TY - GEN
T1 - Numerical study of pipe-soil interaction due to wave incident angle
AU - Atikasari, Titis Julaikha
AU - Suntoyo,
AU - Fitriadhy, Ahmad
AU - Wardhana, Wisnu
N1 - Publisher Copyright:
© 2023 Author(s).
PY - 2023/3/23
Y1 - 2023/3/23
N2 - Marine pipeline is one of the marine infrastructures that rarely get much attention. Pipelines safety is commonly related to the design and operation needs to get more considerations, especially the factors that might fail pipeline. This study investigates pipe scouring, a factor which can lead the pipe failure as fatigue risk and deflection. Pipe-soil interaction occurs and generates the scouring process. The aim is to explain the further details about the correlation of the influencing factors in pipe-soil interaction towards the scouring phenomenon. Through the numerical approach, different parameters are used to analyze the pipe-soil interaction towards the scour hole until it reaches the equilibrium stage. A single pipe is placed on the erodible seabed and subjected to flow. Wave incident angle, KC number, and Reynold number are computed to understand the relation of scour depth and its interacting factors. The results indicate that the equilibrium scours depth increase in respect to the increasing influencing parameters, and the escalating of wave incidence angle gives significant results compared to others.
AB - Marine pipeline is one of the marine infrastructures that rarely get much attention. Pipelines safety is commonly related to the design and operation needs to get more considerations, especially the factors that might fail pipeline. This study investigates pipe scouring, a factor which can lead the pipe failure as fatigue risk and deflection. Pipe-soil interaction occurs and generates the scouring process. The aim is to explain the further details about the correlation of the influencing factors in pipe-soil interaction towards the scouring phenomenon. Through the numerical approach, different parameters are used to analyze the pipe-soil interaction towards the scour hole until it reaches the equilibrium stage. A single pipe is placed on the erodible seabed and subjected to flow. Wave incident angle, KC number, and Reynold number are computed to understand the relation of scour depth and its interacting factors. The results indicate that the equilibrium scours depth increase in respect to the increasing influencing parameters, and the escalating of wave incidence angle gives significant results compared to others.
UR - http://www.scopus.com/inward/record.url?scp=85151355844&partnerID=8YFLogxK
U2 - 10.1063/5.0113845
DO - 10.1063/5.0113845
M3 - Conference contribution
AN - SCOPUS:85151355844
T3 - AIP Conference Proceedings
BT - 1st International Postgraduate Conference on Ocean Engineering Technology and Informatics 2021, IPCOETI 2021
A2 - Yahya, Muhammad Syarifuddin
A2 - Mohemad, Rosmayati
A2 - Abu Bakar, Maharani
A2 - Abdullah, Samsuri
A2 - Zulkifli, Mohammad Fakhratul Ridwan Bin
A2 - Vizureanu, Petrica
A2 - Aloev, Rakhmatillo D.
A2 - Rahman, Mohd Nordin Abdul
A2 - Sunaryo, null
A2 - Fitriadhy, Ahmad
A2 - Dom, Nazri Che
A2 - Hamzah, Sofiah
A2 - Awal, Rabiul
A2 - Choon, Loy Kak
A2 - Sabri, Ily Amalina Ahmad
A2 - Yunos, Farizah
A2 - Mansor, Wan Nurdiyana Wan
A2 - Afrizal, Nurafnida
A2 - Rosly, Rosaida
A2 - Awang, Roslan
A2 - Khazali, Khairul Anwar bin Mohamad
A2 - Alias, Rodianah
A2 - Yahya, Zarina
PB - American Institute of Physics Inc.
T2 - 1st International Postgraduate Conference on Ocean Engineering Technology and Informatics 2021, IPCOETI 2021
Y2 - 21 June 2021 through 22 June 2021
ER -