Research & Reviews: Journal of Architectural Design (e-ISSN: 3107-3891)ing

Designing open channels benefits greatly from research on water surface phenomena. For open-channel design, a variety of gradually varied flow approaches are investigated and used. Recent studies have tended to focus on the fundamental depths for trapezium and explanatory sections. Despite the fact that rectangular areas are mostly composed of rectangular and circular channels, there have been very few studies regarding the fundamental profundity of these areas.

Priya S Sajan, S. S. Kumar. GVF snake algorithm -a parallel approach. International journal of engineering & technology.2019.7(1):1-105p

Ramappa G., PatilVasant, N. Diwanji, Rajnikant Khatsuria. Integrating Equation of Gradually Varied Flow.Journal of Hydraulic Engineering.2001.127(7)

Tiejie Cheng, Jun Wang, Jueyi Sui. Calculation of critical flow depth using method of algebraic inequality. Journal of Hydrology and Hydromechanics.2018.66(3):316– 322p.

Wojciech Artichowicz, RomualdSzymkiewicz.2014.Computational issues of solving the 1D steady gradually varied flow equation. Journal of Hydrology and Hydromechanics.2014.62:226–233p.

Zhang ming-liang, Shen yong-ming. Study and application of steady flow and unsteady flow mathematical model for channel network. Journal of hydrodynamics.2007.-6058(07)60155- 3.

Chaudhry M. H. (2008). Open- Channel Flow (Second Edition ed.). New York, NY: Springer