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The Journal of The Textile Institute Volume 110, 2019 - Issue 6
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Articles

Development of an iterative procedure with a flow solver for optimizing the yarn speed in a main nozzle of an air jet loom

Lucas DelcourDepartment of Flow, Heat and Combustion Mechanics, Faculty of Engineering and Architecture, Ghent University, Ghent, Belgium; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-0485-7701View further author information
ORCID Icon,
Jozef PeetersPicanol NV, Ieper, Belgium; View further author information
&
Joris DegrooteDepartment of Flow, Heat and Combustion Mechanics, Faculty of Engineering and Architecture, Ghent University, Ghent, Belgium; ;Flanders Make, BelgiumView further author information
Pages 859-872 | Received 29 May 2018, Accepted 21 Sep 2018, Published online: 26 Dec 2018

References

  • Adanur, S., & Mohamed, M. H. (1991). Analysis of yarn tension in air-jet filling insertion. Textile Research Journal, 61(5), 259–266.
  • Adanur, S., & Mohamed, M. H. (1992a). Analysis of yarn motion in single-nozzle air-jet filling insertion: Part I: Theoretical models for yarn motion. The Journal of the Textile Institute, 83(1), 45–55.
  • Adanur, S., & Mohamed, M. H. (1992b). Analysis of yarn motion in single-nozzle air-jet filling insertion: Part II: Experimental validation of the theoretical models and statistical analysis. The Journal of the Textile Institute, 83(1), 56–68.
  • Adanur, S., & Turel, T. (2004). Effects of air and yarn characteristics in air-jet filling insertion: Part II: Yarn velocity measurements with a profiled reed. Textile Research Journal, 74(8), 657–661.
  • Belforte, G., Mattiazzo, G., Viktorov, V., & Visconte, C. (2009). Numerical model of an air-jet loom main nozzle for drag forces evaluation. Textile Research Journal, 79(18), 1664–1669.
  • Chen, L., Feng, Z-H., Dong, T.-Z., Wang, W-H., & Liu, S. (2015). Numerical simulation of the internal flow field of a new main nozzle in an air-jet loom based on fluent. Textile Research Journal, 85(15), 1590–1601.
  • Ishida, M., & Okajima, A. (1994a). Flow characteristics of the main nozzle in an air-jet loom part I: Measuring flow in the main nozzle. Textile Research Journal, 64(1), 10–20.
  • Ishida, M., & Okajima, A. (1994b). Flow characteristics of the main nozzle in an air-jet loom part II: Measuring high speed jet flows from the main nozzle and weft drag forces. Textile Research Journal, 64(2), 88–100.
  • Jeong, S.-Y., Kim, K.-H., Choi, J.-H., & Lee, C.-K. (2005). Design of the main nozzle with different acceleration tube and diameter in an air-jet loom. International Journal of Precision Engineering and Manufacturing, 6(1), 23–30.
  • Jin, Y., Cui, J., Zhu, L., Lin, P., & Hu, X. (2016). An investigation of some parameter effects on the internal flow characteristics in the main nozzle. Textile Research Journal, 87(1), 91–101.
  • Kim, H.-D., Lim, C.-M., Lee, H.-J., & Chun, D.-H. (2007). A study of the gas flow through air jet loom. Journal of Thermal Science, 16(2), 159–163.
  • Lan, X., Liu, D., & Feng, Z. (2017). Structural optimization of the main nozzle in air-jet loom based on orthogonal test method. Journal of Textile Engineering & Fashion Technology, 1(5), 172–178.
  • Mohamed, M. H., & Salama, M. (1986). Mechanics of a single nozzle air-jet filling insertion system part I: Nozzle design and performance. Textile Research Journal, 56(11), 683–690.
  • Moody, L. F. (1944). Friction factors for pipe flow. Transactions of the American Society of Mechanical Engineers, 66, 671–681.
  • Nosraty, H., Jedi, A. A. A., & Mousaloo, Y. (2008). Simulation analysis of weft yarn motion in single nozzle air-jet loom to study the effective parameters. Indian Journal of Fibre & Textile Research, 33(1), 45–51.
  • Oh, T. H., Kim, S. D., & Song, D. J. (2001). A numerical analysis of transonic/supersonic flows in the axisymmetric main nozzle of air-jet loom. Textile Research Journal, 71(9), 783–790.
  • Osman, A. (2017). Computational fluid-structure interaction study of the aeroelastic behavior of a wire in transonic and supersonic flows (Doctoral dissertation). Ghent University, Ghent.
  • Osman, A., Malengier, B., De Meulemeester, S., Peeters, J., Vierendeels, J., & Degroote, J. (2018). Simulation of air flow-yarn interaction inside the main nozzle of an air jet loom. Textile Research Journal, 88(10), 1173–1183.
  • Prabkeao, C., & Aoki, K. (2005). Flow characteristics and pattern of main nozzle of air jet loom. http://bulletin.soe.u-tokai.ac.jp/english_Vol30/p12-19.pdf
  • Szabó, L., Patkó, I., & Oroszlány, G. (2010). The dynamic study of the weft insertion of air jet weaving machines. Acta Polytechnica Hungarica, 7(3), 93–107.
  • Uno, M. (1972). A study on air-jet loom with substreams added: Part 4: Length of the main nozzle. Journal of Textile Machinery Society of Japan, 25(7), 72–78.
  • Uno, M., Yamawaki, K., Ishida, T., Matsui, K., Arakawa, T., Aoyama, H., … Tamada, K. (1961). A study on air-jet looms. Journal of Textile Machinery Society of Japan, 7(1), 28–36.
  • Wu, Z., Chen, S., Liu, Y., & Hu, X. (2016). Air-flow characteristics and yarn whipping during start-up stage of air-jet weft insertion. Textile Research Journal, 86(18), 1988–1999.

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