Description
Palas Resp-Aer-Meter state-of-the-art Exhalation Measuring Device for Aerosol Particles. The Resp-Aer-Meter is a high-performance measuring device for the immediate detection of particle concentration in exhaled breathing air. The innovative, universally applicable measuring instrument determines the number and size of aerosol particles quickly and accurately. By measuring the increased numbers of exhaled aerosol particles, so-called super spreaders or super emitters can be identified. Super spreaders or super emitters are individuals who have a particularly high number of pathogens and are therefore considered particularly infectious. In order to detect them and to initiate appropriate security measures, a suitable measurement device such as the Resp-Aer-Meter must be used.
Industries & Applications
- Government departments
- Universities
- Research facilities
- Respiratory research groups
- Laboratories
- Airports
- Concerts
- Many other areas
Key Features
- 150nm to 10um particle size range
- 0 to 20,000 particles/cm3 particle concentration range
- The latest optical light scattering technology
- 9.5 liter per minute flow rate
- Digital 20Mhz signal processor with 256 raw data channels
- 800 x 480 pixel color touch screen display
- High measuring accuracy due to state-of-the-art technology and many years of experience in the field of aerosol measuring technology
- Indication of so-called super emitters through the reliable determination of the number and size of aerosol particles in the air we breathe
- Easy handling and fast, yet reliable measurement results
How it Works
For the measurement, the individual being tested breathes into the exhalation measuring device. The evaluation takes place immediately and the unit shows how many particles are present in different particle size classes in the exhaled air. The virus’s particle size serves as an indicator of a potential disease within the person being tested. The Palas Resp-Aer-Meter helps organizations develop a deeper understanding of the transmission and spread mechanisms in current research topics.