0.01 NTUfor water with turbidity of less than 1.0 NTUhigh
#P006operationalreportingrecommendedTurbidity reporting resolution (ASTM D6855-10) high rangedrinking waterrequirement0.05 NTUResults should be reported to the nearest 0.05 NTUfor water with turbidity between 1.0 and 5.0 NTUhigh
#P007operationaloperationalrecommendedTurbidity difference detection limit (ASTM D6698-07) low rangedrinking waterrequirement<= 0.01 NTUturbidity differences of 0.01 NTU or less should be detectedin water with a turbidity less than 1.0 NTUhigh
#P008operationaloperationalrecommendedTurbidity difference detection limit (ASTM D6698-07) high rangedrinking waterrequirement<= 0.10 NTUdifferences of 0.10 NTU or less should be detectedin waters with turbidity between 1.0 and 5.0 NTUhigh
#P009operationalreportingrecommendedTurbidity reporting resolution (ASTM D6698-07) low rangedrinking waterrequirement0.01 NTUResults should be reported to the nearest 0.01 NTUfor water with turbidity less than 1.0 NTUhigh
#P010operationalreportingrecommendedTurbidity reporting resolution (ASTM D6698-07) high rangedrinking waterrequirement0.1 NTUResults should be reported to the nearest 0.1 NTUfor water with turbidity between 1.0 and 5.0 NTUhigh
#P011operationaloperationalrecommendedTurbidity difference detection limit (Hach FilterTrak Method 10133)drinking waterrequirement<= 1 mNTUshould permit the detection of a turbidity difference of 1 mNTU (0.001 NTU) or lessin waters having turbidities less than 5.0 NTUhigh
#P012operationaloperationalrecommendedTurbidimeter Calibration Drift Limitdrinking waterrequirement> 10 %re-calibrated if the turbidimeter has drifted more than 10% from the value assigned to the standardDuring weekly calibration verificationhigh
#P013operationaloperationalrecommendedOnline Turbidimeter Calibration Frequencydrinking waterrequirement>= 1 per quarterUtilities should ensure that the appropriate operation, maintenance and calibration programs are in place for all turbidimeters.for online turbidimeters; or more frequently if recommended by manufacturerhigh
#P014operationaloperationalrecommendedOnline Turbidimeter Verification Frequencydrinking waterrequirement1 per weekThe calibration of turbidimeters should then be verified weekly with the appropriate standardre-calibrate if the turbidimeter has drifted more than 10%high
#P015operationaltreatmentguidanceReverse Osmosis Achievement Turbidity Rangedrinking watertreatment_goal0.010-0.015 NTUCertain filtration methods, such as reverse osmosis, can achieve turbidity values that approach those of pure waterwhen using reverse osmosis filtrationhigh
#P016designoperationalmandatoryIndustry standard nephelometer wavelength (Visible)drinking waterrequirement400-600 nmIndustry standards require nephelometers to operate in the visible or infrared rangesVisible range operationhigh
#P017designoperationalmandatoryIndustry standard nephelometer wavelength (Infrared)drinking waterrequirement800-900 nmIndustry standards require nephelometers to operate in the visible or infrared rangesInfrared range operationhigh
#P018designoperationalmandatoryDesign measurement angle for low turbiditydrinking waterrequirement90 degreescurrent international standards have determined the most appropriate angle to be 90 degrees for the measurement of low turbiditiesgenerally below 40 NTUhigh
#P019designoperationalmandatoryTurbidimeter Light Path (Standard Methods)drinking waterrequirement<= 10 cmSpecifications for APHA/AWWA/WEF Standard Method 2130B and U.S. EPA Method 180.1 Rev. 2.0Applies to these specific recognized methodshigh
#P020designoperationalmandatoryTungsten lamp color temperaturedrinking waterrequirement2200-3000 KStandard Method 2130B and U.S. EPA Method 180.1 Rev. 2.0 specificationDesign for recognized nephelometric methodshigh
#P021operationaloperationalguidanceElectronic particle counting rangedrinking waterrequirement1-150 µmElectronic particle counters are now available that are capable of accurately counting and recording the number of particles as a function of sizehigh
#P022operationaloperationalguidanceLower size detection limit for particle countersdrinking waterrequirement1-2.5 µmthe lower size for detection by particle counters is in the range of 1-2.5 µmhigh
#P023operationaloperationalmandatoryStandard Method 2130B Measurement Rangedrinking waterrequirement0 to > 1000 NTUApplicable measurement range for APHA/AWWA/WEF Standard Method 2130BStandard design with Tungsten lamphigh
#P024operationaloperationalmandatoryU.S. EPA Method 180.1 Rev. 2.0 Measurement Rangedrinking waterrequirement0-40 NTUApplicable measurement range for U.S. EPA Method 180.1Standard design with Tungsten lamphigh
#P025designoperationalmandatoryISO 7027 Radiation Source Wavelengthdrinking waterrequirement860 nmRadiation source at 860 nm (or 550 nm if sample is colourless)ISO 7027 design requirementshigh
#P026designoperationalmandatoryISO 7027 Aperture Angledrinking waterrequirement20-30 degreesISO 7027 design requirement for aperture angleFor radiation source and perpendicular detectorhigh
#P027operationaloperationalmandatoryISO 7027 Measurement Range (Diffuse Radiation)drinking waterrequirement0-40 FNUApplicable range for diffuse radiation methodISO 7027high
#P028operationaloperationalmandatoryISO 7027 Measurement Range (Attenuation)drinking waterrequirement40-4000 FAUApplicable range for attenuation of radiant flux methodISO 7027high
#P029operationaloperationalmandatoryGLI Method 2 Measurement Rangedrinking waterrequirement0-40 NTUApplicable measurement range for GLI Method 2Direct measurement (allows dilution above 40 NTU)high
#P030designoperationalmandatoryGLI Method 2 Pulse Frequencydrinking waterrequirement0.5 secondsLight sources alternately pulse each 0.5 secondsGLI Method 2 design specificationhigh
#P031designoperationalmandatoryHach Method 10133 Laser Diode Wavelengthdrinking waterrequirement660 nmLaser diode wavelength for Hach FilterTrak Method 10133high
#P032operationaloperationalmandatoryASTM D6698-07 Measurement Rangedrinking waterrequirement<= 0.02-5.0 NTUApplicable measurement range for online measurement of turbidity below 5 NTUASTM D6698-07high
#P033designoperationalmandatoryFNU Instrument Light Source Wavelengthdrinking waterrequirement860 ± 60 nmInstruments that measure turbidity in formazin nephelometric units (FNUs) use a light-emitting diodeDetector at 90 degrees to incident beamhigh
#P034designoperationalmandatoryFAU Instrument Detector Angledrinking waterrequirement180 degreesInstruments that measure turbidity in formazin attenuation units (FAUs) use a detector at 180 degreesLight source at 860 ± 60 nmhigh
#P035operationaloperationalguidanceNephelometer Effective Particle Size Rangedrinking waterrequirement0.2-1 µmNephelometers are most effective for measuring light scattered by particles in this size rangePeak scatter at approximately 0.2 µmhigh
#P036operationaltreatmentguidanceTypical Filtered Water Turbidity Leveldrinking watertreatment_goal< 0.1 NTUFiltered water turbidity is often below 0.1 NTUTypical treatment plant performancehigh
#P037operationaloperationalguidanceBubble Interference Turbidity Spikedrinking waterrequirement2.0 NTUbubbles can cause turbidity spikes as large as 2.0 NTUDepends on instrument type and gas supersaturationhigh
#P038operationaloperationalguidanceLaser Nephelometer Particle Detection Limitdrinking waterrequirement< 0.01 µmmeasurement of a submicrometre particle breakthrough event was possibleUsing laser nephelometerhigh
#P039operationaloperationalmandatoryASTM D6855-10 Measurement Rangedrinking waterrequirement0.02-5.0 NTU or FNUApplicable measurement range for the static measurement of turbidity below 5 NTU in waterASTM D6855-10 methodhigh
#P040operationaloperationalmandatoryHach FilterTrak Method 10133 Rev. 2.0 Measurement Rangedrinking waterrequirement0-5.0 NTUApplicable measurement range (0-5000 mNTUs)Hach FilterTrak Method 10133high
#P041designoperationalmandatoryHach FilterTrak Method 10133 Rev. 2.0 Light Pathdrinking waterrequirement<= 10 cmLight path specification for Hach Method 10133Detector/receiver which may use photomultiplier tube and fibre optic cablehigh
#P042designoperationalmandatoryGLI Method 2 Wavelengthdrinking waterrequirement860 nmTwo perpendicular 860 nm light sources alternately pulseGLI Method 2 designhigh

D Definitions (15)

Req ID Category Name Context Confidence
#D001EPAU.S. Environmental Protection Agencyhigh
#D002APHAAmerican Public Health Associationhigh
#D003AWWAAmerican Water Works Associationhigh
#D004WEFWater Environment Federationhigh
#D005ISOInternational Organization for Standardizationhigh
#D006ASTMASTM Internationalhigh
#D007QA/QCquality assurance and quality controlhigh
#D008FAUformazin attenuation unithigh
#D009FNUformazin nephelometric unithigh
#D010NephelometryNephelometry determines turbidity using the intensity of scattered light measured by a detector that is at 90 degrees to the incident light source.high
#D011Ratio technologiestechnologies which are based on the use of a 90 degree detector in combination with another detector set at a different angle that determine the turbidity of a samplehigh
#D012Electronic particle countersinstruments that are capable of accurately counting and recording the number of particles as a function of size (often in the 1-150 µm range)high
#D013mNTU0.001 NTUhigh
#D014FNUformazin nephelometric unit; instruments that measure turbidity in these units use a light-emitting diode with a wavelength of 860 ± 60 nm as a light source and a detector at 90 degrees to the incident light beamhigh
#D015FAUformazin attenuation unit; instruments that measure turbidity in these units use a light-emitting diode with a wavelength of 860 ± 60 nm and a detector at 180 degrees to the incident light beamhigh