From 5f5baacf77a06df348aced481bbb225e892b092a Mon Sep 17 00:00:00 2001 From: akshay Date: Wed, 22 Jan 2025 21:17:50 +0100 Subject: [PATCH] Fix typos --- projects/refmap/index.md | 2 +- projects/turbocor/index.md | 2 +- 2 files changed, 2 insertions(+), 2 deletions(-) diff --git a/projects/refmap/index.md b/projects/refmap/index.md index e33400cd..3ae64a65 100644 --- a/projects/refmap/index.md +++ b/projects/refmap/index.md @@ -67,7 +67,7 @@ Software: [GenSDF-GitHub Repository](https://github.com/AkshayPatil1994/GenSDF)
-One of the important aspects of simulating scale-resolving turbulent flows is the need to reduce the spin-up time when using periodic pressure driven channel flows. To that end, we developed a rather simple computational method that generates the initial conditions for pressure-driven channel flows that speeds up the convergence to a statistically stationary flow state by a factor of 5-10 when compared with exisiting community practices. Our method is domain size agnostic and gives a relatively more consistent transition to a turbulent state when compared with other alternatives. This reduction in the spin-up time directly reduces the computational cost and environmental footprint for increasing flow Reynolds numbers. +One of the important aspects of simulating scale-resolving turbulent flows is the need to reduce the spin-up time when using periodic pressure driven channel flows. To that end, we developed a rather simple computational method that generates the initial conditions for pressure-driven channel flows that speeds up the convergence to a statistically stationary flow state by a factor of 5-10 when compared with existing community practices. Our method is domain size agnostic and gives a relatively more consistent transition to a turbulent state when compared with other alternatives. This reduction in the spin-up time directly reduces the computational cost and environmental footprint for increasing flow Reynolds numbers. Pre-print: [Fake it Till You Make it: Synthetic Turbulence to Achieve Swift Converged Turbulence Statistics in a Pressure-Driven Channel Flow](https://papers.ssrn.com/sol3/papers.cfm?abstract_id=5101082) Software: [GenIC](https://github.com/AkshayPatil1994/Synthetic-Eddy-Method-KCX2013) diff --git a/projects/turbocor/index.md b/projects/turbocor/index.md index a74872c2..de63f81f 100644 --- a/projects/turbocor/index.md +++ b/projects/turbocor/index.md @@ -16,7 +16,7 @@ permalink: /projects/turbocor/ - - - ## Summary -TurboCor is an indepdent project mainly supported by NWO-Snellius computing grant that aims to better understand the hydrodynamics within morphologically complex coral reef boundary layers. The central idea is to apply scale-resolving computational methods to study the effect of simple and complex coral reef hydrodynamics at a scale never studied before. +TurboCor is an independent project mainly supported by NWO-Snellius computing grant that aims to better understand the hydrodynamics within morphologically complex coral reef boundary layers. The central idea is to apply scale-resolving computational methods to study the effect of simple and complex coral reef hydrodynamics at a scale never studied before. - - - ## Work in progress