• HF02

    Flare radiation monitor / heat flux sensor

    HF02 is a sensor that measures radiant heat flux or thermal radiation in the outdoor environment. A common application is monitoring the radiation emitted by flares. HF02 is certified for use in potentially explosive atmospheres, and is rated for radiation levels up to 15 x 10³ W/m². We recommend use of HF02 in a decision-supporting role only, and not to use measurements of HF02 as the main or sole source of information for judging safety.
    • Robust
    • All-weather
    • Suitable for potentially explosive environments
    Details

  • IR02

    Pyrgeometer with Heater

    IR02 is a pyrgeometer suitable for longwave irradiance measurements in meteorological applications. The instrument can be heated, which improves measurement accuracy as it prevents dew deposition on its window. Because of features like this, IR02 is popular and often used in agricultural networks.
    • High sensitivity
    • Houses an on-board heater
    • Prevents condensation
    Details

  • IR20 & IR20WS

    Research Grade Pyrgeometers

    IR20 is a research grade pyrgeometer suitable for high-accuracy longwave irradiance measurement in meteorological applications. Thanks to Hukseflux’  technological innovation, IR20 is offered at a significantly lower price level than competing models of the same performance level. IR20 is capable of measuring during both day and night. In absence of solar radiation, model IR20WS offers even better accuracy because of its wider spectral range.
    • Breakthrough pricing for a pyrgeometer
    • Correction of temperature dependence by use of the measurement function
    • High sensitivity
    • Fast response time (3 s)
    • On-board heater
    Details

  • RA01

    2-component radiometer

    RA01 is a market leading 2-component radiometer, used in scientific-grade energy balance and surface flux studies. It offers 2 separate measurements of solar and longwave radiation. Product features include a modular design, low weight, and easy levelling, and low solar offsets in the longwave measurement. The unique capability to heat the pyrgeometer reduces measurement errors caused by dew deposition. When combined with estimates of solar albedo and of local surface temperature, this instrument can also be used for estimation of net radiation. The advantages of this approach are cost reduction and independence from local surface properties.
    • Modular design, low weight and easy levelling
    • Low solar offsets in the longwave measurement
    • Unique capability to heat the pyrgeometer reducing measurement errors caused by dew
    Details

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