Interpreting ACR performance verification standards

Interpreting ACR performance verification standards

Cost-Effective Sanitization Techniques for Duct Systems

Okay, lets talk about understanding ACR standards in duct cleaning, specifically when it comes to figuring out what those performance verification standards actually mean. Because lets be real, just reading the document can feel like deciphering ancient hieroglyphics sometimes.


Think of it this way: ACR, or the ACR Standard (ACR stands for Assessment, Cleaning, and Restoration), basically sets the guidelines for how duct cleaning should be done. Its like the gold standard, and its there to ensure were not just blowing dust around but actually making the air you breathe cleaner. Now, the performance verification part? Thats how we prove the cleaning worked. Its like the final exam after all the studying.


Interpreting these standards isnt just about ticking boxes. Its about understanding the why behind them. Are we looking at visual inspection? Well, that means we need to actually see a difference. Improve airflow with comprehensive duct cleaning Calgary whole home duct cleaning calgary mildew. Are we talking about particle counts? That means understanding what a "clean" particle count actually looks like in your specific situation, considering things like the buildings age and use.


One of the key things is to remember that ACR standards arent necessarily a one-size-fits-all solution. They provide a framework, and its up to the professionals (and sometimes even the homeowner!) to understand how to apply that framework to a particular duct system. A restaurants exhaust duct is going to need a different approach than the ductwork in a home office.


So, when someone says they "meet ACR standards," dont just take their word for it. Ask them how they verified the cleaning. What methods did they use? What were the pre- and post-cleaning results? Understanding the performance verification standards helps you make sure youre not just getting a superficial cleaning, but a real improvement in your indoor air quality. Its about holding the industry accountable and making sure youre breathing easier, literally. And honestly, isnt that the whole point?

When it comes to evaluating the effectiveness of duct cleaning, Key Performance Indicators (KPIs) play a crucial role. These metrics help us understand how well the cleaning process aligns with industry standards, particularly those set by the Air Conditioning and Refrigeration (ACR) sector. Interpreting ACR performance verification standards through KPIs allows us to gauge the quality of duct cleaning services and ensure they meet the necessary benchmarks for health, safety, and efficiency.


One of the primary KPIs in this context is the particulate matter reduction. This indicator measures the amount of dust, dirt, and other contaminants removed from the duct system. A significant reduction in particulate matter post-cleaning is a clear sign that the cleaning process was effective. This KPI is vital because it directly impacts indoor air quality, which is a major concern for both residential and commercial environments.


Another important KPI is the microbial count before and after cleaning. Ducts can harbor mold, bacteria, and other microorganisms, which can lead to health issues if not properly addressed. By comparing microbial levels pre- and post-cleaning, we can assess the effectiveness of the cleaning process in creating a healthier indoor environment.


Energy efficiency improvement is also a critical KPI. Clean ducts allow for better airflow, which can enhance the efficiency of HVAC systems. This not only leads to cost savings but also reduces the carbon footprint of the building. Monitoring changes in energy consumption before and after duct cleaning can provide valuable insights into the impact of cleaning on overall system performance.


Customer satisfaction is another KPI that shouldnt be overlooked. Feedback from clients regarding the cleanliness of their ducts, the professionalism of the cleaning service, and any noticeable improvements in air quality can provide qualitative data that complements the quantitative KPIs. High customer satisfaction often correlates with effective duct cleaning practices.


Lastly, compliance with ACR standards is a fundamental KPI. Ensuring that the cleaning process adheres to established guidelines and regulations is essential for maintaining industry credibility and trust. This includes proper documentation, use of approved cleaning methods, and adherence to safety protocols.


In conclusion, interpreting ACR performance verification standards through these KPIs offers a comprehensive approach to evaluating duct cleaning services. By focusing on particulate matter reduction, microbial count, energy efficiency, customer satisfaction, and compliance with standards, we can ensure that duct cleaning not only meets but exceeds the expectations for a clean, safe, and efficient indoor environment.

Evaluating the Efficacy of Odor Neutralization Products

Okay, so youre diving into the world of ACR performance verification standards, and how we actually prove were meeting them. Thats where compliance and certification processes come in, and honestly, it can feel a bit like navigating a maze at first. But its all about making sure our imaging equipment is doing what its supposed to do, safely and accurately, for the benefit of patients.


Think of it like this: the ACR sets the bar pretty high for image quality and safety. Their standards are the "what" – what needs to be achieved. Compliance and certification are the "how" – how we demonstrate were actually reaching that bar. Compliance basically means were following the rules, adhering to the ACRs guidelines. Certification is the official stamp of approval, the external validation that says, "Yep, this equipment and this practice are meeting the required standards."


The process usually involves a series of tests and measurements. We're talking about things like checking the accuracy of radiation output, making sure image resolution is sharp and clear, and verifying that dose levels are within acceptable limits. Often, this is done using specialized phantoms – objects designed to mimic human anatomy and allow us to systematically evaluate the performance of the imaging system. So, for example, we might use a phantom to check if we can accurately see small structures, or to measure the amount of radiation exposure during a scan.


Then, all that data is collected and analyzed. We compare the results to the ACRs performance criteria. If everything checks out, we can proceed with the certification process. This often involves submitting documentation to a certifying body or having an independent assessor come in and verify our results. They're looking for evidence that were not just meeting the standards on paper, but that were consistently delivering high-quality, safe imaging services in practice.


Its not a one-time thing either. Compliance and certification are ongoing processes. Equipment needs to be regularly tested and maintained. Procedures need to be reviewed and updated. Staff needs to be trained and competent. Its about building a culture of quality and continuous improvement, making sure were always striving to provide the best possible care for our patients. It might seem like a lot of work, but in the end, its worth it for the peace of mind that comes with knowing were doing things right.

Evaluating the Efficacy of Odor Neutralization Products

Customer Reviews and Testimonials on Affordable Duct Cleaning Services

Okay, lets talk about why sticking to those ACR (American College of Radiology) performance verification standards is a good idea when youre trying to make sense of them. I mean, nobody loves poring over dense technical documents, but trust me, there are real benefits to doing it right.


Think of it like this: the ACR standards are basically a recipe for making sure your imaging equipment is working properly. If you skip steps or substitute ingredients, you might end up with something that looks okay, but it wont be as good as it could be, and worse, it might not be giving you accurate information. Thats a big deal when were talking about medical diagnoses.


One of the biggest benefits of really understanding and adhering to these standards is consistency. If everyone interprets and applies the standards the same way, then the images produced across different facilities and different equipment are all comparable. This is crucial for things like multi-center clinical trials, or even just when a patient moves and needs their previous images reviewed. You want to be confident that the images are being evaluated using a consistent benchmark.


Beyond consistency, adhering to the ACR standards enhances image quality and, ultimately, diagnostic accuracy. These standards often outline specific tests and procedures designed to identify subtle problems with equipment performance before they become major issues. By catching these problems early, you can prevent artifacts, distortions, or other image imperfections that could obscure important details or even lead to misdiagnosis. Nobody wants to miss a subtle nodule because of a faulty detector, right?


Theres also the legal and regulatory aspect. Meeting ACR standards often helps demonstrate compliance with accreditation requirements and regulations. This isnt just about ticking boxes; its about demonstrating a commitment to patient safety and quality care. If something does go wrong, having a solid record of adherence to established standards can be invaluable.


Finally, lets not forget about efficiency. While it might seem like extra work upfront to really understand and follow the ACR guidelines, in the long run, it can save time and resources. By proactively identifying and addressing potential problems, you can avoid costly repairs, reduce the need for repeat exams, and ultimately improve workflow.


So, while interpreting ACR performance verification standards might not be the most glamorous part of the job, the benefits of doing it right – consistency, accuracy, compliance, and efficiency – are pretty compelling. Its about providing the best possible care for our patients, and thats something worth striving for.

A mold (US, PH) or mould (UK, CW) is one of the structures that certain fungi can form. The dust-like, displayed look of molds is due to the development of spores including fungal additional metabolites. The spores are the dispersal systems of the fungis. Not all fungis form mold and mildews. Some fungi create mushrooms; others grow as single cells and are called microfungi (as an example, yeasts). A big and taxonomically diverse variety of fungal types form molds. The development of hyphae results in discoloration and a fuzzy appearance, specifically on food. The network of these tubular branching hyphae, called a mycelium, is considered a solitary organism. The hyphae are typically transparent, so the mycelium looks like really fine, fluffy white strings over the surface area. Cross-walls (septa) may delimit connected compartments along the hyphae, each having one or numerous, genetically similar centers. The dirty texture of numerous mold and mildews is brought on by profuse production of asexual spores (conidia) created by differentiation at the ends of hyphae. The mode of formation and form of these spores is generally made use of to classify mold and mildews. A number of these spores are colored, making the fungi much more obvious to the human eye at this stage in its life-cycle. Molds are germs that do not create a details taxonomic or phylogenetic grouping, but can be discovered in the departments Zygomycota and Ascomycota. In the past, a lot of molds were categorized within the Deuteromycota. Mold and mildew was the common name for water molds or slime molds, which were formerly identified as fungi. Mold and mildews trigger biodegradation of all-natural products, which can be unwanted when it becomes food putridity or damage to building. They also play important functions in biotechnology and food science in the manufacturing of numerous pigments, foods, beverages, anti-biotics, pharmaceuticals and enzymes. Some diseases of pets and people can be caused by particular mold and mildews: condition may result from sensitive level of sensitivity to mold and mildew spores, from growth of pathogenic molds within the body, or from the effects of ingested or breathed in harmful substances (mycotoxins) generated by mold and mildews.

.
For other uses, see Dust (disambiguation).

 

A dust storm blankets houses in Texas, 1935
Global oceanic distribution of dust deposition
Map of dust in 2017
Three years of use without cleaning has caused this laptop heat sink to become clogged with dust, and it can no longer be used.
Domestic dust on a finger

Dust is made of fine particles of solid matter.[1] On Earth, it generally consists of particles in the atmosphere that come from various sources such as soil lifted by wind (an aeolian process), volcanic eruptions, and pollution.

Dust in homes is composed of about 20–50% dead skin cells.[2] The rest, and in offices and other built environments, is composed of small amounts of plant pollen, human hairs, animal fur, textile fibers, paper fibers, minerals from outdoor soil, burnt meteorite particles, and many other materials which may be found in the local environment.[3]

Atmospheric

[edit]
Presentation on imported dust in North American skies
Large dust storm over Libya

Atmospheric or wind-borne fugitive dust, also known as aeolian dust, comes from dry regions where high-speed winds can remove mostly silt-sized material, abrading susceptible surfaces. This includes areas where grazing, ploughing, vehicle use, and other human behaviors have further destabilized the land, though not all source areas have been largely affected by anthropogenic impacts.[4] Dust-producing surfaces cover one-third of the global land area. These are made up of hyper-arid regions like the Sahara, which covers 0.9 billion hectares, and drylands, which occupy 5.2 billion hectares.[5]

Dust in the atmosphere is produced by saltation and abrasive sandblasting of sand-sized grains, and it is transported through the troposphere. This airborne dust is considered an aerosol, and once in the atmosphere, it can produce strong local radiative forcing. Saharan dust, in particular, can be transported and deposited as far as the Caribbean and the Amazon basin and may affect air temperature, cause ocean cooling, and alter rainfall amounts.[4]

Middle East

[edit]

Dust in the Middle East has been a historic phenomenon. Recently, because of climate change and the escalating process of desertification, the problem has worsened dramatically. As a multi-factor phenomenon, there is not yet a clear consensus on the sources or potential solutions to the problem.

Iran

[edit]

The dust in Iraq and Iran are migratory systems that move from west to east or east to west in the spring and have the highest intensity, concentration, and extent until mid-summer. The causes of their occurrence are the lack of humidity, dry environment, low rainfall, and annual droughts. Due to the decrease of rainfall in areas such as Iraq and Syria, most of the dust in Iran also originates from the regions of Iraq, Syria, and Jordan.[6]

In addition to the foreign foci, there are areas inside the country that have either formed new dust foci in recent years or were from the past and their extent has increased. Among these areas, parts of southern Tehran, south of Alborz province – which in the past were plains, riverbeds, seasonal lakes, and seasonal reservoirs – and Gavkhoni wetland of Isfahan province can be mentioned because they have become dry and prone to dust. Among other areas that have become dust centers, Qom province, the Qom salt lake and its surroundings can be mentioned, as well as the Urmia lake, which due to strong winds and due to the dryness of the lake and the reduction of its size, some areas of its bed which were underwater in the past are subject to wind erosion.[6]

In Iran, the dust directly affects more than 5 million people and has become a serious government issue recently. In the Khuzestan province, it has led to the severe increase of air pollution. The amount of pollutants in the air has surpassed more than 50 times the normal level several times in a year. Recently, initiatives such as Project-Dust have been established to study dust in the Middle East directly.[citation needed]

The continuation of drought has caused water scarcity or drying up of some wetlands and lakes such as Hamon and Urmia Lake. This has turned them into centers of dust.[6]

Director General of the Office of Desert Affairs of Iran's Natural Resources and Watershed Organization stated that according to the data of the 2018 studies, 30 million hectares of land in the country are affected by wind erosion, and 14 million hectares of this area are considered to be the focal points of wind erosion, which causes serious damage to infrastructure.[7]

Roads

[edit]
Main article: Road debris

Dust kicked up by vehicles traveling on roads is a significant source of harmful air pollution.[8] Road dust consists of deposits of vehicle and industrial exhaust gas, particles from tire and brake wear, dust from paved roads or potholes, and dust from construction sites. Road dust is a significant contributor to the generation and release of particulates into the atmosphere.[9] Control of road dust is a significant challenge in urban areas, and also in other locations with high levels of vehicular traffic upon unsealed roads, such as mines and landfills.

"Engine exhaust emissions, especially from those operating on diesel fuel, can be a significant source of fine particle generation from construction sites." Construction and demolition activities can also produce a large amount of construction waste. The dust and particulates can become fugitive and airborne with vehicle movements both on and outside the sites, especially when it is windy and dry.[10]

Road dust may be suppressed by mechanical methods like street sweeper, vehicles equipped with vacuum cleaners,[11] vegetable oil sprays,[12] or with water sprayers. Calcium chloride can be used. Improvements in automotive engineering have reduced the amount of PM10s produced by road traffic; the proportion representing re-suspension of existing particulates has increased as a result.

Coal

[edit]

Coal dust is responsible for the respiratory disease known as pneumoconiosis, including coal worker's pneumoconiosis disease that occurs among coal miners. The danger of coal dust resulted in environmental law regulating workplace air quality in some jurisdictions. In addition, if enough coal dust is dispersed within the air in a given area, in very rare circumstances, it can cause a dust explosion. These circumstances are typically within confined spaces.

 

Control

[edit]

Atmospheric

[edit]
Tarps and netting are often used to reduce the amount of dust released from construction sites.

Most governmental Environmental Protection Agencies, including the United States Environmental Protection Agency (EPA) mandate that facilities that generate fugitive 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 planning permissions to conduct earth moving and clearing of areas, so that plans to control dust emissions while the work is being carried out are specified. Control measures include such simple practices as spraying construction and demolition sites with water, and preventing the tracking of dust onto adjacent roads.

Some of the issues include:[citation needed]

  • Reducing dust related health risks that include allergic reactions, pneumonia and asthmatic attacks.
  • Improving visibility and road traffic safety.
  • Providing cleaner air, cleaner vehicles and cleaner homes and promoting better health.
  • Improving agricultural productivity.[citation needed]
  • Reducing vehicle maintenance costs by lowering the levels of dust that clog filters, bearings and machinery.
  • Reducing driver fatigue, maintenance on car suspension systems and improving fuel economy in automobiles.
  • Increasing cumulative effects—each new application builds on previous progress.

US federal laws require dust control on sources such as vacant lots, unpaved parking lots, and dirt 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]

Domestic

[edit]
House dust under a microscope
Domestic dust on a ribbon
A video on reducing dust exposure in the workplace

Dust control is the suppression of solid particles with diameters less than 500 micrometers (i.e. half a millimeter). Dust poses a health risk to children,[13] older people, and those with respiratory diseases.

House dust can become airborne easily. Care is required when removing dust to avoid causing the dust to become airborne. A feather duster tends to agitate the dust so it lands elsewhere[citation needed].

Certified HEPA (tested to MIL STD 282) can effectively trap 99.97% of dust at 0.3 micrometers. Not all HEPA filters can effectively stop dust; while vacuum cleaners with HEPA filters, water, or cyclones may filter more effectively than without, they may still exhaust millions of particles per cubic foot of air circulated. Central vacuum cleaners can be effective in removing dust, especially if they are exhausted directly to the outdoors.

Air filters differ greatly in their effectiveness. Laser particle counters are an effective way to measure filter effectiveness; medical grade instruments can test for particles as small as 0.3 micrometers. In order to test for dust in the air, there are several options available. Pre-weighed filter and matched weight filters made from polyvinyl chloride or mixed cellulose ester are suitable for respirable dust (less than 10 micrometers in diameter).[14]

Dust resistant surfaces

[edit]

A dust resistant surface is a state of prevention against dust contamination or damage, by a design or treatment of materials and items in manufacturing or through a repair process [citation needed]. A reduced tacticity of a synthetic layer or covering can protect surfaces and release small molecules that could have remained attached. A panel, container or enclosure with seams may feature types of strengthened structural rigidity or sealant to vulnerable edges and joins.

Outer space

[edit]

Cosmic dust is widely present in outer space, where gas and dust clouds are the primary precursors for planetary systems. The zodiacal light, as seen in a 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 can occur on Mars which 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 radiation heats dust and re-emits radiation 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.[15]

Dust samples returned from outer space have provided information about conditions of the early solar system. Several spacecraft have sought to gather samples of dust and other materials. Among these craft was Stardust, which flew past 81P/Wild in 2004, and returned a capsule of the comet's remains to Earth.[16] In 2010 the Japanese Hayabusa spacecraft returned samples of dust from the surface of an asteroid.[17]

[edit]
  • Dry, windy weather sends clouds of dust across south-eastern Australia.
    Dry, windy weather sends clouds of dust across south-eastern Australia.
  • A pale brown plume of dust sweeps out of Argentina's Pampas.
    A pale brown plume of dust sweeps out of Argentina's Pampas.
  • A thick dust plume over Kuwait and the north-western tip of the Persian Gulf
    A thick dust plume over Kuwait and the north-western tip of the Persian Gulf

Dust mites

[edit]
Further information: Dust mite allergy

House dust mites are present indoors wherever humans live.[18] Positive tests for dust mite allergies are extremely common among people with asthma. Dust mites are microscopic arachnids whose primary food is dead human skin cells, but they do not live on living people.[19] They and their feces and other allergens are major constituents of house dust, but because they are so heavy they are not suspended for long in the air. They are generally found on the floor and other surfaces until disturbed (by walking, for example).[18] It could take between twenty minutes and two hours for dust mites to settle back out of the air.

Dust mites are a nesting species that prefer a dark, warm, and humid climate. They flourish in mattresses, bedding, upholstered furniture, and carpets.[20] Their feces include enzymes that are released upon contact with a moist surface, which can happen when a person inhales, and these enzymes can kill cells within the human body.[21] House dust mites did not become a problem until humans began to use textiles, such as western style blankets and clothing.[22]

See also

[edit]
  • Mineral dust
  • Sawdust
  • Moondust
  • Adhesion force measurement of powders
  • Medical geology
  • Nephelometer
  • Contamination control
  • Occupational dust exposure
  • Dust bunny
  • Lint (material)
  • Dust explosion
  • Hanānā

References

[edit]
  1. ^ Dust. Merriam-Webster. Archived from the original on March 14, 2017. Retrieved May 17, 2021.
  2. ^ van Bronswijk, J. E. M. H. (1981). House Dust Biology for Allergists, Acarologists and Mycologists. J. Bronswijk. p. 37. ISBN 9789027535016. OCLC 9757081.
  3. ^ Hess-Kosa, Kathleen (2002). Indoor air quality: sampling methodologies. Boca Raton, Florida: CRC Press. p. 216. ISBN 9781566705394. OCLC 634141112.
  4. ^ a b Middleton, N. J.; Goudie, A. S. (June 2001). "Saharan dust: Sources and trajectories". Transactions of the Institute of British Geographers. 26 (2). London: 165–181. Bibcode:2001TrIBG..26..165M. doi:10.1111/1475-5661.00013. ISSN 0020-2754.
  5. ^ Jickells, T. D.; An, Z. S.; Andersen, K. K.; Baker, A. R.; Bergametti, G.; Brooks, N.; Cao, J. J.; Boyd, P. W.; Duce, R. A.; Hunter, K. A.; Kawahata, H.; Kubilay, N.; Laroche, J.; Liss, P. S.; Mahowald, N.; Prospero, J. M.; Ridgwell, A. J.; Tegen, I.; Torres, R. (April 1, 2005). "Global Iron Connections Between Desert Dust, Ocean Biogeochemistry, and Climate". Science. 308 (5718): 67–71. Bibcode:2005Sci...308...67J. CiteSeerX 10.1.1.686.1063. doi:10.1126/science.1105959. PMID 15802595. S2CID 16985005.
  6. ^ a b c "Continuity of dust in the country" تداوم گرد و غبار در کشور. Tabnak (in Persian). Tabnak. 28 July 2023. Archived from the original on 20 May 2024. Retrieved 9 April 2024.
  7. ^ "What is the key to effectively deal with dust in the country?". Tabnak (in Persian). Tabnak. 28 July 2023. Archived from the original on 20 May 2024. Retrieved 9 April 2024. کد خبر:۱۱۸۵۲۴۶
  8. ^ Khan, Raihan K.; Strand, Mark A. (10 April 2018). "Road dust and its effect on human health: a literature review". Epidemiology and Health. 40: e2018013. doi:10.4178/epih.e2018013. ISSN 2092-7193. PMC 5968206. PMID 29642653.cite journal: CS1 maint: article number as page number (link)
  9. ^ "Environment Canada – Pollution and Waste – Tracking Pollution in Canada". The Green Lane. September 23, 2006. Archived from the original on September 24, 2006. Retrieved May 17, 2021.
  10. ^ "Control of dust from construction and demolition activities" (PDF). p. 12-22. Retrieved 4 Feb 2025.
  11. ^ Peel, G.; Michielen, M.; Parker, G. (July 8–12, 2001). "Some aspects of road sweeping vehicle automation". 2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics. Proceedings (Cat. No.01TH8556). 2001 IEEE/ASME International Conference on Advanced Intelligent Mechatronics. Vol. 1. Como: Institute of Electrical and Electronics Engineers. pp. 337–342. doi:10.1109/AIM.2001.936477. ISBN 978-0-7803-6736-4.
  12. ^ a b "Questions and Answers: Road Dust Control with Soapstock-A Soybean Oil By- Product". Usroads.com. June 1, 1998. Archived from the original on April 3, 2018. Retrieved May 17, 2021.
  13. ^ Kumar, Pooja Virendra (November 6, 2007). "50% Bangalore kids hit by asthma". The Times of India. Archived from the original on November 17, 2020. Retrieved May 17, 2021. Dust mites in the humid atmosphere of Bangalore trigger around 60% of asthma
  14. ^ "What are the Effects of Dust on the Lungs? : OSH Answers". Canadian Centre for Occupational Health & Safety. January 3, 2018. Archived from the original on January 26, 2021. Retrieved May 17, 2021.
  15. ^ P. Finkbeiner, Douglas; Davis, Marc; Schlegel, David J. (October 20, 1999). "Extrapolation of Galactic Dust Emission at 100 Microns to CMBR Frequencies Using FIRAS". The Astrophysical Journal. 524 (2): 867–886. arXiv:astro-ph/9905128. Bibcode:1999ApJ...524..867F. doi:10.1086/307852. OCLC 691250305. S2CID 12187640. Archived from the original on July 27, 2018. Retrieved May 16, 2021.
  16. ^ Hanslmeier, Arnold (2013-01-02). Astrobiology The Search for Life in the Universe. Bentham Science Publishers. p. 104. ISBN 978-1-60805-473-2. Archived from the original on 2022-12-24. Retrieved 2022-12-24.
  17. ^ Ridpath, Ian (2018-04-26). A Dictionary of Astronomy. Oxford University Press. p. 497. ISBN 978-0-19-254261-8. Archived from the original on 2022-12-24. Retrieved 2022-12-24.
  18. ^ a b "Dust Mites". American Lung Association. Archived from the original on 2022-12-23. Retrieved 2022-12-23.
  19. ^ Australia, Healthdirect (2021-09-16). "Dust mites". healthdirect.gov.au. Archived from the original on 2022-12-23. Retrieved 2022-12-23.
  20. ^ Perryman, Oliver (December 14, 2020). "How to Get Rid of Dust Floating in the Air using a Air Purifier?". Dehumidifier Critic. Archived from the original on May 17, 2021. Retrieved May 17, 2021.
  21. ^ Abadi, Sara (August 2009). "Hygiene Habits". AOL Health. AOL. Archived from the original on January 28, 2010. Retrieved May 17, 2021.
  22. ^ Colloff, Matthew J (2009). Dust Mites. Dordrecht: Springer Science+Business Media. doi:10.1007/978-90-481-2224-0. ISBN 978-90-481-2224-0. OCLC 664094692.

Further reading

[edit]
  • Amato, Joseph A (2001). Dust: A History of the Small and the Invisible. University of California Press. ISBN 0-520-23195-3
  • Holmes, Hannah (2001). The Secret Life of Dust. Wiley. ISBN 0-471-37743-0
  • Steedman, Carolyn (2002). Dust. Manchester University Press. ISBN 978-0-7190-6015-1
[edit]
Wikimedia Commons has media related to Dust.
 
Wikiquote has quotations related to Dust.
  • Global map of atmospheric dust
 

 

Air flow, or air flow, is the movement of air. Air behaves in a liquid fashion, implying particles naturally flow from areas of greater pressure to those where the stress is lower. Climatic air pressure is straight pertaining to altitude, temperature, and structure. In engineering, air movement is a measurement of the quantity of air each of time that streams via a specific gadget. It can be called a volumetric flow rate (quantity of air each time) or a mass flow price (mass of air per unit time). What relates both types of description is the air thickness, which is a function of pressure and temperature via the perfect gas regulation. The circulation of air can be caused via mechanical ways (such as by operating an electrical or hand-operated fan) or can occur passively, as a feature of pressure differentials existing in the atmosphere.

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