User Manual
Table Of Contents
- 1 Purpose of this document
- 2 Why is a healthy, productive indoor climate so valuable?
- 3 The role of building automation in health and productivity
- 4 Control applications and targets (CO2, VOC, RH, PM2.5)
- 5 Recommendations for specific building types
- 6 Monitoring indoor climate parameters for health and productivity
- 7 Controlling indoor climate parameters for health and productivity
- 8 Products for a healthy productive indoor climate
- Appendix 1: Indoor air quality (IAQ) – Combined CO2 and VOC sensors
- Appendix 2: Integration of RDF../RDG.. (KNX) in Desigo
- Appendix 3: Other indoor climate parameters – NO2, SO2, O3
- Appendix 4: Tender texts
- External references
- Siemens reference documents
- Glossary
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6.3 Fine dust PM2.5 monitoring
The approach to controlling PM2.5 (or PM10) fine dust air pollution is typically as follows:
1. Monitoring PM2.5 over a time period to assess the problem
2. If necessary, improving the air filters in the AHU (VAV system)
3. If the PM2.5 level is still too high, and/or there is no ventilation system,
then installing an individual room air purification system
Siemens fine dust sensors (QSA2700) are
designed for professional applications and are
suited for a wide range of buildings, both
commercial and residential. The use cases
include measurement and display of air
pollution levels in single or multi-rooms as
well as integration into sophisticated BACS for
overall climate monitoring and control.
PM2.5 sensor
QSA2700D
The fine dust level data can be observed by the building occupants on the sensor display and/
or tracked and visualized as a time series by the building owner, operator or facility manager,
by using the Siemens Synco/Climatix IC cloud platform, Desigo CC or Desigo Control Point.