Innovations and Services

Environmental Studies

Air pollution and climate change are closely related. FTMC involved in creating and developing methods for climate change mitigation and air pollution reduction in various ecosystems as well as for creating safer and healthy environment.

SERVICES

(Authorization to Measure and Investigate Pollutant Emissions and Pollutants in Environmental Elements No 1AT-307 December 9, 2011)

Determination of inorganic compounds in ambient air, in water and soil samples 

No.

Services

Method

Price without VAT, Eur

1

Chemical composition of aerosol particles

1.1

Real time measurements (online)

 

 

 

Chemical composition of submicron (<1 µm) aerosol particles (Organics, SO42-, NO3-, NH4+, Cl-)

Aerosol chemical speciation monitor (ACSM)

By agreement

 

Equivalent black carbon mass concentration

Aethalometer (Magee Scientific) AE31, AE33

By agreement

 

Composition of light absorbing carbonaceous particles (on-person, mobile applications)

microAeth MA200

By agreement

2

Physical properties of aerosol particles

 

Number concentration of aerosol particles  (0.003-3.0 µm)

Condensational aerosol counter (CPC UF-02)

By agreement

 

Aerodynamic measurements of particles, light-scattering intensity (0.5-20 µm)

Aerodynamic Particle Sizer (APS, TSI 3321)

By agreement

 

Number concentration and size distribution of airborne submicron particles  (0.003-1.0 µm)

Scanning Mobility Particle Sizer (SMPS, TSI 3936)

By agreement

3

Optical properties of aerosol particles

 

Light-scattering coefficient of atmospheric and laboratory aerosols

Integrating Nephelometer (TSI 3563)

By agreement

 

Optical measurement of light absorbing carbonaceous aerosols

Aethalometer (Magee Scientific) AE31, AE33

By agreement

4

Generation of aerosol particles

 

Generation of high concentrations of monodisperse submicron particles (<1 µm) from liquids

Electrospray Aerosol Generator (TSI 3480)

By agreement

5

Simulation

 

Source apportionment of organic submicron aerosol

Positive matrix factorization

By agreement

 

Source apportionment of black carbon from fossil fuel and wood burning sources

Angstrom exponent analysis

By agreement

 

Backward air mass trajectory analysis

Potential Source Contribution Function, Concentration Weighted Trajectory

By agreement

 

Clustering of air masses backward trajectories

Simulation

By agreement

 

Source apportionment of heavy metals

Positive matrix factorization

By agreement

 

Investigation of chemical composition and physical properties of aerosol particles 

No.

Services

Method

Price without VAT, Eur

1

Chemical composition of aerosol particles

1.1

Real time measurements (online)

 

 

 

Chemical composition of submicron (<1 µm) aerosol particles (Organics, SO42-, NO3-, NH4+, Cl-)

Aerosol chemical speciation monitor (ACSM)

By agreement

 

Equivalent black carbon mass concentration

Aethalometer (Magee Scientific) AE31, AE33

By agreement

 

Composition of light absorbing carbonaceous particles (on-person, mobile applications)

microAeth MA200

By agreement

2

Physical properties of aerosol particles

 

Number concentration of aerosol particles  (0.003-3.0 µm)

Condensational aerosol counter (CPC UF-02)

By agreement

 

Aerodynamic measurements of particles, light-scattering intensity (0.5-20 µm)

Aerodynamic Particle Sizer (APS, TSI 3321)

By agreement

 

Number concentration and size distribution of airborne submicron particles  (0.003-1.0 µm)

Scanning Mobility Particle Sizer (SMPS, TSI 3936)

By agreement

3

Optical properties of aerosol particles

 

Light-scattering coefficient of atmospheric and laboratory aerosols

Integrating Nephelometer (TSI 3563)

By agreement

 

Optical measurement of light absorbing carbonaceous aerosols

Aethalometer (Magee Scientific) AE31, AE33

By agreement

4

Generation of aerosol particles

 

Generation of high concentrations of monodisperse submicron particles (<1 µm) from liquids

Electrospray Aerosol Generator (TSI 3480)

By agreement

5

Simulation

 

Source apportionment of organic submicron aerosol

Positive matrix factorization

By agreement

 

Source apportionment of black carbon from fossil fuel and wood burning sources

Angstrom exponent analysis

By agreement

 

Backward air mass trajectory analysis

Potential Source Contribution Function, Concentration Weighted Trajectory

By agreement

 

Clustering of air masses backward trajectories

Simulation

By agreement

 

Source apportionment of heavy metals

Positive matrix factorization

By agreement

 

Contact us

Contact us by filling out the inquiry form. We will respond within 2 business days.


Karolis Stašys

Innovation Manager / Inovacijų vadybininkas

Tel.: +370 629 85166
El.p.: karolis.stasys@ftmc.lt