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Model HT350 from 600 to 1600°C - Two-Wire -Two-Wire Transmitter Oxygen Analyzer
In-situ model without gas circulation, Process temperature from 600 to 1600 °C, Suitable for hostile and dusty processes, Two-wire transmitter for safe area.
Oxygen analyzers
- OXYS from 500 to 1600°C ATEX
- OXYL from ambient temperature to 600°C ATEX
- HT 300 from 500 to 1600°C
- HT 350 from 600 to 1600°C smart two-wire
- Syre da 600 to 1600°C ATEX smart two-wire
- AT300 for glass melting tanks
- HL305 from 200 to 1200°C
- BT300 from ambient temperature to 600°C
- E705 extractive rack mounting QAL1
- E705-H extractive for hot measuring
- E705-L extractive for very low ranges
- Carbon Sensor
The entire series of Oxygen analyzers produced by FER Strumenti is based on a zirconium oxide (zirconia) element completely stabilized by yttrium oxide.
The zirconium oxide cell is produced by FER Strumenti. This element ensures the best accuracy in measurement and gives the possibility to measure O2 even at relatively low temperatures without any interference.
- In-situ application in combustion products
- Models for use up to 1600 °C
- Fast response time
- Low maintenance cost
- Excellent stability
- Fuel saving
- Usable with any type of fuel
- Low installation cost
- No moving parts
- Extractive models available
- Wide range of mounting accessories for different applications
- Models for areas with danger of explosion
Some materials have, at high temperature, ionic conductivity; among these the zirconium oxide, yttrium stabilized, shows a high mobility of Oxygen ions and can be used as a solid electrolyte. The galvanic chain constituted by two films of porous platinum (electrodes) deposited on the ceramic material (solid electrolyte) can be configured:
where p1 and p2 represent the oxygen partial pressure in the reference and measure compartments. The e.m.f. of the cell which is generated by the different oxygen partial pressure in the reference and measure compartment is in accordance to the following equation:
With constant temperature and reference partial pressure, the e.m.f. of the concentration cell depends only on the oxygen partial pressure of the gas to be analyzed. Assuming the pressure of the reference and measure compartment to be atmospheric pressure, the oxygen partial pressure can be associated to the percentage of Oxygen to be measured. The error due to the pressure of the plant (different from the atmospheric one) is usually negligible (0,13% of theoretical value per mm of Hq) and can be adjusted using the ZERO regulation of the electronic unit.