Combustion Master CS
The sample will be burnt in the induction furnace together with accelerators in pure oxygen. The usual combustion temperature is about 2200 °C.
During the combustion the carbon components will be oxidised to CO2 and the sulphur components to SO2. Dust and water will be removed from the combustion gas afterwards.
The combustion gas will then be led to the detectors, which will determine the CO2 and SO2 concentrations by IR absorption. From the received data of the sample the PC is calculating the concentrations of carbon and sulphur.
The furnace will heat up the sample by inductivity up to 2200 °C.
The power of this process is controlled by the PC and might reach up to 2.2 kVA. Through a lance the oxygen will be led to the sample for a rapid and complete combustion.
The locating surface of the pedestal guarantees a secure hold of the crucible.
A programmable, automatic furnace cleaning will remove the dust after the analysis.
The infrared system is designed for a precise operation with low maintenance.
The constantly active infrared emitter is providing a low-noise signal. It is possible to extend the analyser with up to 2 independent detector units for a wide analytical range.
The design of the cuvette allows easy cleaning. A temperature controlled environment ensures a long-time stability of the analyser´s performance.
Gas Flow System:
A mass flow controller ensures a high stability of the carrier gas flow.
The user-friendly positioning of the reagent tubes also guarantees an optimised flow of the carrier gas.
The diagnostic programme on the PC further on contains an automatic leak check procedure for reliable results.
The NCS operation software is designed for the easy operation of our elemental analysers.
It incorporates a desktop for the sample analysis with data transmission as well as the set-up of different methods and user profiles.
The password protected service area shows all important operation parameters of the instrument.
A remote access for one of our service engineers is also available.