Research of cyclone characteristics for dry cleaning of gases from dust

• Autorzy: Cheilytko, Andrii , Ilin, Sergii
• Języki publikacji: EN

Abstrakty

EN

The development and application of new, more efficient dust collection units that will help reduce emissions and conserve some very valuable resources for production is an important area of research. With the growth of innovation in technological enterprises, the number of harmful emissions into the atmosphere is growing. Thus, the ecological condition of the environment deteriorates. The basic analytical dependences which are necessary for construction of a technique of carrying out experiments and calculations of dust catching for concrete working conditions are developed. Methods of calculating cyclones as vortex devices and research of cyclone operation for air purification from dust were investigated. On the basis of the used basic theoretical positions of heat and mass transfer and thermodynamics at carrying out analytical researches the mathematical model was offered. Calculations of new designs of modern cyclones to obtain their geometric dimensions, resistance and dust capture efficiency were presented. Modern cyclones are designed to more effectively remove dust from the air during various types of work.

Słowa kluczowe

EN

modern cyclone; dust collection; mathematical modelling

• Czasopismo: Journal of New Technologies in Environmental Science
• Rocznik: 2020
• Tom: Vol. 4, nr 3
• Strony: 134--142
• Opis fizyczny: Bibliogr. 10 poz., wykr., wzory

Twórcy

autor

Cheilytko, Andrii

• Zaporizhzhya National University, Ukraine

autor

Ilin, Sergii

• Zaporizhzhya National University, Ukraine

Bibliografia

• [1] Schaurberger V., The Energy Evolution: Harnessing Free Energy from Nature, ed. by Coast C., Gill & Macmillan Ltd., 2000, p. 268.
• [2] Taleyarkhan R.P., Evidence for Nuclear Emissions During Acoustic Cavitation, Science, 8 March 2002, 295 (5561), pp. 1868-1873, doi:10.1126/science.1067589.
• [3] Meyer E. Kuttruff H., Zur Phasenbeziehung zwischen Sonolumineszenz und Kavitations-vorgang bei periodischer Anregung, Zeit. Angew. Phys, 1959, 11, pp. 325-333.
• [4] Jones S.E., Palmer E.P., Czirr J.B., Decker D.L., Jensen G.L., Thorne J.M., Rafelski J., Observation of cold nuclear fusion in condensed matter, Nature, 27 April 1989, 338 (6218), pp. 737-740, doi:10.1038/338737a0.
• [5] The Race for Cold Fusion, Cold Fusion, Princeton University Press, 1991, pp. 52-69, doi:10.1515/9781400861606.52.
• [6] Sorokodum E., On general nature of forces, New Energy Technologies, January-February 2002, 1 (4), pp. 30-36.
• Golubtsov VM Calculation of the twist angle at the outlet of vortex gas burners // Gas industry. 1976. No 7. 44с.
• [7] Golubtsov V.M., To calculate the number of vortex blades of vortex burner devices/Heat Power Engineering, pp. 73-75.
• [8] Petrakov A.D., Sannikov S.T., Yakovlev O.P., Rotornyi nasos - teplogenerator, patent RF 2159901: MPK 7 F24J3/00, F25B30/00. Appl. No. 98115256/06. Filed 07.08.1998. Bull. No. 12.
• [9] Petrakov A.D., Radchenko S.M., Yakovlev O.P., Assignee: Limited Liability Company “Radex”, 20.04.2003, Rotornyi gidroudarnyi nasos - teplogenerator, patent RF 2202743: MPK 7 F24J3/00, Appl. No. 2001115428/06, Filed 07.06.2001.

Uwagi

1. Błędna numeracja bibliografii.

2. Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).

Identyfikatory

DOI

10.53412/jntes-2020-3.4