1. Indoor Air Pollution Lecture-1
Mukesh Khare (PhD UK) Department of Civil Engineering
Indian Institute of Technology Delhi

2. A Common Myth
Air pollution occurs only outdoors Or
In industrial environment

3. Truth!!!! Feeling safe ? What is more agreeable than one’s home?
Away from outside pollution ?
Air inside the conditioned space can be substantially more polluted than outdoor air.

4. Historical Perspective
First indication of indoor contamination – Asbestos pollution, a carcinogenic substance, discovered by epidemiologists, used in almost all building materials about 35 years back.Banned due to adverse health effects NOT considering IAQ.
Concept of IAQ first introduced among scientific community in 1980 due to some occurrences of ‘episodes indoors’.
At central headquarters of EPA building at Washington, D.C.- more than 100 people fell sick within 15 minutes of entering the office.
In Los Angeles, CO level in most of the well insulated buildings was three times greater than the outside level.

5. Outcome Such episodes indoors in developed nations ended up with
1. Extensive monitoring programme
development indoors
2. Identification of indoor contaminants
3. Formulation of IAQ models
4. Development of control methodologies
5. Formulation of Indoor Air Contamination
Standards.
6. Identification of ‘Sick Buildings’
7. Investigation of ‘Sick Building Syndrome
(SBS)’

6. What is IAQ?? IAQ stands for “Indoor Air Quality”.
It refers to the nature of the conditioned (heat/ cool) air that circulates throughout space/area, where we work and live i.e. the air we breathe most of the time (almost 80 % of the time).

7. What Causes Indoor Air Pollution??
Air tightness of buildings
Poorly designed air conditioning and ventilation systems
Indoor sources of pollution
Outdoor sources of pollution

8. Air Tightness in Buildings
Causes inadequate supply of fresh air, as a result, negative pressure develops, which causes
Ground level pollutants, e.g. CO, Radon etc.to be drawn inside the buildings.
Release of odor (Bioaerosols) and other pollutants.
Pull outside polluted air from vents, cracks and openings and increase dust, pollen etc.
Causes “Sick Building Syndrome”.

9. Poorly Designed Air Conditioning Systems
Results into the production of fungi, molds and other sickness causing microbes.

10. Reduction in oxygen level of spaces.
Problems of IAQ
Enclosed spaces inhabited by humans produce following effects-
Reduction in oxygen level of spaces.
Increase in CO2 level.
Increase in temperature.
Increase in humidity
Increase in Bioaerosols and odor

11. Sources of Indoor Air Pollution in a Typical Office Building

12. Sources of Indoor Air Pollution in a Typical Household

13. Hard Facts Fresh air contains 21.0% (v/v) O2
Exhaled air contains 17.0% (v/v) O2 and 83.0 % (v/v)
CO2
An adult emits 45 gm sweat / hour containing
bioaerosols.
An adult produces 300 BTU of heat / hour.
Carbon based gaseous pollutants (VOCs) indoors are 2 to
5 times higher than outdoors.

14. Poor IAQ Results

15. Indoor Air Pollutants and Their Health Effects
Limits
NO2
Type: Immediate
Causes: irritation to the skin, eyes and throat, cough etc.
0.05 ppm (avg. over one year for 8 hours exposure daily)- EPA CO
Causes: headache, shortness of breath, higher conc. May cause sudden deaths.
9.0 ppm (avg. over 8 hours period)- EPA
RSPM
Type: Cumulative
Causes: Lung cancer
150 µg/ m3 (24 hr. average)
SO2
Causes: lung disorders and shortness of breath
Radon
>/ 4 pCi/ Litre of indoor air
Formaldehyde
Causes: irritation to the eyes, nose and throat, fatigue, headache, skin allergies, vomiting etc.
120  g/ cu.m. (continuous exposure)- ASHRAE
Asbestos
>/ 2 fibers/ cu.cm. Of the indoor air (8 hrs. exposure period)- OSHA
Pesticides
Causes: Skin diseases -
VOCs
Causes: Liver, kidney disorders, irritation to the eyes, nose and throat, skin rashes and respiratory problems.
Not for all VOCs.
For chlordane:
5 g/cu.m.(continuous exposure))
CO2
Surrogate index of ventilation
1000 ppm O3
Causes: eyes itch, burn, respiratory disorders, lowers our resistance to colds and pneumonia.
100  g/cu.m (continuous exposure)- OSHA

16. Standards(BASED ON WHO GUIDELINES)
Pollutants
Concentration reported
Concentrations of limited or no concern
Concentration of concern
Remarks
Respirable particulates
0.05 – 0.7
<0.1
>0.015
Japanese standard 0.15 mg/m3 CO
1-1.5
<2
>5
Indicator for eye irritation(only from passive smoking)
NO2
0.05 – 1
<0.19
>0.32
 ----  
2% COHb
3%COHb
99.9%
1-100
<11
>30
Continuous exposure
Formaldehyde
0.05 – 2
<0.06
>0.12
Long- and Short- term
SO2
0.02 – 1
<0.5
>1.35
SO2 alone, short-term
CO2
500 – 5000 ppm
<1000 ppm
>1000 ppm
Occupancy indicator O3
<1800
>12000
Japanese standard 1800 mg/m3
Asbestos
<10 fibres/m3 0
105 fibre/m
For long Exposure
* typical ranges of concentration is given in mg/m3, unless otherwise indicated

17. Parameters Affecting IAQ
Rate of exchange of air from outdoors (ventilation)
Concentration of pollutants in outdoor air
Rate of emission from sources indoors
Rate of removal of pollutants (Sinks)
Indoor temperature
Indoor humidity
Age of indoor structure
Type of foundation soil

18. Steps for Investigating IAQ Problems
Document employee health complaints.
Examine floor plans and ventilation system specifications.
Analysis of data collected from above steps for SBS score calculations.
Study of building layout, position and location of windows, doors, vents, openings etc.
Ventilation measurement.
Monitoring of indoor pollutants and other environmental parameters and development of IAQ model.
Develop a plan for reducing and eliminating the IAQ problem.

19. Why ventilation is needed indoors?
What is Ventilation??
A process, whereby air is supplied and removed from an indoor space by natural or mechanical means.
Why ventilation is needed indoors?
To remove heat or moisture OR to reduce the concentration of one OR more indoor pollutants
Types of Ventilation
Natural
Mechanical

20. Natural Ventilation Involves
Infiltration: random/ intentional flow of outdoor air through windows, cracks and a variety of openings in the buildings.
Exfiltration: movement of air from indoor spaces to outdoor.
Limitation of Natural Ventilation
Fairly inefficient as it is NOT UNIFORMLY distributed. Air doesn’t circulate evenly and stale air gets collected in some dead end spaces.
It brings POLLENS & OTHER POLLUTANTS from outside air.
Maximum energy loss occurs as NO CONSERVATION of energy can be done.

21. Mechanical ventilation
It involves use of fans and heating / air conditioning equipments.
Principle of mechanical ventilation
Pulling fresh air from outside to indoor spaces.
Exhaust stale air.
Control temperature and humidity inside.

22. Air Flow Inside the Buildings
Air out
Air flow pattern, when natural ventilation occurs
Air in
Stagnation zone
Air flow, when uniform mixing inside (mechanical ventilation)

23. Ventilation Measurement
In naturally ventilated buildings
By Infiltration measurement.Infiltration is reported as air change per hour (ACH) – the average rate at which indoor air is replaced by fresh outdoor air.ACH is a rough guideline for different building conditions, given by ASHRAE. For e.g., in “air tight buildings” ACH is 0.1 to 0.2, in “leaky building”, ACH is 2.0 to 3.0. ASHRAE model for measuring infiltration in naturally ventilated buildings is –
I = ln (CO / Ci) / t
Tracer gas technique is employed to measure infiltration. Non reactive gases, e.g. SF6/NO are used as tracer gases with the assumption that the loss of tracer gas is only due to ventilation/ exfiltration.
In mechanically ventilated buildings
ACH is measured by CO2 concentration. It is a good surrogate index to determine the proper ventilation in HVAC buildings. ASHRAE model for measuring infiltration in HVAC buildings is –
Q = G/ Ci – Ca
Minimum recommended ventilation rate by ASHRAE is 8L/sec. per person to maintain the indoor concentration of CO2 as 700 ppm.

24. Parameters for Natural Ventilation
Air Flow- occurs mainly due to two driving forces
1. Pressure Gradient – Difference in outdoor and indoor pressure (varies with building shape, size, openings, wind direction, local environmental densities, neighbour building’s configuration, topography etc.)
2. Temperature Gradient (Buoyancy Forces)- when the inside air temperature is higher than outside air, the warm air at floor surface starts rising and the cool air starts entering as a result of vaccum created at floor surface. This effect is called as “Stack Effect”.

25. Parameters for Mechanical Ventilation
Infiltration air
Exfiltration air
Recirculated air
Exhaust air
Makeup air

26. What is sick building syndrome?
The feeling of illness among majority of occupants of a conditioned space is called “Sick Building Syndrome”. A variety of illness symptoms reported by occupants in sick buildings are –
Headache, fatigue, irritation in eyes, nose and throat, shortness of breathe etc.
Causes
Inadequate ventilation – insufficient supply of outside air; poor mixing; fluctuations in temperature & humidity; air filtration problem due to lack of maintenance of HVAC systems.
The CO2 level indicates the ventilation efficiency of buildings. Building shows SBS symptoms, if CO2 concentration > 1000 ppm.

29. Thank you