Thermal analysis of materials with evolved gas analysis by FTIR and GCMS methods.
Determination of heating value of biofuel, mixtures and calorific waste for determination of suitability of combustion in industrial furnaces.
Applicable for combustion process diagnostics, analysis of other fast processes where optical sensitivity is necessary.
Applicable for the spectral analysis of liquid, solid and gaseous samples of organic or non-organic origin, and dynamic mode of spectral analysis of evolved gases.
Used for the analysis of the products from biofuel thermal destruction (gasification) and combustion.
Determination of thermal value of mass change of the liquid and solid samples.
Determination of the heating value of solid and liquid fuels and organic waste, kJ/kg
Determination of non-flammable fraction in solid and liquid fuels and organic waste, %
Determination of moisture content (%) in solid fuels and organic waste
Evaluation of combustion quality using a high-sensitivity chamber and narrow-band filters
Investigation of biofuel and waste gasification products, solid and liquid organic and inorganic samples using IR beam and analysis with Furje transformation.
Identification of organic compounds (qualitative analysis).
Determination of quantity of inorganic gases and light hydrocarbons in the gaseous phase.
Determination of aromatic hydrocarbons according to EPA610 method.
Determination of the heating value of solid and liquid fuels and organic waste, kJ/kg
Determination of non-flammable fraction in solid and liquid fuels and organic waste, %
Evaluation of combustion quality using a high-sensitivity chamber and narrow-band filters
Investigation of biofuel and waste gasification products, solid and liquid organic and inorganic samples using IR beam and analysis with Furje transformation.
Determination of quantity of inorganic gases and light hydrocarbons in the gaseous phase.
Thermal analysis of materials with evolved gas analysis by FTIR and GCMS methods.
Determination of heating value of biofuel, mixtures and calorific waste for determination of suitability of combustion in industrial furnaces.
Applicable for combustion process diagnostics, analysis of other fast processes where optical sensitivity is necessary.
Applicable for the spectral analysis of liquid, solid and gaseous samples of organic or non-organic origin, and dynamic mode of spectral analysis of evolved gases.
Used for the analysis of the products from biofuel thermal destruction (gasification) and combustion.
