The employment of water vapor and other gases plasma for biomass and solid fuel conversion, neutralization of hazardous materials and etc.
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.
The system is intended to use in studies of biofuel combustion efficiency.
Determination Cl, F, Br concentration in the fuel to assess the potential environmental impact of harmful elements and fuel quality indicators.
For various biomass pellets combustion parameters and emissions studies.
Studies of gasification process of solid recovered fuels, i.e., separation of synthesized gas phase in the reactor and subsequent determination of the gas parameters and its application.
To visualize ash melting state and analyze conditions to get information about ash softening, melting processes, depending on the temperature or its gradient values changes.
The influence of the humidity of air supplied for combustion on combustion process efficiency.
Studies on measurement accuracy of air humidity sensors.
Studies on fluid and gas dynamics at low speeds near the surface of the membrane and various trace elements, surface fouling.
The calorific analysis of natural, pyrolysis, liquefied petroleum gas, biogas and gas mixtures.
Heat flow visualization and measurement.
Combustion analysis of heating equipment (boilers, fireplaces, etc.) fired with solid and liquid fuel at operation site.
Determination and analysis of ash content, volatile matter and volatile composition of biofuels and recovered fuels Analysis of materials state transitions.
Major and minor element analysis of liquid and solid organic and mineral compounds of biofuels and recovered fuel.
Solid and liquid fuels, including biofuels and recovered fuel samples weighing in fuel moisture and ash analysis.
Analysis of the main chemical elements C / H / N / S and O in solid and liquid fuels, including biofuels and recovered fuels.
Research and testing of thermal equipment (boilers, fireplaces, etc.) with solid biomass and recovered fuel, and with liquid and gaseous fuels.
Measurements of temperature, pressure, differential pressure and speed, measurement data collection and recording.
It is intended to analyze the ash melting state and conditions and to visualize how the softening and melting processes of ash take place, depending on the temperature or variation of its gradient value.
Investigations of low velocity liquid and gas dynamics at surfaces, membranes and various microelements, surface contamination, motion and mass transfer processes in capillary systems.
Determination of composition of combustion products (CO, CO2, NO, NOx, CiHy, O2, SO2) for the evaluation of the efficiency of thermal equipment, fuel combustion rate, emissions to environment under research and operational conditions; optimization of device operating regimes.
Identification of fuel quality indicators performing research and development.
Measurements of temperature, pressure, differential pressure and speed, measurement data collection and recording.
It is intended to analyze the ash melting state and conditions and to visualize how the softening and melting processes of ash take place, depending on the temperature or variation of its gradient value.
Investigations of low velocity liquid and gas dynamics at surfaces, membranes and various microelements, surface contamination, motion and mass transfer processes in capillary systems.
Determination of composition of combustion products (CO, CO2, NO, NOx, CiHy, O2, SO2) for the evaluation of the efficiency of thermal equipment, fuel combustion rate, emissions to environment under research and operational conditions; optimization of device operating regimes.
Identification of fuel quality indicators performing research and development.
The employment of water vapor and other gases plasma for biomass and solid fuel conversion, neutralization of hazardous materials and etc.
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.
The system is intended to use in studies of biofuel combustion efficiency.
Determination Cl, F, Br concentration in the fuel to assess the potential environmental impact of harmful elements and fuel quality indicators.
For various biomass pellets combustion parameters and emissions studies.
Studies of gasification process of solid recovered fuels, i.e., separation of synthesized gas phase in the reactor and subsequent determination of the gas parameters and its application.
To visualize ash melting state and analyze conditions to get information about ash softening, melting processes, depending on the temperature or its gradient values changes.
The influence of the humidity of air supplied for combustion on combustion process efficiency.
Studies on measurement accuracy of air humidity sensors.
Studies on fluid and gas dynamics at low speeds near the surface of the membrane and various trace elements, surface fouling.
Manufacturer: Dantec Dynamics
The calorific analysis of natural, pyrolysis, liquefied petroleum gas, biogas and gas mixtures.
Combustion analysis of heating equipment (boilers, fireplaces, etc.) fired with solid and liquid fuel at operation site.
Determination and analysis of ash content, volatile matter and volatile composition of biofuels and recovered fuels Analysis of materials state transitions.
Major and minor element analysis of liquid and solid organic and mineral compounds of biofuels and recovered fuel.
Solid and liquid fuels, including biofuels and recovered fuel samples weighing in fuel moisture and ash analysis.
Analysis of the main chemical elements C / H / N / S and O in solid and liquid fuels, including biofuels and recovered fuels.
Research and testing of thermal equipment (boilers, fireplaces, etc.) with solid biomass and recovered fuel, and with liquid and gaseous fuels.
