Influences of condensation in vH2O2 bio-decontamination In this white paper you will gain an in-depth understanding of the relationship between critical process parameters in vaporized hydrogen peroxide bio-decontamination. This background knowledge will enable the development of effective and repeatable vH2O2 bio-decontamination cycles. We demonstrate why single-parameter measurement is often insufficient for monitoring and ineffective for process control. We also show why the relative saturation value is crucial to accurately predicting and controlling condensation. Learn which four key parameters have the greatest influence on both condensation and maximum achievable ppm vH2O2. Based on the impact of these parameters, we propose four rules that will guide successful bio-decontamination processes. Learn more about Vaisala's vH2O2 bio-decontamination sensor. See our Privacy Policy for more details. You can modify your preference settings or unsubscribe at any time here
In this white paper you will gain an in-depth understanding of the relationship between critical process parameters in vaporized hydrogen peroxide bio-decontamination. This background knowledge will enable the development of effective and repeatable vH2O2 bio-decontamination cycles. We demonstrate why single-parameter measurement is often insufficient for monitoring and ineffective for process control. We also show why the relative saturation value is crucial to accurately predicting and controlling condensation. Learn which four key parameters have the greatest influence on both condensation and maximum achievable ppm vH2O2. Based on the impact of these parameters, we propose four rules that will guide successful bio-decontamination processes. Learn more about Vaisala's vH2O2 bio-decontamination sensor. See our Privacy Policy for more details. You can modify your preference settings or unsubscribe at any time here