Environmental conditions versus PM fractions
kreise-ilPM 2,5PM 10PM 1
Tropical areas, humid + damp
Desert regions
Light industry areas
Coastal regions and offshore
Heavy industry areas
Highly polluted megacities
Process requirements
No unexpected down time
Constant power output
Optimum heat rate and efficiency
Σ Costs for fuel, maintenance, downtime, spare parts, filters ...
Environmental conditions versus PM fractions
kreise-ilPM 2,5PM 10PM 1
Country areas
Coastal regions
Light industry areas
Heavy industry areas
Process requirements
Clean air for gleaming paintwork
High process safety and reliability
Long operation periods
Energy efficiency
Σ Costs for defective parts, maintenance, downtime, energy, spare parts, filters, servicing …
Environmental conditions versus PM fractions
kreise-ilPM 2,5PM 10PM 1
Tropical areas, humid + damp
Light industry areas
Country areas
Coastal regions
Heavy industry areas
Process requirements
Food safety to protect the health and welfare of people
Hygienic and controlled production environment – in temperature, humidity, particle concentration and quantity of air
Achieve hygienic air quality to reduce the possibility of contamination
Highly efficient filter systems according to required hygiene level (zone concept).
Σ Lifetime filter costs incl. energy expense (filter costs p.a. plus costs for disposal and labour)
Environmental conditions versus PM fractions
kreise-ilPM 2,5PM 10PM 1
Tropical areas, humid + damp
Desert regions
Light industry areas
Coastal regions
Heavy industry areas
Highly polluted megacities
Process requirements
Complete protection of sensitive products, processes and equipment against corrosion.
Clean air for maximum efficiency in gas phase filtration
Clean room air after the gas phase filtration process
Σ Costs for energy expense, maintenance, servicing.
IN THE PAST
=? µg/m3Raw gas concentration in µg/m3M6F7E10
IN THE FUTURE
=Achieved clean gas concentration in µg/m3Raw gas concentration in µg/m3Learn more about e.FFECTePM 10 60%ePM 2,5 65%ePM 1 95%
e.FFECT – electronic Freudenberg Filter Efficiency Calculation Tool

e.FFECT enables the user to select the best suited filter sequence based on his ambient air conditions. With this tool we can calculate the amount of atmospheric dust which is collected in the filter stages over a period of one year.

How can ISO 16890 influence customers’ filtration solution?

IN THE PAST
=? µg/m 3Raw gas concentration in µg/m 3M6M6F7
IN THE FUTURE
=Achieved clean gas concentration in µg/m 3Raw gas concentration in µg/m 3Learn more about e-FFECTePM 10 60%ePM 10 60%ePM 2,5 65%
e.FFECT – electronic Freudenberg Filter Efficiency Calculation Tool

e.FFECT enables the user to select the best suited filter sequence based on his ambient air conditions. With this tool we can calculate the amount of atmospheric dust which is collected in the filter stages over a period of one year.

How can ISO 16890 influence customers’ filtration solution?

IN THE PAST
=? µg/m 3Raw gas concentration in µg/m 3M6F8E11
IN THE FUTURE
Corresponds to the 3 filter stages zone concept of Zone H, High Hygiene (High Risk), recommended by EHEDG
=Achieved clean gas concentration in µg/m 3Raw gas concentration in µg/m 3Learn more about e-FFECTePM 10 ePM 180%ePM 1 >95%
e.FFECT – electronic Freudenberg Filter Efficiency Calculation Tool

e.FFECT enables the user to select the best suited filter sequence based on his ambient air conditions. With this tool we can calculate the amount of atmospheric dust which is collected in the filter stages over a period of one year.