Coandă effect (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Coandă effect" in English language version.

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16doi.org

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answers.com

"Coandă effect". Columbia Electronic Encyclopedia (6th ed.). 2013. Archived from the original on 2012-01-18.

books.google.com

Eisner, Thomas (2005), For Love of Insects, Harvard University Press, p. 177, ISBN 978-0-674-01827-3

doi.org

"The Coanda effect is a phenomenon that was first observed in 1910 by a mathematician and engineer named Henri Coandă. He discovered that when air was ejected from a rectangular nozzle, it would attach itself to an inclined flat plate connected to the nozzle exit. Emphasizing the need for a sharp angle between the nozzle and the flat plate, Coandă then applied the principle to a series of deflecting surfaces, each at a sharp angle to the previous one, and succeeded in turning flows through angles as large as 180. He stated that "when a jet of fluid is passed over a curved surface, it bends to follow the surface, entraining large amounts of air as it does so," and this phenomenon has become known as the Coandă Effect.(Lubert 2011, pp. 144–153) Lubert, Caroline (2011), "On Some Recent Applications of the Coanda Effect" (PDF), International Journal of Acoustics and Vibration, 16 (3), doi:10.20855/ijav.2011.16.3286
Reba, Imants (June 1966). "Applications of the Coanda effect". Scientific American. 214 (6): 84–921. Bibcode:1966SciAm.214f..84R. doi:10.1038/scientificamerican0666-84.
Woods, L. C. (1954). "Compressible subsonic flow in two-dimensional channels with mixed boundary conditions". Quarterly Journal of Mechanics and Applied Mathematics. 7 (3): 263–282. doi:10.1093/qjmam/7.3.263.
Bourque, C.; Newmann, B. G. (August 1960). "Reattachment of a two-dimensional, incompressible jet to an adjacent flat Plate". The Aeronautical Quarterly. 11 (3): 201–232. doi:10.1017/S0001925900001797.
Trancossi et al. 2014, p. 83. Trancossi, Michele; Dumas, Antonio; Das, Shyam Sumantha; Pascoa (2014). "Design methods of Coanda effect nozzle with two streams" (PDF). INCAS Bulletin. 6 (1): 83–95. doi:10.13111/2066-8201.2014.6.1.8.
Das et al. 2014, p. 181–202. Das, Shyam; Abdollahzadeh, M.; Pascoa, Jose; Dumas, A.; Trancossi, M. (2014). "Numerical modeling of coanda effect in a novel propulsive system". The International Journal of Multiphysics. 8 (2): 181–202. doi:10.1260/1750-9548.8.2.181. ISSN 1750-9548.
Subhash & Dumas 2013, pp. 260–272. Subhash, Maharshi; Dumas, Antonio (2013). "Computational Study of Coanda Adhesion Over Curved Surface". SAE International Journal of Aerospace. 6 (1): 260–272. doi:10.4271/2013-01-2302. ISSN 1946-3901.
Trancossi et al. 2016. Trancossi, Michele; Madonia, Mauro; Dumas, Antonio; Angeli, Diego; Bingham, Chris; Das, Shyam Sumanta; Grimaccia, Francesco; Marques, Jose Pascoa; Porreca, Eliana; Smith, Tim; Stewart, Paul; Subhash, Maharshi; Sunol, Anna; Vucinic, Dean (2016). "A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation". European Transport Research Review. 8 (2): 11. Bibcode:2016ETRR....8...11T. doi:10.1007/s12544-016-0198-4. hdl:11380/1116374. ISSN 1867-0717. S2CID 54063478.
Das et al. 2015. Das, Shyam S.; Páscoa, Jose C.; Trancossi, M.; Dumas, A. (2015). "Computational Fluid Dynamic Study on a Novel Propulsive System: ACHEON and Its Integration with an Unmanned Aerial Vehicle (UAV)". Journal of Aerospace Engineering. 29 (1): 04015015. doi:10.1061/(ASCE)AS.1943-5525.0000498. ISSN 0893-1321.
Dragan 2014b, pp. 35–41. Dragan, V. (2014b). "Reynolds number calculation and applications for curved wall jets" (PDF). INCAS Bull. 6 (3): 35–41. doi:10.13111/2066-8201.2014.6.3.4.
Dragan 2014a, p. 25. Dragan, V. (2014a). "Notes regarding the definition and applicability of supercirculation" (PDF). INCAS Bull. 6 (2): 25–32. doi:10.13111/2066-8201.2014.6.2.3.
Ashrafian 2006, p. 300. Ashrafian, Hutan (2006). "The Coanda Effect and Preferential Right Atrial Streaming". Chest. 130 (1): 300. doi:10.1378/chest.130.1.300. ISSN 0012-3692. PMID 16840419.
Qudaisat, I.Y. (2008). "Coanda effect as an explanation for unequal ventilation of the lungs in an intubated patient?". British Journal of Anaesthesia. 100 (6): 859–860. doi:10.1093/bja/aen111. PMID 18483115.
Giles 1977, pp. 273–279. Giles, B. D. (1977). "Fluidics, the Coanda Effect, and some orographic winds". Archiv für Meteorologie, Geophysik und Bioklimatologie, Serie A. 25 (3): 273–279. Bibcode:1977AMGBA..25..273G. doi:10.1007/BF02321800. ISSN 0066-6416. S2CID 124178075.
Hong, Chien-Chong; Choi, Jin-Woo; Ahn, Chong H. (2004). "A novel in-plane passive microfluidic mixer with modified Tesla structures". Lab on a Chip. 4 (2): 109–13. doi:10.1039/b305892a. ISSN 1473-0197. PMID 15052349.
Hong, Chien-Chong; Choi, Jin-Woo; Ahn, Chong H. (2001), "A Novel In-Plane Passive Micromixer Using Coanda Effect", Micro Total Analysis Systems 2001, Springer Netherlands, pp. 31–33, doi:10.1007/978-94-010-1015-3_11, ISBN 9789401038935

espacenet.com

worldwide.espacenet.com

US 4210283 "Dual pattern windshield washer nozzle"

extremetech.com

"US Air Force's 1950s supersonic flying saucer declassified - ExtremeTech". www.extremetech.com.

formula1.com

"McLaren MP4-27 - exhaust positioning". Formula 1. Archived from the original on 2012-03-25.
"2012 season changes". Formula 1. Archived from the original on 2012-03-11.

handle.net

hdl.handle.net

Trancossi et al. 2016. Trancossi, Michele; Madonia, Mauro; Dumas, Antonio; Angeli, Diego; Bingham, Chris; Das, Shyam Sumanta; Grimaccia, Francesco; Marques, Jose Pascoa; Porreca, Eliana; Smith, Tim; Stewart, Paul; Subhash, Maharshi; Sunol, Anna; Vucinic, Dean (2016). "A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation". European Transport Research Review. 8 (2): 11. Bibcode:2016ETRR....8...11T. doi:10.1007/s12544-016-0198-4. hdl:11380/1116374. ISSN 1867-0717. S2CID 54063478.

harc.edu

files.harc.edu

Hydropower in the U.S. Archived 2010-06-21 at the Wayback Machine, Coandă effect used in debris screen design.

harvard.edu

ui.adsabs.harvard.edu

Reba, Imants (June 1966). "Applications of the Coanda effect". Scientific American. 214 (6): 84–921. Bibcode:1966SciAm.214f..84R. doi:10.1038/scientificamerican0666-84.
Trancossi et al. 2016. Trancossi, Michele; Madonia, Mauro; Dumas, Antonio; Angeli, Diego; Bingham, Chris; Das, Shyam Sumanta; Grimaccia, Francesco; Marques, Jose Pascoa; Porreca, Eliana; Smith, Tim; Stewart, Paul; Subhash, Maharshi; Sunol, Anna; Vucinic, Dean (2016). "A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation". European Transport Research Review. 8 (2): 11. Bibcode:2016ETRR....8...11T. doi:10.1007/s12544-016-0198-4. hdl:11380/1116374. ISSN 1867-0717. S2CID 54063478.
Giles 1977, pp. 273–279. Giles, B. D. (1977). "Fluidics, the Coanda Effect, and some orographic winds". Archiv für Meteorologie, Geophysik und Bioklimatologie, Serie A. 25 (3): 273–279. Bibcode:1977AMGBA..25..273G. doi:10.1007/BF02321800. ISSN 0066-6416. S2CID 124178075.

iiav.org

"The Coanda effect is a phenomenon that was first observed in 1910 by a mathematician and engineer named Henri Coandă. He discovered that when air was ejected from a rectangular nozzle, it would attach itself to an inclined flat plate connected to the nozzle exit. Emphasizing the need for a sharp angle between the nozzle and the flat plate, Coandă then applied the principle to a series of deflecting surfaces, each at a sharp angle to the previous one, and succeeded in turning flows through angles as large as 180. He stated that "when a jet of fluid is passed over a curved surface, it bends to follow the surface, entraining large amounts of air as it does so," and this phenomenon has become known as the Coandă Effect.(Lubert 2011, pp. 144–153) Lubert, Caroline (2011), "On Some Recent Applications of the Coanda Effect" (PDF), International Journal of Acoustics and Vibration, 16 (3), doi:10.20855/ijav.2011.16.3286

incas.ro

bulletin.incas.ro

Trancossi et al. 2014, p. 83. Trancossi, Michele; Dumas, Antonio; Das, Shyam Sumantha; Pascoa (2014). "Design methods of Coanda effect nozzle with two streams" (PDF). INCAS Bulletin. 6 (1): 83–95. doi:10.13111/2066-8201.2014.6.1.8.
Dragan 2014b, pp. 35–41. Dragan, V. (2014b). "Reynolds number calculation and applications for curved wall jets" (PDF). INCAS Bull. 6 (3): 35–41. doi:10.13111/2066-8201.2014.6.3.4.
Dragan 2014a, p. 25. Dragan, V. (2014a). "Notes regarding the definition and applicability of supercirculation" (PDF). INCAS Bull. 6 (2): 25–32. doi:10.13111/2066-8201.2014.6.2.3.

japi.org

Rangappa 2009, p. 486. Rangappa, Pradeep (June 2009). "Anaestheisa and Critical Care" (PDF). Journal of the Association of Physicians of India. 57: 486. Archived from the original (PDF) on 2013-03-24.

karmak.org

Jeff Raskin: Coanda Effect: Understanding how wings work. Retrieved 17 November 2017

merriam-webster.com

"Definition of Coanda effect". Merriam-Webster.

nasa.gov

grc.nasa.gov

"Lift from Flow Turning". NASA Glenn Research Center. Archived from the original on 2011-07-05.

nih.gov

pubmed.ncbi.nlm.nih.gov

Ashrafian 2006, p. 300. Ashrafian, Hutan (2006). "The Coanda Effect and Preferential Right Atrial Streaming". Chest. 130 (1): 300. doi:10.1378/chest.130.1.300. ISSN 0012-3692. PMID 16840419.
Qudaisat, I.Y. (2008). "Coanda effect as an explanation for unequal ventilation of the lungs in an intubated patient?". British Journal of Anaesthesia. 100 (6): 859–860. doi:10.1093/bja/aen111. PMID 18483115.
Hong, Chien-Chong; Choi, Jin-Woo; Ahn, Chong H. (2004). "A novel in-plane passive microfluidic mixer with modified Tesla structures". Lab on a Chip. 4 (2): 109–13. doi:10.1039/b305892a. ISSN 1473-0197. PMID 15052349.

semanticscholar.org

api.semanticscholar.org

Trancossi et al. 2016. Trancossi, Michele; Madonia, Mauro; Dumas, Antonio; Angeli, Diego; Bingham, Chris; Das, Shyam Sumanta; Grimaccia, Francesco; Marques, Jose Pascoa; Porreca, Eliana; Smith, Tim; Stewart, Paul; Subhash, Maharshi; Sunol, Anna; Vucinic, Dean (2016). "A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation". European Transport Research Review. 8 (2): 11. Bibcode:2016ETRR....8...11T. doi:10.1007/s12544-016-0198-4. hdl:11380/1116374. ISSN 1867-0717. S2CID 54063478.
Giles 1977, pp. 273–279. Giles, B. D. (1977). "Fluidics, the Coanda Effect, and some orographic winds". Archiv für Meteorologie, Geophysik und Bioklimatologie, Serie A. 25 (3): 273–279. Bibcode:1977AMGBA..25..273G. doi:10.1007/BF02321800. ISSN 0066-6416. S2CID 124178075.

thefreedictionary.com

medical-dictionary.thefreedictionary.com

"Fluidic ventilator".

thermofluids.co.uk

Coanda Effect Retrieved 17 November 2017

ttu.edu

phys.ttu.edu

"Fluid Dynamics by Mihaela-Maria Tanasescu, Texas Tech University". Archived from the original on 2009-08-16. Retrieved 2008-05-25.

web.archive.org

"Coandă effect". Columbia Electronic Encyclopedia (6th ed.). 2013. Archived from the original on 2012-01-18.
Drinkall, Timothy. "Increasing Aerofoil Lift via Artificial Amplification of the Coanda Effect Using Heat". Abstract: Search ISEF Projects Database, Finalist Abstract. Society for Science. Archived from the original on 8 June 2021. Retrieved 8 June 2021.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
"Lift from Flow Turning". NASA Glenn Research Center. Archived from the original on 2011-07-05.
"Fluid Dynamics by Mihaela-Maria Tanasescu, Texas Tech University". Archived from the original on 2009-08-16. Retrieved 2008-05-25.
Hydropower in the U.S. Archived 2010-06-21 at the Wayback Machine, Coandă effect used in debris screen design.
Rangappa 2009, p. 486. Rangappa, Pradeep (June 2009). "Anaestheisa and Critical Care" (PDF). Journal of the Association of Physicians of India. 57: 486. Archived from the original (PDF) on 2013-03-24.
"McLaren MP4-27 - exhaust positioning". Formula 1. Archived from the original on 2012-03-25.
"2012 season changes". Formula 1. Archived from the original on 2012-03-11.

worldcat.org

search.worldcat.org

Das et al. 2014, p. 181–202. Das, Shyam; Abdollahzadeh, M.; Pascoa, Jose; Dumas, A.; Trancossi, M. (2014). "Numerical modeling of coanda effect in a novel propulsive system". The International Journal of Multiphysics. 8 (2): 181–202. doi:10.1260/1750-9548.8.2.181. ISSN 1750-9548.
Subhash & Dumas 2013, pp. 260–272. Subhash, Maharshi; Dumas, Antonio (2013). "Computational Study of Coanda Adhesion Over Curved Surface". SAE International Journal of Aerospace. 6 (1): 260–272. doi:10.4271/2013-01-2302. ISSN 1946-3901.
Trancossi et al. 2016. Trancossi, Michele; Madonia, Mauro; Dumas, Antonio; Angeli, Diego; Bingham, Chris; Das, Shyam Sumanta; Grimaccia, Francesco; Marques, Jose Pascoa; Porreca, Eliana; Smith, Tim; Stewart, Paul; Subhash, Maharshi; Sunol, Anna; Vucinic, Dean (2016). "A new aircraft architecture based on the ACHEON Coanda effect nozzle: flight model and energy evaluation". European Transport Research Review. 8 (2): 11. Bibcode:2016ETRR....8...11T. doi:10.1007/s12544-016-0198-4. hdl:11380/1116374. ISSN 1867-0717. S2CID 54063478.
Das et al. 2015. Das, Shyam S.; Páscoa, Jose C.; Trancossi, M.; Dumas, A. (2015). "Computational Fluid Dynamic Study on a Novel Propulsive System: ACHEON and Its Integration with an Unmanned Aerial Vehicle (UAV)". Journal of Aerospace Engineering. 29 (1): 04015015. doi:10.1061/(ASCE)AS.1943-5525.0000498. ISSN 0893-1321.
Ashrafian 2006, p. 300. Ashrafian, Hutan (2006). "The Coanda Effect and Preferential Right Atrial Streaming". Chest. 130 (1): 300. doi:10.1378/chest.130.1.300. ISSN 0012-3692. PMID 16840419.
Giles 1977, pp. 273–279. Giles, B. D. (1977). "Fluidics, the Coanda Effect, and some orographic winds". Archiv für Meteorologie, Geophysik und Bioklimatologie, Serie A. 25 (3): 273–279. Bibcode:1977AMGBA..25..273G. doi:10.1007/BF02321800. ISSN 0066-6416. S2CID 124178075.
Hong, Chien-Chong; Choi, Jin-Woo; Ahn, Chong H. (2004). "A novel in-plane passive microfluidic mixer with modified Tesla structures". Lab on a Chip. 4 (2): 109–13. doi:10.1039/b305892a. ISSN 1473-0197. PMID 15052349.