@MANNHUMMELGroup
airfiltration.mann-hummel.com
AIR FILTRATION
What’s the outcome?
Breathing problems, respiratory illness, changes in the lung’s defenses, and worsening respiratory
and cardiovascular disease.
Irritation of the eyes, nose and throat. Exposure to high levels may cause
muscle spasms and can damage the lungs and heart.
Irritates the respiratory tract and eyes, causing coughing, burning sensations, wheezing and
shortness of breath. Can decrease lung function and aggravate asthma and other lung diseases.
Can also lead to premature death.
Chronic health effects include cancer, central nervous system disorders, liver and kidney
damage, reproductive disorders, and birth defects.
Irritates the lungs and lowers resistance to respiratory infections such as influenza. Exposure to NO2 is associated with increased deaths from heart and lung disease, and respiratory illness.
Reduces oxygen delivery to the body’s organs (including the heart and brain) and tissues.
Long-term exposure to lower concentrations can cause neurological damage.
Headaches, skin complications, respiratory and mucous membrance irritation, respiratory soft tissue damage and degeneration, confusion,
impairment of verbal recall, and memory loss.
Cardiovascular and lung diseases, heart attacks and arrhythmias. Can cause cancer. May lead
to atherosclerosis, adverse birth outcomes and childhood respiratory disease.
SULPHUR DIOXIDE
HYDROGEN FLUORIDE
What is in the air we breathe and how does
it affect our health?
AIR POLLUTANTS
OZONE
VOCS
CARBON MONOXIDE
NITROGEN OXIDES
HYDROGEN SULPHIDE
PM2.5 & PM10
HOW SMALL ARE SUCH PARTICLES?
Smaller than a hair’s
width!Illustration
shows comparative
size of particles
PM1 1 micron
PM2.5 2.5 microns
PM10 10 microns
HUMAN HAIR 70 microns
PARTICLE PENETRATION
WHAT BETTER AIR QUALITY MEANS
ACCEPTABLE PM LEVELS
HOW EFFECTIVE ARE DIFFERENT FILTRATION EFFICIENCIES?
WHY CHOOSE A LOWER FILTER CLASS?
HVAC AND FILTRATION ARE A SIGNIFICANT CONSUMER OF ENERGY
TYPICAL LIFE CYCLE COSTS OF AN AIR CONDITIONING FILTER
AIR-CONDITIONING SYSTEM RESISTANCE
OPTIMUM FILTER SPECIFICATION
How far do particles
penetrate the body?
100 μm Nose
10 μm Throat
3 μm Lungs
1 μm Blood
How much longer would our lives be extended if certain factors were reduced or
eliminated?CAR ACCIDENTS
PASSIVE SMOKING
PM2.5 (reduced by 10 μg/m3)
PREDICTED LIFE EXPECTANCY
PREDICTED LIFE EXPECTANCY
PREDICTED LIFE EXPECTANCYREDUCED
MONTHS GAINED2
MONTHS GAINED2½
MONTHS GAINED7½
Source: Department of Health, Air Quality Fifth Report of Session 2009 – 10 Volume 1, UK
PM10 20 μ/m3
PM2.5 10 μ/m3
According to the World
Health Organization
WHO
Choosing the right filter can
have a dramatic impact on energy
consumption.CHART SHOWS TOTAL
EU ENERGY CONSUMPTION
40% is used by buildings, of which5–10% is used by filtration
How much of the nasty
stuff is removed?
POLLUTED AIR
FILTRATION EFFICIENCY
<50%
Annual energy consumption of an ‘A’-rated filter
According to Eurovent 4/21 (kWh)
550 kWh
Choosing a cheaper filter
may cost more in the long run
80% Energy
10% Purchase
7% Maintenance
3% Disposal
A clean filter accounts for 25% of an air-conditioning unit’s energy demand
A loaded filter accounts for 50% of an air-conditioning unit’s energy demand
The importance of changing your filters
on time
ePM2.5ePM10
Coarse
ePM1
Choosing the right filter is important!
Typically, as particulate removal increases so too does energy demand
Finding the right balance between the two is key!
ENERGY DEMAND
COARSE
ePM10 50%
ePM2.5 55%
ePM1 55%
ePM1 80%
PM10 removed
PM2.5 removed
PM1 removed
50%
80%
85%
>95%
<5%
10%
55%
65%
85%
<5%
<5%
40%
55%
80%
Values are for a ‘typical’ filter and provided as an example. Actual PM removal across different particle sizes will vary from product to product.
ePM10 50%
ePM2.5 55%
ePM1 55%
ePM1 80%
850 kWh
900 kWh
1500 kWh
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