Bioaerosol Chamber Details
- One of its kind in Wales and only a handful of such facilities across the UK, our bioaerosol chamber is purpose built for ozone analysis.
- Constructed of polypropylene and measuring approximately 21 m3, the walk-in facility allows for large scale decontamination experiments.
- Feed via a 10 g ozone generator (Ozone Industries, UK) and monitored via a UKAS calibrated 2B tech 106-M monitor, ozone can be generated in situ or via your own device with the assurance that the concentration is measured, logged and accurate.
- The chamber has a number of fans ensuring even distribution of gaseous ozone and aerosolised microorganisms.
- Equipped with humidity controls and the ability to test at certain temperatures, a wide range of environmental conditions can be replicated. Using the internal VOC monitor, particulates formed can also be measured and reported, linking with MCBA consultants we can offer a more detailed analysis of by product formation using an onsite Thermal Desorption, Gas Chromatography-Mass Spectrometer (TD-GCMS).
An upgraded extraction system, completed in May 2023, allows for fast and efficient aerosol extraction equating to up to 25 air changes per hour and allowing ozone concentrations to be reduced from 50 ppm to 0.01 ppm within 25 minutes, important within specific applications.
All of our surface decontamination testing follows, as closely as possible, BS EN 17272, allowing companies to utilise our services to undertake research and development on their devices prior to submitting data to a regulator for Biocide Product Regulation (BPR) approval.
Bioaerosol Chamber details
- One of its kind in Wales and only a handful of such facilities across the UK, our bioaerosol chamber is purpose built for ozone analysis.
- Constructed of polypropylene and measuring approximately 21 m3, the walk-in facility allows for large scale decontamination experiments.
- Feed via a 10 g ozone generator (Ozone Industries, UK) and monitored via a UKAS calibrated 2B tech 106-M monitor, ozone can be generated in situ or via your own device with the assurance that the concentration is measured, logged and accurate.
- The chamber has a number of fans ensuring even distribution of gaseous ozone and aerosolised microorganisms.
- Equipped with humidity controls and the ability to test at certain temperatures, a wide range of environmental conditions can be replicated. Using the internal VOC monitor, particulates formed can also be measured and reported, linking with MCBA consultants we can offer a more detailed analysis of by product formation using an onsite Thermal Desorption, Gas Chromatography-Mass Spectrometer (TD-GCMS).
An upgraded extraction system, completed in May 2023, allows for fast and efficient aerosol extraction equating to up to 25 air changes per hour and allowing ozone concentrations to be reduced from 50 ppm to 0.01 ppm within 25 minutes, important within specific applications.
All of our surface decontamination testing follows, as closely as possible, BS EN 17272, allowing companies to utilise our services to undertake research and development on their devices prior to submitting data to a regulator for Biocide Product Regulation (BPR) approval.
Bioaerosol Chamber details
- One of its kind in Wales and only a handful of such facilities across the UK, our bioaerosol chamber is purpose built for ozone analysis.
- Constructed of polypropylene and measuring approximately 21 m3, the walk-in facility allows for large scale decontamination experiments.
- Feed via a 10 g ozone generator (Ozone Industries, UK) and monitored via a UKAS calibrated 2B tech 106-M monitor, ozone can be generated in situ or via your own device with the assurance that the concentration is measured, logged and accurate.
- The chamber has a number of fans ensuring even distribution of gaseous ozone and aerosolised microorganisms.
- Equipped with humidity controls and the ability to test at certain temperatures, a wide range of environmental conditions can be replicated. Using the internal VOC monitor, particulates formed can also be measured and reported, linking with MCBA consultants we can offer a more detailed analysis of by product formation using an onsite Thermal Desorption, Gas Chromatography-Mass Spectrometer (TD-GCMS).
An upgraded extraction system, completed in May 2023, allows for fast and efficient aerosol extraction equating to up to 25 air changes per hour and allowing ozone concentrations to be reduced from 50 ppm to 0.01 ppm within 25 minutes, important within specific applications.
All of our surface decontamination testing follows, as closely as possible, BS EN 17272, allowing companies to utilise our services to undertake research and development on their devices prior to submitting data to a regulator for Biocide Product Regulation (BPR) approval.