Surface water quality testing
Proper sampling, advanced methods of analysis in a few steps to results, certificates and recommendations
The Laboratory for Work and Environmental Protection offers analysis of wastewater samples. We perform sampling and chemical and physical testing of wastewater samples, for which we have the Authorization of the competent Ministry. In addition to wastewater analysis, we also perform analysis of groundwater and surface water.
Given the constant need for precise and reliable water analysis in our Laboratory for Environmental Protection, there are a number of developed methods for analysis, with a constant tendency to develop and apply new methods. As an excellent support to the analysis process, in addition to the Agilent Technologies MP-AES 4100 microwave plasma atomic emission spectrometer, the Agilent Technologies 7890A / 5975C gas mass chromatograph (GC / 5975C), a gas chromatograph with a triple quad mass detector (GC – QQ), is used. Technologies 7890B / 7010, ion chromatograph (IC) Dionex ICS 1100 and duo system of atomic absorption spectrometers with flame technique and graphite cuvette technique (AAS – FA, AAS – GF) Agilent Technologies 280FS AA/280Z AA
Gas-mass chromatograph (GC/MS) Agilent Technologies 7890A/5975C
Microwave plasma – atomic emission spectrometer Agilent Technologies MP-AES 4100
Ionic chromatograph (IC) Dionex ICS 1100
Gas chromatograph with triple quad mass detector (GC – QQQ) Agilent Technologies 7890B/7010
Duo system of atomic absorption spectrometers with flame technique and graphite cuvette technique (AAS – FA, AAS – GF) Agilent Technologies 280FS AA/280Z AA
Chemical and physical analyzes of groundwater that we offer:
- TWater temperature
- Color (descriptive)
- Anionic surfactant content
- Ammonium ion
- Floating materials (descriptive)
- Turbidity
- Electrical conductivity
- Dissolved oxygen
- pH
- Dry residue of unfiltered sample
- Dry residue of unfiltered sample
- Dry residue of the filtered sample
- Suspended matter
- Sedimentary matter
- Chemical oxygen demand
- Potrošnja kalijum-permanganata
- Biochemical oxygen demand – BOD5
- Nitrites
- Nitrates
- Chlorides
- Sulfates
- Phosphates
- Fluorides
- Bromides
- Cyanides
- Bicarbonates
- Sulfides
- Total nitrogen
- Carbon dioxide
- Total hardness
- Calcium
- Magnesium
- m-alkalinity
- p-alkalinity
Metals
- Iron
- Manganese
- Chrome (total)
- Chrome (VI)
- Lead
- Cadmium
- Copper
- Arsenic
- Zinc
- Nickel
- Pine tree
- Alive
- Sodium
- Potassium
- Antimony
- Fenol
- 2-Hlorfenol
- 2-Nitrofenol
- 2,4-Dimetilfenol
- 2,4-Dihlorfenol
- 4-Hlor-3-metilfenol
- 2,4,6-Trihlorfenol
- 2,4-Dinitrofenol
- 4-Nitrofenol
- 2-Metil-4,6-dinitrofenol
- Pentahlorfenol
- Dimetil ftalat
- Dietil ftalat
- Diizobutilftalat
- Dibutilftalat
- bis-(2-Metoksietil)ftalat
- bis-(4-Metil-2-pentil)ftalat
- bis-(2-Etoksietil)ftalat
- Dipentil ftalat
- Diheksil ftalat
- Benzil butil ftalat
- bis-(2-n-Butoksietil)ftalat
- Dicikloheksil ftalat
- bis-(2-Etilheksil)ftalat
- Di-n-oktil ftalat
- Dinonil ftalat
cyanides
- Total
- Free
- Easily volatile
- Hydrocarbons – the range of gasoline
- Hydrocarbons – a range of diesel
- Mineral oils
- Fats and oils
- Gasoline
- Toluene
- Ethylbenzene
- Xylene
- Styrene
- Chlorobenzene
- 1,2-Dihlorbenzen
- 1,3-Dihlorbenzen
- 1,4-Dihlorbenzen
Polycyclic aromatic hydrocarbons (PAH)
- Naftalen
- Acenaftilen
- Acenaften
- Fluoren
- Fenantren
- Antracen
- Fluoranten
- Piren
- Benzo(a)antracen
- Krizen
- Benzo(b)fluoranten
- Benzo(k)fluoranten
- Benzo(a)piren
- Indeno(1,2,3-c,d)piren
- Dibenzo(a,h)antracen
- Benzo(g,h,i)perilen
- BHC-α
- BHC-β
- BHC-γ (Lindan)
- BHC-δ
- Heptahlor
- Aldrin
- Heptahlor-egzo-epoksid
- trans-Hlordan
- α-Endosulfan
- cis-Hlordan
- 4,4′-DDE
- Dieldrin
- Endrin
- β-Endosulfan
- 4,4′-DDD
- Endrin aldehid
- Endosulfan sulfat
- 4,4′-DDT
- Endrin keton
- Metoksihlor
- Heksahlorbenzen
Alcohol
- Methanol
- Ethanol
- Propanol
- Isopropanol
- 1-Butanol
- 2-Butanol
- Acetone