[{“box”:0,”content”:”[if 992 equals=”Open Access”]
Open Access
n
[/if 992]n
n
n
n
n
- n t
n
Dhruv Pandit
[/foreach]
n
n
n[if 2099 not_equal=”Yes”]n
- [foreach 286] [if 1175 not_equal=””]n t
- Student, Department of Automation and Robotics, Guru Gobind Singh Indraprastha University, , India
n[/if 1175][/foreach]
[/if 2099][if 2099 equals=”Yes”][/if 2099]nn
Abstract
nComputational fluid dynamics (CFD)-based multi-phase flow simulation is a fast developing topic with broad applications in many scientific fields and industry. An extensive account of current developments, difficulties, and uses in multi-phase flow simulations is given in this review paper. Important modeling strategies, numerical methods, validation procedures, and new developments in CFD-based multi-phase flow analysis are covered. This paper is to contribute to the ongoing development and use of CFD in understanding and forecasting complicated fluid dynamics events involving many phases by integrating current knowledge and describing future research paths.
n
Keywords: CFD, volume of fluid, finite volume method, adaptive mesh refinement, finite difference method
n[if 424 equals=”Regular Issue”][This article belongs to International Journal of Machine Systems and Manufacturing Technology(ijmsmt)]
n
n
n
n
n
n
n[if 992 equals=”Open Access”] Full Text PDF Download[/if 992] nn
n[if 379 not_equal=””]nBrowse Figures
n
n
n[/if 379]n
References
n[if 1104 equals=””]n
- Jameson, A.; Caughey, D. (1977). “A finite volume method for transonic potential flow calculations”. 3rd Computational Fluid Dynamics Conference. doi:10.2514/6.1977-635.
- Kaufmann, T.A.S., Graefe, R., Hormes, M., Schmitz-Rode, T. and Steinseiferand, U., “Computational Fluid Dynamics in Biomedical Engineering”, Computational Fluid Dynamics: Theory, Analysis and Applications, pp. 109–136
- Bernauer, S.; Schöpf, M.; Eibl, P.; Witz, C.; Khinast, J.; Hardiman, T. Characterization of the gas dispersion behavior of multiple impeller stages by flow regime analysis and CFD simulations. Biotechnol. Bioeng. 2021, 118, 3058–3068. [Google Scholar] [CrossRef] [PubMed]
- M. Crawford, G. Cunningham and P. L. Spedding, “Prediction of Pressure Drop for Turbulent Fluid Flow in 90˚ Bends,” Proceedings of the Institution of Mechanical Engineers, Vol. 217, No. 3, 2003, pp. 153-155. doi:10.1243/095440803322328827
- B. Ellis and P. N. Joubert, “Turbulent Shear Flow in a Curved Duct,” Journal of Fluid Mechanics, Vol. 62, No. 1, 1974, pp. 65-84. doi:10.1017/S0022112074000589
- R. Briley, R. C. Buggeln and H. McDonald, “Computational of Laminar and Turbulent Flow in 90˚ SquareDuct and Pipe Bends Using the Navier-Stokes Equations,” DTIC Report No. R82-920009-F, 1982. [Citation Time(s):1]
- B. Wallis, “One Dimensional Two-Phase Flow,” McGraw-Hill, New York, 1969.
- F. Sánchez, R. J. C. Luna, M. I. Carvajal and E. Tolentino, “Pressure Drop Models Evaluation for Two-Phase Flow in 90 Degree Horizontal Elbows,” Ingenieria Mecanica Techilogia y Desarrollo, Vol. 3, No. 4, 2010, pp. 115-122. [Citation Time(s):1]
nn[/if 1104][if 1104 not_equal=””]n
- [foreach 1102]n t
- [if 1106 equals=””], [/if 1106][if 1106 not_equal=””],[/if 1106]
n[/foreach]
n[/if 1104]
nn
nn[if 1114 equals=”Yes”]n
n[/if 1114]
n
n
n
International Journal of Machine Systems and Manufacturing Technology
n
n
n
n
n
n
Volume | 01 | |
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] | 02 | |
Received | March 10, 2024 | |
Accepted | March 20, 2024 | |
Published | April 20, 2024 |
n
n
n
n
n
nn function myFunction2() {n var x = document.getElementById(“browsefigure”);n if (x.style.display === “block”) {n x.style.display = “none”;n }n else { x.style.display = “Block”; }n }n document.querySelector(“.prevBtn”).addEventListener(“click”, () => {n changeSlides(-1);n });n document.querySelector(“.nextBtn”).addEventListener(“click”, () => {n changeSlides(1);n });n var slideIndex = 1;n showSlides(slideIndex);n function changeSlides(n) {n showSlides((slideIndex += n));n }n function currentSlide(n) {n showSlides((slideIndex = n));n }n function showSlides(n) {n var i;n var slides = document.getElementsByClassName(“Slide”);n var dots = document.getElementsByClassName(“Navdot”);n if (n > slides.length) { slideIndex = 1; }n if (n (item.style.display = “none”));n Array.from(dots).forEach(n item => (item.className = item.className.replace(” selected”, “”))n );n slides[slideIndex – 1].style.display = “block”;n dots[slideIndex – 1].className += ” selected”;n }n”}]