November 25, 2024
Mohammad Vaghefi

Mohammad Vaghefi

Academic Rank: Associate professor
Address:
Degree: Ph.D in Hydraulic Structures
Phone: 077-31342401
Faculty: Faculty of Engineering

Research

Title Effect of repositioned submerged vanes on local scour variations around a pier in a bend: experimental investigation
Type Article
Keywords
Erosion · Flume experiments · Open channel flow · River morphology · Sediment transport
Journal International Journal of Environmental Science and Technology
DOI https://doi.org/10.1007/s13762-023-05031-3
Researchers Choonor Abdi Choplou (First researcher) , Mohammad Vaghefi (Second researcher) ,

Abstract

Bridge pier local scouring has forever been under consideration as an unwelcome phenomenon that threatens the safety of bridges. Hence, an investigation into methods of scour reduction around piers is of great importance regarding the hydraulic and environmental aspects. This study mainly focused on the role of submerged parallel vanes’ positioning across the channel width in decreasing the depth of scouring around the pier. This experiment was conducted in a channel made of a 180° sharp bend. The bridge pier was positioned at the 90° cross section, while the submerged vanes were located upstream of the pier in different arrangements. The results demonstrated that placing the submerged vanes at the channel’s central axis caused the greatest reduction in scouring depth compared to the tests with no vanes. With the minimum scour hole volume around the pier, a 51% scour reduction resulted compared with the test without submerged vanes. In addition, the maximum scour reduction occurred with the submerged vanes placed at 2.5 times the pier diameter away from the pier’s centerline and at intervals of 1 and 1.5 times the pier diameter. This pattern resulted in 30% and 25% local scour reductions around the pier. Moreover, the lowest and the highest sedimentation values were, respectively, larger than the pier diameter by factors of 6.1 and 2.2, occurring at distances of 9 and 24% of channel width away from the inner bank. These results led to the proposed experimental equations with an acceptable accuracy in calculating the maximum scouring depth.