FILTRLOVCHI NOTO‘QIMA MATERIALLARDA G‘OVAKDORLIK VA DINAMIK ZICHLIK O‘RTASIDAGI BOG‘LIQLIKNI KOMPLEKS BAHOLASH USULI
Keywords:
noto‘qima material, g‘ovakdorlik, zichlik, filtratsiya, kapillyar singdirish, dinamik zichlikAbstract
Mazkur tadqiqotda filtrlovchi noto‘qima materiallarning g‘ovakdorligi va zichligini kompleks baholashga asoslangan yangi usul taklif etildi. Usul geometrik parametrlar, kapillyar singdirish va siqilish sharoitidagi o‘zgarishlarni hisobga olishga qaratilgan. Ilk bor dinamik zichlik tushunchasi kiritilib, materialning real ekspluatatsion holatdagi xususiyatlari baholandi. Shuningdek, samarali g‘ovakdorlik va filtratsion zichlik indeksi kabi yangi ko‘rsatkichlar taklif etildi. Tajriba natijalari g‘ovakdorlik kamayishi bilan dinamik zichlik ortishini ko‘rsatdi. Olingan ma’lumotlar asosida g‘ovakdorlik va zichlik o‘rtasida empirik bog‘liqlik aniqlandi. Ushbu bog‘liqlik material tuzilishi va filtratsion samaradorlik o‘rtasidagi munosabatni tushuntirish imkonini beradi. Taklif etilgan usul an’anaviy usullarga nisbatan aniqroq va ishonchliroq natijalar beradi. Usul laboratoriya sharoitida oson amalga oshiriladi va sanoatda qo‘llashga mos hisoblanadi. Natijalar noto‘qima filtr materiallarni optimallashtirishda muhim ahamiyatga ega.
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References
1. Albrecht W., Fuchs H., Kittelmann W.Nonwoven Fabrics: Raw Materials, Manufacture, Applications. — Cambridge: Woodhead Publishing, 2003. — 560 p. (pp. 45–78).
2. Russell S. J.Handbook of Nonwovens. — Cambridge: Woodhead Publishing, 2007. — 620 p. (pp. 120–165).
3. Seville J. P. K., Clift R., Hartley R.Dust Collection and Air Pollution Control. — Elsevier, 2013. — 410 p. (pp. 89–134).
4. Dullien F. A. L.Porous Media: Fluid Transport and Pore Structure. — Academic Press, 1992. — 574 p. (pp. 210–256).
5. Li Y., Wong A. S. W.Clothing Biosensory Engineering. — CRC Press, 2006. — 320 p. (pp. 98–140).
6. Lee K. W., Liu B. Y. H.Experimental study of aerosol filtration by fibrous filters.
Aerosol Science and Technology, 1982. — Vol. 1(2). — pp. 147–161.
7. Brown R. C.Air Filtration: An Integrated Approach to the Theory and Applications of Fibrous Filters. — Pergamon Press, 1993. — 280 p. (pp. 65–110).
8. Wang N., Si Y., Wang N.Multilevel structured polyacrylonitrile/silica nanofibrous membranes for high-performance air filtration.
ACS Applied Materials & Interfaces, 2014. — Vol. 6(12). — pp. 9490–9497.
9. Hutten I. M.Handbook of Nonwoven Filter Media. — Elsevier, 2007. — 300 p. (pp. 150–210).
10. Kim J., Jang J.Effect of fiber diameter on filtration performance of nonwoven materials.
Textile Research Journal, 2018. — Vol. 88(4). — pp. 435–445.
