TY - JOUR
JF - mdrsjrns
JO - MCEJ
VL - 21
IS - 6
PY - 2021
Y1 - 2021/12/01
TI - Numerical simulation of the flow pattern around a single bridge pier with upstream of submerged vanes in sharp 180-degree bend with an alluvial bed under the influence of submerged vanes and the bridge pier
TT - شبیهسازی عددی الگوی جریان پیرامون پایه پل منفرد با حضور صفحات مستغرق بالادستی مستقر در قوس 180 درجه تند با بستر آبرفتی تحت تأثیر فاصله صفحات مستغرق از هم و پایه پل
N2 - In this research, the SSIIM numerical model is investigated to investigate the flow pattern, velocity meters, current strength and turbulence parameters around the pier of the vertical bridge with submerged vanes. The parameters of different overlap length, and the distance of the submerged vanes upstream from the pier of the bridge and from each other in sharp 180-degree bend in the steep-ratio hydraulic radius 2 with a height of 90 cm and a width of 100 cm and a length of straight direction upstream and downstream of the bend respectively 6.5 m and 5 m, were analyzed. SSIIM software was used to investigate the flow field around the around the cylindrical bridge pier and upstream submerged vanes. The K-ε turbulence model was also used to solve the Navier-Stokes equations. In order to validate, the results of the simulated model were compared with the available experimental data in the case of submerged vanes located upstream of the bridge pier. The match between the numerical and experimental data indicated the proper performance of the SSIIM numerical model in modeling the flow pattern in the problem under study. The results showed that the range of secondary flow power was measured in all models with the presence of upstream submerged vanes from 10.5 to 12%. In the case where the submerged vanes did not overlap with each other and the placement of the submerged vanes at a distance of 2.5 times the pier diameter from the pier and a distance equal to 2 times the pier diameter from each other and above the pier is the lowest value and in the overlapping state 100 Percentage of vanes, in the arrangement of submerged vanes at a distance of 5 times the pier diameter and 2 times the pier diameter of each other and above the pier has its highest value. Shear stress changes after local scouring were also calculated. The maximum shear stress from the beginning of the bend to near the bend exit was inclined towards the inner bank of the bend and in the bend output range the maximum shear stress was transferred to the middle of the bend and then the second half of the bend. The results also showed that the tangential velocity was increased as the immersion range of the submerged vanes and the pier approached, so that the maximum tangential velocity occurred in the passage through the pier. As the height from the initial bed increases, the maximum positive tangential velocities increase. The results also showed that at the level near the bed, the radial flow is towards the inner bank. The greatest difference in radial velocities, as opposed to tangential velocities, is observed near the bed. The highest changes in the maximum landing number are related to models with submerged vanes at a distance of 7.5 times the pier diameter, which by changing the distance between the vanes from 1 to 1.5 times the pier diameter from each other, an increase of 12.5% And by changing the distance of the submerged vanes to 2 times the pier diameter from each other, it decreases by 11%.
SP - 88
EP - 98
AU - abdichooplou, chonoor
AU - Vaghefi, Mohammad
AU - safarpoor, yaser
AD - Faculty of Civil and Environmental Engineering, Tarbiat Modares University, Tehran, Iran
KW - Bridge pier
KW - Submerged vanes
KW - Flow pattern
KW - 180-degree bend
KW - SSIIM numerical model
UR - http://mcej.modares.ac.ir/article-16-50115-en.html
DO - 10.22034/21.6.6
ER -