Ektimo

Ektimo specialises in

• Source / Stack Emission Monitoring

  Need confidence in your emission testing results?

  Stack testing is our specialty. We have been growing and developing with the industry for nearly 40 years.

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• Continuous Emission Monitoring (CEMS)

  Regulatory compliant continuous monitoring of process gases or emissions?

  Our extensive experience in source emission monitoring provides us with unique industry insight.

  We work with you to design, build & certify CEMS according to Australian CEMS & USEPA requirements.

  Ektimo are not just instrumentation providers. We understand the crucial requirements for a successful CEMS installation; understand the industry application, the regulatory requirements and the appropriate technology options globally.

  Whether for regulatory compliance purposes or operational process requirements, Ektimo has the capability to provide continuous measurement of gaseous components across most applications. A complete end-to-end solution when it comes to CEMS; consulting, scoping, commissioning, monitoring, sampling, analysis, servicing, calibrating, data validation and reporting.

  NATA accredited according to a range of USEPA Performance Specifications (PS) methods, and regulatory compliant with Australian CEMS requirements (ie WA CEMS Code).

  Particulate Matter (PM)

  • USEPA Performance Specification 11 (PS-11)
  • USEPA Quality Assurance Procedure 2 (Proc 2)
  • WA CEMS Code
  • NSW EPA CEM-11

  Opacity

  • USEPA Performance Specification 1 (PS-1)
  • USEPA Quality Assurance Procedure 3 (Proc 3)
  • WA CEMS Code
  • NSW EPA CEM-1

  Nitrogen Oxides (NO & NO2) Sulfur Dioxide (SO2)

  • USEPA Performance Specification 2 (PS-2)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-2

  Oxygen (O2) & Carbon Dioxide (CO2)

  • USEPA Performance Specification 3 (PS-3)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • ISO 12039 Stationary source emissions — Determination of the mass concentration of carbon monoxide, carbon dioxide and oxygen in flue gas — Performance characteristics of automated measuring systems
  • WA CEMS Code
  • NSW EPA CEM-3

  Carbon Monoxide (CO)

  • USEPA Performance Specification 4 (PS-4)
  • USEPA Performance Specification 4A (PS-4A)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-4

  Total Reduced Sulfur (TRS)

  • USEPA Performance Specification 5 (PS-5)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-5

  Velocity or Flow

  • USEPA Performance Specification 6 (PS-6)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-6

  Hydrogen Sulfide (H2S)

  • USEPA Performance Specification 7 (PS-7)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-7

  VOC, TOC & GC & FTIR

  • USEPA Performance Specification 8 (PS-8)
  • USEPA Performance Specification 8A (PS-8A)
  • USEPA Performance Specification 9 (PS-9)
  • USEPA Performance Specification 15 (PS-15)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • NSW EPA CEM-8
  • NSW EPA CEM-9
  • NSW EPA CEM-10

  Mercury (Hg)

  • USEPA Performance Specification 12A (PS-12A)
  • USEPA Performance Specification 12B (PS-12B)
  • USEPA Quality Assurance Procedure 5 (Proc 5)
  • NSW EPA CEM-12

  Predictive Emission Monitoring Systems (PEMS)

  • USEPA Performance Specification 16 (PS-16)
  • USEPA Quality Assurance Procedure 1 (Proc 1)

  Hydrogen Chloride (HCl)

  • USEPA Performance Specification 18 (PS-18)
  • USEPA Quality Assurance Procedure 6 (Proc 6)
  • NSW EPA CEM-13

  Ethylene Oxide (EO)

  • USEPA Performance Specification 19 (PS-19)
  • USEPA Quality Assurance Procedure 1 (Proc 1)

  Other analytes (with no prescribed method)

  • Ammonia (NH3)
  • Moisture (H2O)
  • Nitrous Oxide (N2O)
  • Hydrogen Fluoride (HF)

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods. For full details of Ektimo’s scope of accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

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• Ambient Air Quality Monitoring (AAQMS)

  Tailored ambient air monitoring and analysis nationwide

  Ambient Air Quality Monitoring (AAQMS)

  Our team will tailor your ambient air quality monitoring based on your unique needs.

  We have solutions ranging from indicative monitors to regulatory compliant AAQMS.

  Ektimo offer a comprehensive range of ambient air quality monitoring services to all industries. We support the design and implementation of suitable monitoring regimes depending on your specific situation and needs.

  Monitoring programs are designed taking into consideration state-based regulations (ie Victorian Environment Reference Standard (ERS)) and the National Environment Protection Measures (NEPM) for ambient air quality.

  A complete end-to-end solution when it comes to AAQMS; consulting, scoping, commissioning, monitoring, sampling, analysis, servicing, calibrating, data validation and reporting.

  NATA accredited according to a range of AS 3580 series methods, and regulatory compliant with Australian requirements.

  Siting Requirements PM10 PM2.5

  • AS 3580.1.1 – Guide to siting air monitoring equipment

  PM10

  • AS 3580.9.6 – Determination of suspended particulate matter – PM10 high volume sampler with size selective inlet – Gravimetric Method
  • AS 3580.9.7 – Determination of suspended particulate matter – Dichotomous sampler (PM10, coarse PM and PM2.5) – Gravimetric Method
  • AS 3580.9.8 – Determination of suspended particulate matter – PM10 continuous direct mass method using a TEOM
  • AS 3580.9.9 – Determination of suspended particulate matter – PM10 low volume sampler – Gravimetric method
  • AS 3580.9.11 – Determination of suspended particulate matter — PM10 beta attenuation monitors
  • AS 3580.9.16 – Determination of suspended particulate matter – PM10 continuous direct mass method using a TEOM incorporating a FDMS unit

  PM2.5

  • AS 3580.9.10 – Determination of suspended particulate matter – PM2.5 low volume sampler – Gravimetric method
  • AS 3580.9.12 – Determination of suspended particulate matter – PM2.5 beta attenuation monitors
  • AS 3580.9.13 – Determination of suspended particulate matter – PM2.5 continuous direct mass method using a TEOM
  • AS 3580.9.14 – Determination of suspended particulate matter – PM2.5 high volume sampler with size selective inlet – Gravimetric Method

  Particulate Matter (TSP)

  • AS 3580.9.3 – Determination of suspended particulate matter – Total suspended particulates (TSP) – High volume sampler – Gravimetric method
  • AS 3580.10.1 – Determination of particulate matter – Deposited matter – Gravimetric method

  Nitrogen Oxides (NO & NO2)

  • AS 3580.5.1 – Determination of oxides of nitrogen – Direct reading instrumental method

  Sulfur Dioxide (SO2)

  • AS 3580.4.1 – Determination of sulfur dioxide – Direct reading instrumental method

  Ozone (O3)

  • AS 3580.6.1 – Determination of ozone – Direct reading instrumental method

  Carbon Monoxide (CO)

  • AS 3580.7.1 – Determination of carbon monoxide – Direct reading instrumental method

  Metals

  • AS 3580.9.15 – Determination of suspended particulate matter – Particulate metals high or low volume sample gravimetric collection – Inductively coupled plasma (ICP) spectrometric method

  Methane (CH4) & Non-Methane Organics

  • AS 3580.11.1 – Determination of methane and non-methane organic compounds in ambient air – Direct reading instrumental method

  Fluoride (F)

  • AS 3580.13.2 – Determination of gaseous and acid-soluble particulate fluorides – Manual, double filter paper sampling

  Polycyclic Aromatic Hydrocarbons (PAH’s)

  • AS 3580.16 – Determination of polycyclic aromatic hydrocarbons (PAH)

  Road Tunnels

  • AS 3580.18 – Measurement of road tunnel air quality

  Weather / Meteorological

  • AS 3580.14 – Meteorological monitoring for ambient air quality monitoring applications

  Data Validation

  • AS 3580.19 – Ambient air quality data validation and reporting

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods. For full details of Ektimo’s scope of accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

  Discover more

• Odour Sampling, Analysis & Surveys

  Odour testing laboratories in Perth, Melbourne, and Sydney

  From odour project design to consultancy on odour results, Ektimo is Australia’s leader!

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• Specialist Air Laboratory

  Australia's largest air testing laboratory!

  Air is our specialty which enables us to deliver on complex and unique air analysis projects.

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• Continuous Emission Monitoring (CEMS)

  Regulatory compliant continuous monitoring of process gases or emissions?

  Odour generates more community complaints than any other pollutant.

  We work with you to design, build & certify CEMS according to Australian CEMS & USEPA requirements.

  Ektimo are not just instrumentation providers. We understand the crucial requirements for a successful CEMS installation; understand the industry application, the regulatory requirements and the appropriate technology options globally.

  Whether for regulatory compliance purposes or operational process requirements, Ektimo has the capability to provide continuous measurement of gaseous components across most applications. A complete end-to-end solution when it comes to CEMS; consulting, scoping, commissioning, monitoring, sampling, analysis, servicing, calibrating, data validation and reporting.

  NATA accredited according to a range of USEPA Performance Specifications (PS) methods, and regulatory compliant with Australian CEMS requirements (ie WA CEMS Code).

  Particulate Matter (PM)

  • USEPA Performance Specification 11 (PS-11)
  • USEPA Quality Assurance Procedure 2 (Proc 2)
  • WA CEMS Code
  • NSW EPA CEM-11

  Opacity

  • USEPA Performance Specification 1 (PS-1)
  • USEPA Quality Assurance Procedure 3 (Proc 3)
  • WA CEMS Code
  • NSW EPA CEM-1

  Nitrogen Oxides (NO & NO2) Sulfur Dioxide (SO2)

  • USEPA Performance Specification 2 (PS-2)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-2

  Oxygen (O2) & Carbon Dioxide (CO2)

  • USEPA Performance Specification 3 (PS-3)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • ISO 12039 Stationary source emissions — Determination of the mass concentration of carbon monoxide, carbon dioxide and oxygen in flue gas — Performance characteristics of automated measuring systems
  • WA CEMS Code
  • NSW EPA CEM-3
  •  

  Carbon Monoxide (CO)

  • USEPA Performance Specification 4 (PS-4)
  • USEPA Performance Specification 4A (PS-4A)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-4

  Total Reduced Sulfur (TRS)

  • AS 4323.4 – Stationary source emissions – Area source sampling – Flux
    chamber technique
  • NSW EPA OM-8 – Odour sampling from diffuse sources

  Velocity or Flow

  • USEPA Performance Specification 6 (PS-6)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-6

  Hydrogen Sulfide (H2S)

  • USEPA Performance Specification 7 (PS-7)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • WA CEMS Code
  • NSW EPA CEM-7

  VOC, TOC & GC & FTIR

  • USEPA Performance Specification 8 (PS-8)
  • USEPA Performance Specification 8A (PS-8A)
  • USEPA Performance Specification 9 (PS-9)
  • USEPA Performance Specification 15 (PS-15)
  • USEPA Quality Assurance Procedure 1 (Proc 1)
  • NSW EPA CEM-8
  • NSW EPA CEM-9
  • NSW EPA CEM-10

  Mercury (Hg)

  • USEPA Performance Specification 12A (PS-12A)
  • USEPA Performance Specification 12B (PS-12B)
  • USEPA Quality Assurance Procedure 5 (Proc 5)
  • NSW EPA CEM-12

  Predictive Emission Monitoring Systems (PEMS)

  • USEPA Performance Specification 16 (PS-16)
  • USEPA Quality Assurance Procedure 1 (Proc 1)

  Hydrogen Chloride (HCl)

  • USEPA Performance Specification 18 (PS-18)
  • USEPA Quality Assurance Procedure 6 (Proc 6)
  • NSW EPA CEM-13

  Ethylene Oxide (EO)

  • USEPA Performance Specification 19 (PS-19)
  • USEPA Quality Assurance Procedure 1 (Proc 1)

  Other analytes (with no prescribed method)

  • Ammonia (NH3)
  • Moisture (H2O)
  • Nitrous Oxide (N2O)
  • Hydrogen Fluoride (HF)

  PDF Version

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods.

  For full details of Ektimo’s scope of accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

  Discover More

• Specialist Air Laboratory

  Australia's largest air testing laboratory!

  Ektimo is the largest laboratory in Australia that specialises in air analysis.

  We use a range of advanced instrumentation and techniques with a particular focus on regulatory compliant
  gaseous and air analysis.

  Our laboratory offers a comprehensive range of services, from routine compliance to complex project analysis, and are committed to delivering high-quality results with fast turnaround times.

  This is driven by a highly skilled team, with dedicated experience specific to air sampling and analysis.

  VOCs (Charcoal / Radiello tube – GCMS

  1,1,1-Trichloroethane
  1,1,2,2-Tetrachloroethane
  1,1,2-Trichloroethane
  1,1-Dichloroethene
  1,2,3-Trimethylbenzene
  1,2,4-Trimethylbenzene
  1,2-Dichloroethane
  1,3,5-Trimethylbenzene
  1-Methoxy-2-propanol
  1-Methoxy-2-propyl
  acetate
  2,3-Dimethylpentane
  2-Butoxyethanol
  2-Hexanone
  2-Methylhexane
  3-Carene
  3-Methylhexane
  Acetone
  Acrylonitrile
  alpha-Pinene
  Benzene
  beta-Pinene
  Butanol
  Butyl acetate
  Butyl acrylate
  Carbon tetrachloride
  Cellosolve acetate
  Chlorobenzene
  Chloroform
  cis-1,2-Dichloroethene
  Cyclohexane
  Decane
  Dichloromethane
  D-Limonene

  Dodecane
  Ethanol
  Ethyl acetate
  Ethyl acrylate
  Ethylbenzene
  Ethylene oxide
  Heptane
  Isopropanol
  Isopropyl acetate
  Isopropylbenzene
  m + p-Xylene
  Methyl ethyl ketone
  Methyl Isobutyl Ketone
  Methyl methacrylate
  Methylcyclohexane
  n-Hexane
  Nonane
  Octane
  o-Xylene
  Pentane
  Propyl acetate
  Propylbenzene
  Propylene oxide
  Styrene
  tert-Butylbenzene
  Tetrachloroethene
  Tetradecane
  Toluene
  trans-1,2-
  Dichloroethene
  Trichloroethylene
  Tridecane
  Undecane

  VOCs - TO-15 (Gas bags / Canisters - TD-GCMS)

  1,1,1-Trichloroethane
  1,1,2,2-
  Tetrachloroethane
  1,1,2-Trichloroethane
  1,1-Dichloroethane
  1,1-Dichloroethene
  1,2,4-Trichlorobenzene
  1,2,4-Trimethylbenzene
  1,2-Dibromoethane
  1,2-Dichlorobenzene
  1,2-Dichloroethane
  1,2-Dichloropropane
  1,3,5-Trimethylbenzene
  1,3-Butadiene
  1,3-Dichlorobenzene
  1,4-Dichlorobenzene
  1,4-Dioxane
  Acetone
  Acrolein
  Benzene
  Benzyl chloride
  Bromodichloromethane
  Bromoform
  Carbon disulfide
  Carbon tetrachloride
  Chlorobenzene
  Chloroform
  cis-1,2-Dichloroethene
  cis-1,3-Dichloropropene
  Cyclohexane
  Dibromochloromethane
  Dichloromethane
  Dimethylether
  Ethanol

  Ethyl acetate
  Ethyl chloride
  Ethylbenzene
  Heptane
  Hexachlorobutadiene
  Isopropanol
  m + p-Xylene
  Methyl bromide
  Methyl butyl ketone
  Methyl chloride
  Methyl ethyl ketone
  Methyl Isobutyl Ketone
  Methyl methacrylate
  Methyl tert butyl ether
  Naphthalene
  n-Hexane
  o-Xylene
  Propylene
  R113-Trichlorotrifluoroethane
  R114-Dichlorotetrafluoroethane
  R11-Trichlorofluoromethane
  R12-Dichlorodifluoromethane
  Styrene
  Tetrachloroethene
  Tetrahydrofuran
  4-Ethyltoluene
  Toluene
  trans-1,2-Dichloroethene
  trans-1,3-Dichloropropene
  Trichloroethylene
  Vinyl acetate
  Vinyl chloride 

  Hydrocarbon Gases (Gas bags - FID)

  1,3-Butadiene
  1-Butene
  Acetylene
  cis-2-Butene
  Cyclopropane
  Ethane
  Ethylene
  Isobutane
  Methane
  n-Butane
  Propadiene
  Propane
  Propylene
  Propyne
  trans-2-Butene 

  Atmospheric Gases (Gas bags - TCD/FID)

  Argon
  Carbon dioxide
  Carbon monoxide
  Hydrogen
  Methane
  Nitrogen
  Oxygen
  Propane

  Sulfur Gases (Gas bags / Canisters - TD- GCMS)

  Carbon disulfide
  Carbonyl sulfide
  Dimethyl sulfide
  Ethyl mercaptan
  Hydrogen sulfide
  Methyl mercaptan

  Metals (Filter / Solution - ICPMS)

  Aluminum (Al)
  Antimony (Sb)
  Arsenic (As)
  Barium (Ba)
  Beryllium (Be)
  Bismuth (Bi)
  Boron (B)
  Cadmium (Cd)
  Calcium (Ca)
  Cesium (Cs)
  Chromium (Cr)
  Cobalt (Co)
  Copper (Cu)
  Gallium (Ga)
  Germanium (Ge)
  Gold (Au)
  Hafnium (Hf)
  Indium (In)
  Iridium (Ir)
  Iron (Fe)
  Lead (Pb)
  Lithium (Li)
  Magnesium (Mg)
  Manganese (Mn)
  Mercury (Hg)
  Molybdenum (Mo)

  Nickel (Ni)
  Niobium (Nb)
  Palladium (Pd)
  Phosphorus (P)
  Platinum (Pt)
  Potassium (K)
  Rhenium (Re)
  Rhodium (Rh)
  Rubidium (Rb)
  Ruthenium (Ru)
  Selenium (Se)
  Silicon (Si)
  Silver (Ag)
  Sodium (Na)
  Strontium (Sr)
  Tantalum (Ta)
  Tellurium (Te)
  Thallium (Tl)
  Thorium (Th)
  Tin (Sn)
  Titanium (Ti)
  Tungsten (W)
  Uranium (U)
  Vanadium (V)
  Zinc (Zn)
  Zirconium (Zr) 

  Aldehydes (2,4-DNPH Tube, Radiello / Solution - HPLC)

  Acetaldehyde
  Acetone
  Acrolein
  Butyraldehyde
  Ethyl-methyl-ketone (2-butanone)
  Formaldehyde
  Hexaldehyde
  Propionaldehyde
  Valeraldehyde

  Anions (Solution - IC)

  Bromide
  Chloride
  Fluoride
  Nitrate
  Sulfide

  Isocyanates (Ethanol - HPLC)

  4,4-methylene bis-phenyl diisocyanate
  2,4-toluenediisocyanate
  2,6-toluenediisocyanate

  Dusts & Particulates & Particle Sizing

  Dust Deposition Gauges
  Particle Size Analysis
  Total Suspended Particles (TSP, PM2.5, PM10)

  Siloxanes (Gas bags / Canisters - TD-GCMS)

  Decamethyl cyclopentasiloxane
  Decamethyl tetrasiloxane**
  Dodecamethyl cyclohexasiloxane**
  Dodecamethyl pentasiloxane**
  Hexamethyl cyclotrisiloxane**
  Hexamethyl disiloxane**
  Octamethyl cyclotetrasiloxane
  Octamethyl trisiloxane**
  Trimethyl silanol
  **Semi quantification

  Phenolics (Solution - HPLC)

  Resorcinol
  m&p-Cresol
  o-Cresol
  Phenol

  Odour

  Dynamic Olfactometry (analysis by AS4323.3)

  PDF Version

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods.

  For full details of Ektimo’s scope of accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

  Discover more

• Source / Stack Emission Monitoring

  Need confidence in your emission testing results?

  Emission monitoring is our specialty, having served industry for nearly 40 years.

  We support your regulatory compliance and emission monitoring needs.
  Whatever your industry, Ektimo has experience in it. With the largest monitoring team in Australia, we have accumulated a body of knowledge which translates into efficiently run projects.
  Our national presence also ensures responsive and timely service across Australia.

  Sampling Plane Assessment

  • AS 4323.1-2021 Selection of sampling positions and measurement of velocity in stacks
  • USEPA Method 1— Sample and Velocity Traverses
    for Stationary Sources
  • NSW EPA TM-1
  • SA EPA 03.09

  Velocity, Flow Rate & Temperature

  • USEPA Method 2 Determination of Stack Gas Velocity and Volumetric Flow Rate (Type S Pitot Tube)
  • ISO10780 Stationary source emissions — Measurement of velocity and volume flowrate of gas streams in ducts
  • NSW EPA TM-2
  • SA EPA 03.10

  Moisture

  • USEPA Method 4 Determination of Moisture Content in Stack Gases
  • USEPA Method ALT-008 Alternative Moisture
    Measurement Method Midget Impingers
  • SA EPA 03.13

  Particulate Matter (PM)

  • AS 4323.2-2023 Stationary source emissions – total particulate matter- Isokinetic manual sampling
  • USEPA Method 5 Determination of particulate matter emissions from stationary sources
  • USEPA Method 5B Determination of nonsulfuric acid particulate matter emissions from stationary sources
  • USEPA Method 17 Determination of particulate matter emissions from stationary sources
  • NSW EPA TM-15
  • SA EPA 03.01

  PM10 & PM2.5

  • USEPA Method 201A Determination of PM10 and PM2.5 emissions from stationary sources
  • NSW EPA OM-5

  Sulfur Dioxide (SO2)

  • USEPA Method 6 Determination of sulfur dioxide emissions from stationary sources
  • USEPA Method 6C Determination of Sulfur Dioxide Emissions from Stationary Sources (Instrumental Analyzer Procedure)
  • USEPA Method 8 Determination of sulfuric acid mist and sulfur dioxide emissions from stationary sources
  • NSW EPA TM-4
  • SA EPA 03.14

  Nitrogen Oxides (NO & NO2)

  • USEPA Method 7E Determination of Nitrogen Oxides Emissions from Stationary Sources (Instrumental Analyzer Procedure)
  • NSW EPA TM-11
  • SA EPA 03.14

  Sulfuric Acid Mist (H2SO4) / or Sulfur Trioxide (SO3)

  • USEPA Method 8 Determination of sulfuric acid mist and sulfur dioxide emissions from stationary sources
  • NSW EPA TM-3
  • SA EPA 03.02

  Carbon Dioxide (CO2)

  • Method 3A – Determination of Oxygen and Carbon Dioxide Concentrations in Emissions From Stationary Sources (Instrumental Analyzer Procedure)
  • NSW EPA TM-24
  • SA EPA 03.08
  • SA EPA 03.14

  Oxygen (O2)

  • Method 3A – Determination of Oxygen and Carbon Dioxide Concentrations in Emissions From Stationary Sources (Instrumental Analyzer Procedure)
  • NSW EPA TM-25
  • SA EPA 03.08
  • SA EPA 03.14

  Carbon Monoxide (CO)

  • USEPA Method 10 Determination of Carbon Monoxide Concentrations From Stationary Sources (Instrumental Analyzer Procedure)
  • NSW EPA TM-32
  • SA EPA 03.12
  • SA EPA 03.14

  Total Reduced Sulfur (TRS)

  • USEPA Method 16A Determination of total reduced sulfur emissions from stationary sources (impinger technique)
  • USEPA Method 16C Determination of Total Reduced Sulfur Emissions From Stationary Sources (Instrumental Analyzer Procedure)
  • NSW EPA TM-33

  Hydrogen Sulfide (H2S)

  • USEPA Method 11 Determination of hydrogen sulfide (H2S) content of fuel gas streams in petroleum refineries
  • NSW EPA TM-5

  Volatile Organic Compounds (VOC)

  • USEPA Method 18 Measurement of gaseous organic compound emissions by gas chromatography
  • NSW EPA TM-34
  • NSW EPA TM-20

  Total Organic Compounds (TOC)

  • USEPA Method 25A Determination of Total Gaseous Organic Concentration Using a Flame Ionisation Analyzer (FID)
  • USEPA Method 25B – Determination of Total Gaseous Organic Concentration Using a Nondispersive Infrared Analyzer (NDIR)
  • NSW EPA TM-34

  Mercury (Hg)

  • USEPA Method 29 Determination of metals emissions from stationary sources
  • USEPA Method 30B Determination of Total Vapour Phase Mercury Emissions from Coal-Fired Combustion Sources Using Carbon Sorbent Traps
  • NSW EPA TM-34

  Metals

  • USEPA Method 29 Determination of metals emissions from stationary sources
  • NSW EPA TM-12, TM-13, TM-14
  • SA EPA 03.07

  Hydrogen Chloride (HCl)

  • USEPA Method 26 – Determination of Hydrogen Chloride Emissions From Stationary Sources
  • USEPA Method 26A Determination of hydrogen halide and halogen emissions from stationary sources isokinetic method
  • NSW EPA TM-8

  Hydrogen Fluoride (HF)

  • USEPA Method 13B Determination of Total Fluoride Emissions From Stationary Sources (Specific Ion Electrode Method)
  • NSW EPA TM-9

  Formaldehyde, Aldehydes & Ketones

  • SW-846 Test Method 0011: Sampling for Selected Aldehyde and Ketone Emissions from Stationary Sources
  • NSW EPA OM-11

  Polycyclic Aromatic Hydrocarbons (PAHs)

  • CARB Method 429 Determination of Polycyclic Aromatic Hydrocarbon (PAH) Emissions from Stationary Sources
  • SW-846 Test Method 0010: Modified Method 5 Sampling Train Determination of Destruction and Removal Efficiency (DRE) of semivolatile Principal Organic Hazardous Compounds (POHCs) from incineration systems
  • NSW EPA OM-6

  Hexavalent Chromium (Cr)

  • CARB Method 425 Determination of Total Chromium and Hexavalent Chromium Emissions from Stationary Sources
  • SW-846 Test Method 0061: Determination of Hexavalent Chromium Emissions from Stationary Sources
  • SW EPA OM-4

  Phenols

  • USEPA CTM-032 Draft Method for Sampling and Analysis for High Levels of Phenol and Cresol Emissions from Stationary Sources

  Dioxins or Furans

  • USEPA Method 23 Determination of Polychlorinated Dibenzo-p-Dioxins and Polychlorinated Dibenzofurans From Stationary Sources
  • NSW EPA TM-18

  PDF Version

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods.

  For full details of Ektimo’s scope of accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

  Discover more

• Odour Sampling, Analysis & Surveys

  Odour testing laboratories in Perth, Melbourne, and Sydney

  Our extensive experience in source emission monitoring provides us with unique industry insight.

  We have a dedicated odour team at the forefront of this dynamic field. We offer a range of specialised services to support resolution of your odour issues.

  Odour is a complex field requiring expertise and a variety of tools. Ektimo offer a range of services in this field from odour source measurement, analysis and field odour surveys to odour risk assessments and odour management plans. 

  Ektimo’s dedicated odour team can tailor an approach to help solve your specific issue.   

  Source and emission monitoring to inform:

  • Monitoring to inform process design.
  • Odour control unit performance monitoring.
  • Ventilation and air flow monitoring.
  • Monitoring data for dispersion modelling/emission inventory
  • Biofilter health & performance monitoring
  • Realtime Monitoring (H2S, VOC & CH4 for trend identification)

  Field Odour Surveys & consulting to assist with:

  • Regulatory Compliance
  • Complaint investigation/Validation
  • Improvement/abatement notices
  • Development/Licence Applications
  • Separation Distance Assessment
  • Odour Risk Assessments
  • Dust Risk Assessments
  • Odour Training & Screening (nose calibrations)

  Odour Sampling and Analysis

  • AS 4323.3 – Stationary source emissions – Determination of odour concentration by dynamic olfactometry
  • NSW EPA OM-7 – Odour sampling from point sources or odour analysis using dynamic olfactometry

  Odour Area Source Sampling

  • AS 4323.4 – Stationary source emissions – Area source sampling – Flux
    chamber technique
  • NSW EPA OM-8 – Odour sampling from diffuse sources

  Odour Monitoring & Field Odour Surveys

  • VIC EPA Publication 1880: Biofilter Design & Maintenance
  • VIC EPA Publication 1881: Guidance for field odour surveillance
  • NSW EPA: Guide to conducting field odour surveys
  • DWER Guideline: Odour Emissions
  • VDI 3940-3: Measurement of odour impact by field inspection – Determination of odour intensity and hedonic odour tone

  Odour Risk Assessments

  • VIC EPA Publication 1883: Guidance for assessing odour
  • NSW DEC Technical framework: Assessment and management of odour from stationary sources in NSW
  • DWER Guideline: Odour Emissions

  PDF Version

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods

  For full details of Ektimo’s scope of
  accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

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• Ambient Air Quality Monitoring (AAQMS)

  Tailored ambient air monitoring and analysis nationwide

  Our team will tailor your ambient air quality monitoring based on your unique needs. We have the solutions ranging from indicative monitors to regulatory compliant AAQMS.

  Our team will tailor your ambient air quality monitoring based on your unique needs.

  We have solutions ranging from indicative monitors to regulatory compliant AAQMS.

  Ektimo offer a comprehensive range of ambient air quality monitoring services to all industries. We support the design and implementation of suitable monitoring regimes depending on your specific situation and needs.

  Monitoring programs are designed taking into consideration state-based regulations (ie Victorian Environment Reference Standard (ERS)) and the National Environment Protection Measures (NEPM) for ambient air quality.

  A complete end-to-end solution when it comes to AAQMS; consulting, scoping, commissioning, monitoring, sampling, analysis, servicing, calibrating, data validation and reporting.

  NATA accredited according to a range of AS 3580 series methods, and regulatory compliant with Australian requirements.

  Siting Requirements PM10 PM2.5

  • AS 3580.1.1 – Guide to siting air monitoring equipment

  PM10

  • AS 3580.9.6 – Determination of suspended particulate matter – PM10 high volume sampler with size selective inlet – Gravimetric Method
  • AS 3580.9.7 – Determination of suspended particulate matter – Dichotomous sampler (PM10, coarse PM and PM2.5) – Gravimetric Method
  • AS 3580.9.8 – Determination of suspended particulate matter – PM10 continuous direct mass method using a TEOM
  • AS 3580.9.9 – Determination of suspended particulate matter – PM10 low volume sampler – Gravimetric method
  • AS 3580.9.11 – Determination of suspended particulate matter — PM10 beta attenuation monitors
  • AS 3580.9.16 – Determination of suspended particulate matter – PM10 continuous direct mass method using a TEOM incorporating a FDMS unit

  PM2.5

  • AS 3580.9.10 – Determination of suspended particulate matter – PM2.5 low volume sampler – Gravimetric method
  • AS 3580.9.12 – Determination of suspended particulate matter – PM2.5 beta attenuation monitors
  • AS 3580.9.13 – Determination of suspended particulate matter – PM2.5 continuous direct mass method using a TEOM
  • AS 3580.9.14 – Determination of suspended particulate matter – PM2.5 high volume sampler with size selective inlet – Gravimetric Method

  Particulate Matter (TSP)

  • AS 3580.9.3 – Determination of suspended particulate matter – Total suspended particulates (TSP) – High volume sampler – Gravimetric method
  • AS 3580.10.1 – Determination of particulate matter – Deposited matter – Gravimetric method

  Nitrogen Oxides (NO & NO2)

  • AS 3580.5.1 – Determination of oxides of nitrogen – Direct reading instrumental method

  Sulfur Dioxide (SO2)

  • AS 3580.4.1 – Determination of sulfur dioxide – Direct reading instrumental method

  Ozone (O3)

  • AS 3580.6.1 – Determination of ozone – Direct reading instrumental method

  Carbon Monoxide (CO)

  • AS 3580.7.1 – Determination of carbon monoxide – Direct reading instrumental method

  Metals

  • AS 3580.9.15 – Determination of suspended particulate matter – Particulate metals high or low volume sample gravimetric collection – Inductively coupled plasma (ICP) spectrometric method

  Methane (CH4) & Non-Methane Organics

  • AS 3580.11.1 – Determination of methane and non-methane organic compounds in ambient air – Direct reading instrumental method

  Fluoride (F)

  • AS 3580.13.2 – Determination of gaseous and acid-soluble particulate fluorides – Manual, double filter paper sampling

  Polycyclic Aromatic Hydrocarbons (PAH’s)

  • AS 3580.16 – Determination of polycyclic aromatic hydrocarbons (PAH)

  Road Tunnels

  • AS 3580.18 – Measurement of road tunnel air quality
  •  

  Weather / Meteorological

  • AS 3580.14 – Meteorological monitoring for ambient air quality monitoring applications

  Data Validation

  • AS 3580.19 – Ambient air quality data validation and reporting

  PDF Version

  Experts in air quality, odour and emission monitoring.

  Ektimo is accredited with the National Association of Testing Authorities (NATA) for air emission monitoring methods in Australia, including the industry standard AS, USEPA and ISO methods

  For full details of Ektimo’s scope of
  accreditation, search for Ektimo on the NATA website.

  Contact us to speak to one of our industry experts about how we can help on your next project.

  Discover more