Dust: Difference between revisions

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Domestic dust

Composition and types

The precise composition of domestic dust may vary widely:

The quantity and composition of house dust varies greatly with seasonal and environmental factors such as the surroundings, exchange of outside air, age of the house, building materials and their condition, and the quantity of furniture and carpets, as well as their state of preservation. The composition of dust also depends upon the ventilation, and heating systems, cleaning habits, activities of the occupants or users of a room, etc. House dust consists of inorganic and organic matter, and the relative proportions of these components may vary considerably. Kindergartens dust often consists almost entirely of inorganic materials like sand, loam, and clay from sand pits. On the other hand, house dust from the homes of animal owners with worn out carpets consists nearly completely of organic material. In a study of 318 house samples, the proportion of organic matter ranged from between <5% and >95% (Butte and Walker, 1994). Fergusson, et al. (1986) reported the organic content of house dust from 11 homes in Christchurch, New Zealand, ranged from 25.7% to 56.5%. Floor dust from seven Danish offices had a mean organic fraction of 33% (Mølhave et al., 2000).^[1]

According to the German Environmental Survey, approximately 6 mg/m²/day of house dust is formed in private households,^[2] depending primarily on the amount of time spent at home. Nearly 1000 dust particles per square centimeter settle on domestic surfaces every hour.^[3] Some dust consists of human skin. Scientists estimate that humans shed the entire outer layer of skin every day or two, at a rate of 7 million skin flakes per minute, which corresponds to a mass emission rate of about 20 mg/minute.^[4] "Dust bunnies" are little clumps of fluff that form when sufficient dust accumulates.

Three years of use without cleaning has caused this laptop heat sink to become clogged with dust, rendering the computer unusable due to possibility of overheating

Domestic dust and humans

Insects and other small fauna found in houses subtly interact with dust and may have adverse impact on the health of the regular occupants^{[citation needed]}.

Dust may worsen hay fever. Circulating outdoor air through a house by keeping doors and windows open, or at least slightly ajar, may reduce the risk of hay fever causing dust. In colder climates, occupants seal even the smallest air gaps, and eliminate outside fresh air circulating inside the house. So it is essential to manage dust and airflow.

House dust mites exist on all indoor surfaces and even suspended in the air. They feed on minute particles of organic matter, the main constituent of house dust. Dust mites flourish in the fibers of bedding, furniture, and carpets. They excrete enzymes to digest the organic particles, and excrete feces, that together become part of the house dust, and may provoke allergic reactions in humans.

Alternately, the hygiene hypothesis posits that the modern obsession with cleanliness is as much a problem as house dust mites. The hygiene hypothesis argues that our lack of prior pathogenic exposure may in fact encourage the development of ailments including hay fever and asthma.^[5][6]

Atmospheric dust

Large dust storm over Libya

Airborne dust is considered an aerosol and can have a strong local radiative forcing on the atmosphere and significant effects on climate. In addition, if enough minute particles are dispersed within the air in a given area (such as flour or coal dust), under certain circumstances can cause an explosion hazard.

Coal dust is responsible for the lung disease known as Pneumoconiosis, including black lung disease, that occurs among coal miners. The danger of coal dust resulted in environmental legislation regulating work place air quality in some jurisdictions.

Road dust

Dust kicked up by vehicles traveling on roads,^[7] may make up 33% of air pollution^[8] Road dust consists of deposition of vehicle exhausts and industrial exhausts, tire and brake wears, dust from paved roads or potholes, and dust from construction sites.^[9] Road dust represents a significant source contributing to the generation and release of particulate matter into the atmosphere.^[10] Control of road dust is a significant challenge in urban areas, and also in other spheres with high levels of vehicular traffic upon unsealed roads such as mines and garbage dumps. Road dust may be suppressed by mechanical methods like sweeping vehicles,^[11] with vegetable oils,^[12] or with water sprayers.

Dust control

Dust control is the suppression of solid particles with diameters less than 500 micrometers. Dust in the airstream poses a serious health threat to children,^[13] older people, and those with respiratory illnesses.

Control of domestic dust

House dust can become airborne easily. Care should be exercised when removing dust to avoid causing the dust to become airborne. Some dust removing devices trap some dust, but broadcast some dust into the air, which may settle in the cleaner's lungs, and make the activity hazardous^{[citation needed]}. One way to repel dust is with an electrical charge ^{[citation needed]}. Water-trap vacuums eliminate the risk of broadcasting dust by drowning the dust particles in water. Dust can't escape the container to fly back into the air.

Control of atmospheric dust

The U. S. Environmental Protection Agency (EPA) mandates facilities that generate dust minimize or mitigate the production of dust in their operation. The most frequent dust control violations occur at new residential housing developments in urban areas. United States Federal law requires that construction sites obtain permits to conduct earth moving, and include plans to control dust emissions. Control measures include such simple practices as spraying construction and demolition sites with water, and preventing the tracking of dust onto adjacent roads. US federal laws require dust control on sources such as vacant lots, unpaved parking lots, and unpaved roads. Dust in such places may be suppressed by mechanical methods ^{[citation needed]}, including paving or laying down gravel, or stabilizing the surface with water, vegetable oils^[12] or other dust suppressants, or by using water misters to suppress dust that is already airborne ^{[citation needed]}.

Dust in other contexts

• Dust Accelerates Snowmelt in the San Juan Mountains
• 
  2005 (Less dust)
• 
  2006 (More dust)
• 
  2008 (Less dust)
• 
  2009 (More dust)

Dust in outer space

Cosmic dust is widely present in space, where gas and dust clouds are primary precursors for planetary systems. The zodiacal light seen in the dark night sky, is produced by sunlight reflected from particles of dust in orbit around the Sun. The tails of comets are produced by emissions of dust and ionized gas from the body of the comet. Dust also covers solid planetary bodies, and vast dust storms occur on Mars that cover almost the entire planet. Interstellar dust is found between the stars, and high concentrations produce diffuse nebulae and reflection nebulae.

Dust is widely present in the galaxy. Ambient radiations heats dust and re-emits dust into the microwave band, which may distort the cosmic microwave background power spectrum. Dust in this regime has a complicated emission spectrum, and includes both thermal dust emission and spinning dust emission.^[14]

Dust samples returned from outer space may provide information about conditions in the early solar system. Several spacecraft have sought to gather samples of dust and other materials. Among these craft was Stardust, which flew past Comet Wild 2 in 2004, and returned a capsule of the comet's remains to Earth in January 2006. The Japanese Hayabusa spacecraft is on a mission to collect samples of dust from the surface of an asteroid.

See also

• Contamination control
• Dust explosion
• Medical geology
• Mineral dust

Notes

1. Lidia Morawska, Tunga Salthammer, (2003), Indoor Environment: Airborne Particles and Settled Dust, page 409. Wiley-VCH.
2. George W. Ware, (2002), Reviews of Environmental Contamination and Toxicology, page 4. Springer.
3. Cite error: The named reference hesskosa was invoked but never defined (see the help page).
4. Heinsohn, R., Cimbala, J., (2003) Indoor Air Quality Engineering: Environmental Health and Control of Indoor Pollutants. page 146. CRC Press.
5. http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=416594
6. http://healthlink.mcw.edu/article/1031002421.html
7. http://www.sciencedaily.com/releases/1999/11/991130062843.htm
8. http://www.hinduonnet.com/2007/10/27/stories/2007102759600100.htm
9. http://www.cleanair.hamilton.ca/events/street-sweeping-study.asp
10. http://www.ec.gc.ca/pdb/npri/consultations/2006/Road_Dust_e.cfm
11. http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=936477
12. http://www.usroads.com/journals/rmej/9806/rm980604.htm
13. "Dust mites in the humid atmosphere of Bangalore trigger around 60% of asthma" [1]
14. D. P. Finkbeiner, M. Davis and D. J. Schlegel (1999). "Extrapolation of Galactic Dust Emission at 100 Microns to CMBR Frequencies Using FIRAS". Astrophys. J. 524: 867. arXiv:astro-ph/9905128

References

• Holmes, Hannah; (2001)The Secret Life of Dust. Wiley. ISBN 0-471-37743-0
• Steedman, Carolyn; (2002) Dust. Manchester University Press. ISBN 978-0719060151

External links

• The Bibliography of Aeolian Research
• The German Asthma & Allergy Federation (DAAB) Template:De icon