Search
Skip to Search Results- 3Hasan, Md Monjurul
- 3Kostic, Branislav Z
- 3Yu, Miao
- 2Afifi, Mona
- 2Altaf, Mohammed Sadiq
- 2Alwisy, Aladdin
- 31Al-Hussein, Mohamed (Civil and Environmental Engineering)
- 25Deutsch, Clayton (Civil and Environmental Engineering)
- 23AbouRizk, Simaan (Civil and Environmental Engineering)
- 20Chalaturnyk, Rick (Civil and Environmental Engineering)
- 20Liu, Yang (Civil and Environmental Engineering)
- 18Bayat, Alireza (Civil and Environmental Engineering)
-
Novel Artificial Neural Network Model for Predicting Failure Pressure of Thin-walled Pipes Containing Axially-oriented Surface Cracking Subjected to Internal Pressure
DownloadSpring 2024
Axial cracking is a major integrity threat for oil and natural gas transmission pipelines in Canada since its presence can lead to detrimental oil leaks or ruptures, resulting in pipeline incidents, and eventually causing severe damage to the property and the environment. Therefore, periodically...
-
Spring 2022
Hydraulically fractured horizontal wells are widely adopted for the development of tight or shale gas reservoirs. The presence of highly heterogeneous, multi-scale, fracture systems often renders any detailed characterization of the fracture properties challenging. The discrete fracture network...
-
Fall 2021
Buried pipeline systems often transverse regions with a wide variety of soil types, geological conditions, or regions of varying seismicity, exposing these buried infrastructures to severe geohazards that pose a significant amount of risk to their structural and mechanical integrity. The...
-
Novel XFEM Variable Strain Damage Model for Predicting Fracture in Small-scale SENT and Full-scale Pipeline Fracture Tests
DownloadFall 2021
Of all the common integrity threats of steel pipelines, cracking is the most dangerous and potentially resulting in the immediate loss of pressure containment capacity. Industry pipeline operators should ensure that the tensile train capacity (TSC) of welded pipeline exceeds the longitudinal...