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HF sensor

Hydrogen fluoride

Reliable real-time
data on HF

GasPlug TECHNOLOGY | PATENTED DESIGN

Measure hydrogen fluoride levels accurately
Smart hydrogen fluoride (HF) cartridge - Kunak
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Where is it found?

Hydrogen fluoride (HF) is a colourless gas. It is highly corrosive and toxic, with a sharp, irritating odour. When dissolved in water, it forms hydrofluoric acid, a strong and dangerous acid used industrially.

HF can be found in various natural (volcanic activity) and industrial applications, such as aluminium production, petroleum refining, and in some mines with fluorine-containing minerals (phosphogypsum deposits).

Why is it harmful?

HF poses severe health and environmental hazards due to its highly corrosive and toxic nature. Upon contact, it can penetrate deep into the skin, causing serious tissue damage and life-threatening disruptions. Inhalation of HF vapours can lead to severe respiratory issues, and chronic exposure may cause skeletal fluorosis.

Environmentally, HF contributes to acid rain, damages vegetation, contaminates soil, and poses a serious risk to wildlife and livestock due to fluoride accumulation in ecosystems.

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HF cartridge

Download datasheet

The HF cartridge has a built-in electrochemical sensor that allows measuring HF at fugitive emissions, despite the fleetingness of HF, which is rapidly deposited.

This cartridge shows high accuracy thanks to the Kunak algorithm, which corrects the background noise caused by environmental conditions. Additionally, the cartridge is calibrated using HF gas (not other gases), ensuring high specificity and reliability in HF detection. On the other hand, the HF cartridge has a high cross-sensitivity with H2S; it is therefore recommended to use an H2S cartridge together with the HF cartridge when high H2S concentrations are present (at ppm level).

These features ensure the HF cartridge delivers reliable and precise monitoring in complex field conditions.

Technical specifications

Type
Electrochemical
Unit of measurement
mg/m3, ppm
Measurement range(1)
0-10 ppm
Resolution(2)
0.01 ppm
Operating temperature range(3)
-20 to 50ºC
Operating RH range(4)
0 to 99 %RH
Recommended RH range(5)
15 to 90 %RH
Operating life(6)
> 24 months
Guarantee range(7)
50 ppm
Limit of Detection (LOD)(8)
0.02 ppm
Repeatability(9)
Response time(10)
< 120 sec
Typical accuracy(12)
±0.1 ppm
Typical Intra-model variability(14)
< 0.1 ppm
  1. Measurement range: concentration range measured by the sensor.
  2. Resolution: smallest unit of measurement that can be indicated by the sensor.
  3. Operating temperature range: temperature interval at which the sensor is rated to operate safely and provide measurements. (**) In PM sensor Type A: -40 to 50ºC with heater (more information on this version on request).
  4. Operating RH range: humidity interval at which the sensor is rated to operate safely and provide measurements.
  5. Recommended RH range: Recommended relative humidity range for optimal sensor performance. Continuous exposure outside the recommended range may damage the cartridge.
  6. Operating life: time period during which the sensor can operate effectively and accurately under normal conditions.
  7. Guarantee range: concentration range covered by Kunak's guarantee.
  8. LOD (Limit Of Detection): measured at laboratory conditions at 20ºC and 50% RH. The limit of detection is the minimum concentration that can be detected as significantly different at zero gas concentration, calculated according to the Technical Specification CEN/TS 17660.
  9. Repeatability: measured at laboratory conditions at 20ºC and 50% RH. Closeness of the agreement between the results of successive measurements of the same measure carried out under the same conditions of measurement, calculated according to the Technical Specification CEN/TS 17660.
  10. Response time: time needed by the sensor to reach 90% of the final stable value.
  11. Typical precision - R2: statistics obtained between the device hourly measurements and reference instruments in field test between -10 to +30ºC at different locations. (*) For the type B PM sensor, the expected error for PM10 is higher in presence of coarse particles.
  12. Typical accuracy: for criteria pollutants is the average Mean Absolute Error (MAE) obtained between the device hourly measurements and reference instruments for 1 to 8 months field test between -10 to +30ºC in different countries. For other pollutants is the expected error of the measurement at the reading.
  13. DQO-Typical U(exp): Data Quality Objetive expresed as the Expanded Uncertainity in the Limit Value obtained between the device hourly measurements and reference instruments for 1 to 8 months field test between -10 to +30ºC in different countries, calculated according to the European Air Quality Directive 2024/2881 and from the Technical Specification CEN/TS 17660. (*) For the type B PM sensor, the expected error for PM10 is higher in presence of coarse particles.
  14. Typical intra-model variability: calculated as the standard deviation of the three sensor means in 1 to 8 months field test between -10 to +30ºC in different countries.

A, B, C, D superindex: the super indexes refer to different types of cartridges related to the same target pollutant but with different technical specifications.

It is essential to have an instrument that is capable of accurately measuring pollution levels and providing reliable results to make informed decisions on air quality and public health.

Javier Fernández

CEO & Co-founder - Kunak

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Articles & Guides

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Frequently asked questions

Are Kunak devices ATEX certified?

Kunak devices are designed for the perimetric monitoring of diffuse emissions or leak detection in areas not classified as ATEX.

They can be adapted to operate in explosive-risk environments, complying with ATEX Zone 1 requirements, provided the system is properly configured.

How often are the cartridges replaced and software renewed?

The lifespan of each cartridge depends on the sensor type and environmental conditions, typically ranging from 12 to 36 months. More details can be found in the catalogue.

Kunak Cloud services are renewed annually to maintain updated analysis, calibration, and data traceability.

Is the device portable or fixed?

Kunak devices can be installed on lamp posts, walls, masts, or tripods.

Thanks to their lightweight and modular design, they can be easily relocated by detaching the base and reattaching it elsewhere.

How often should the device be calibrated?

Sensors are factory-calibrated and supplied with an official calibration certificate.

To maintain accuracy, a remote calibration or adjustment is recommended every three months or after relocation or seasonal changes.

What calibration options are available?

Calibration can be performed through:

  • co-location with a reference station,
  • gas hood calibration with standard gas cylinders, or
  • remote adjustment using historical data.

The method depends on the project requirements and available budget.

Can data be obtained locally (Modbus)?

Yes. All Kunak devices include Modbus RTU RSxx protocol, allowing local data transmission and reading without relying on internet connectivity.

How does the device communicate?

The system transmits data via cellular (4G/3G), Ethernet, Wi-Fi, or Modbus, adapting to the available network infrastructure at each site.

What is the battery life?

Devices include an internal backup battery providing between 3 and 30 days of autonomy, depending on the configuration and active sensors.

At what height should the device be installed?

Installation is recommended at a height of 3–4 metres above ground to ensure representative measurements and prevent interference or vandalism.

Does the device have internal memory?

Yes. It features high-speed internal memory capable of storing data for up to 15 days without an internet connection, ensuring data continuity.

Can meteorological probes be connected?

Yes. Kunak AIR Pro supports up to 6 meteorological probes, and Kunak AIR Lite up to 2, depending on the model.

This allows correlation between environmental variables and pollutant concentrations.

Can it be installed on a vehicle or drone for mobile monitoring?

Yes, provided the speed does not exceed 20 km/h. This ensures measurement stability and accurate environmental data capture.

Does this technology have certifications?

Sensor-based devices are not governed by a single certification.

Kunak continuously validates its devices in the field alongside independent bodies.

These tests ensure that the data complies with the European Air Quality Directive and US EPA standards.

Is the Kunak AIR Cloud platform mandatory?

Yes. Kunak AIR Cloud is essential for temperature and humidity compensation, remote maintenance, auto-diagnostics, baseline correction, data validation, and ensuring data traceability.

Can the devices be used indoors?

Yes. The devices can be used in industrial, agricultural, or logistics environments, providing accurate pollutant control even indoors.

What is the difference between the AIR Pro and AIR Lite particle sensors?

  • Kunak AIR Pro: 24-channel, MCERTS-certified sensor that measures fine and coarse particles (PM1, PM2.5, PM10) with indicative measurement quality.
  • Kunak AIR Lite: 5-channel, non-MCERTS sensor specialised in detecting fine particles.

How are the data integrated with third-party platforms?

Data can be automatically integrated via REST API, Modbus, or FTP, facilitating connection with external environmental or industrial management systems.

What is the difference between calibration and correction?

  • Calibration adjusts the sensor’s response against a traceable reference (reference station or certified gas) to determine uncertainty.
  • Correction modifies the sensor’s response without an external reference to reduce error or drift but doesn’t quantify uncertainty.

In summary, calibration uses an external reference, while correction is an internal adjustment to maintain sensor reliability. More information on page 35 of the catalogue.