Alliance, A. L. (2001). Guidelines for the design of buried steel pipe. American Society of Civil Engineers.
ASCE. (1984). Guidelines for the Seismic Design of Oil and Gas Pipeline Systems. American Society of Civil Engineers.
Banushi, G., & Squeglia, N. (2018). Seismic analysis of a buried operating steel pipeline with emphasis on the equivalent-boundary conditions. Journal of Pipeline Systems Engineering and Practice, 9(3).
Chiou, Y., Chi, S., & Chang, H. (1994). A study of buried pipeline response to fault movement. Journal of Pressure Vessel Technology, 116(1).
Demirci, H. E., Karaman, M., & Bhattacharya, S. (2021). Behaviour of buried continuous pipelines crossing strike-slip faults: Experimental and numerical study. Journal of Natural Gas Science and Engineering, 92.
EGIG. (2015). Gas Pipeline Incidents: 9th Report of the European Gas Pipeline Incident Data Group (period 1970 - 2013). Doc. Number EGIG 14.R.0403. Groningen, the Netherlands: European Gas Pipeline Incident Data Group.
Esford, F., Porter, M., Savigny, K. W., Muhlbauer, W., & Dunlop, C. (2004). A risk assessment model for pipelines exposed to geohazards. International Pipeline Conference, (pp. 2557-2565).
Haggag, F. (1999). Nondestructive Determination of Yield Strength and Stress-Strain Curves of In-Service Transmission Pipelines Using Innovative Stress-Strain MicroprobeTM Technology. Washington, DC.: Advanced Technology Corporation.
IITK-GSDMA. (2007). Guidelines for seismic design of buried pipelines. Indian Institute of Technology Kanpur (IITK) and Gujarat State Disaster Management Authority (GSDMA).
Kennedy, R., Williamson, R., & Chow, A. (1977). Fault movement effects on buried oil pipeline. Transportation Engineering, 103(5), 617-633.
Kunert, H. G., Marquez, A. A., Fazzini, P., & Otegui, J. L. (2016). Failures and integrity of pipelines subjected to soil movements. In Handbook of Materials Failure Analysis with Case Studies from the Oil and Gas Industry (pp. 105-122). Butterworth-Heinemann.
Lee, E., Fookes, P., & Hart, A. (2016). Landslide issues associated with oil and gas pipelines in mountainous terrain. Quarterly Journal of Engineering Geology and Hydrogeology, 49(2), 125-131.
Liu, X., & O'Rourke, M. (1997). Behaviour of continuous pipeline subject to transverse PGD. Earthquake Engineering & Structural Dynamics, 26(10), 989-1003.
Mori, S., Chiba, K., & Koike, T. (2012). Seismic performance analysis of the transmission Gas pipeline in the 2011 Great East Japan earthquake. 15th World Conference on Earthquake Engineering (15WCEE), (pp. 24-28).
O’Rourke, M. (1989). Approximate analysis procedures for permanent ground deformation effects on buried pipelines. The Second US Japan workshop on liquefaction, large ground deformation and their effects on lifelines (pp. 336-347). Buffalo, New York: Multidisciplinary Center for Earthquake Engineering Research.
O’Rourke, M., & Liu, X. (2012). Seismic design of buried and offshore pipelines (MCEER-12-MN04). MCEER.
O’Rourke, T. (1988). Critical aspects of soil-pipeline interaction for large ground deformation. 1st Japan-US Workshop on liquefaction, large ground deformation and their effects on lifelines (pp. 118-126). Japan: Association for Development of Earthquake Prediction.
PRCI. (2009). Pipeline Integrity for Ground Movement Hazards. Houston: Pipeline Research Council International.
Suzuki, N., Arata, O., & Suzuki, I. (1988). Subject to liquefaction-induced permanent ground displacement. . The First Japan-US Workshop on Liquefaction, Large Ground Deformation and their Effects on Lifeline Facilities. Tokyo, Japan.
Vasseghi, A., Haghshenas, E., Soroushian, A., & Rakhshandeh, M. (2021). Failure analysis of a natural gas pipeline subjected to landslide. Engineering Failure Analysis, 119.
Wang, L., & Yeh, Y. (1985). A refined seismic analysis and design of buried pipeline for fault movement. Earthquake Engineering & Structural Dynamics, 13(1), 75-96.
Wijewickreme, D., Karimian, H., & Honegger, D. (2009). Response of buried steel pipelines subjected to relative axial soil movement. Canadian Geotechnical Journal, 46(7), 735-752.
Zheng, J., Zhang, B., Liu, P., & Wu, L. (2012). Failure analysis and safety evaluation of buried pipeline due to deflection of landslide process. Engineering Failure Analysis, 25, 156-168.