1. Oparin, V.N., Simonov, B.F., Yushkin V.F., et al., Geomekhanicheskie i tekhnicheskie osnovy uvelicheniya nefteotdachi plastov v vibrovolnovykh tekhnologiyakh (Geomechanical and Engineering Background for Oil Recovery Enhancement in the Vibration Wave Technologies), Novosibirsk: Nauka, 2010.

2. Metodicheskie rekomendatsii po raschetam konstruktivnoi nadezhnosti magistral’nykh truboprovodov. RD 51-4.2-003.09 (Main Pipeline Structural Reliability Calculation Guidelines), Moscow: RAO Gazprom, 1997.

3. Ukazaniya po raschetu na prochnost’ i vibratsiyu tekhnologicheskikh stal’nykh truboprovodov. Rukovodyashchii tekhnicheskii material RTM 38.001.94 (Strength Calculation and Vibration Analysis Instructions for Steel Industrial Pipelines. Governing Technical Matters RTM 38.001-94), Moscow: VNIPIneft’, 1994.

4. Lee, U. and Oh, H., “The Spectral Element Model for Pipelines Conveying Internal Steady Flow,” Engineering Structures, 2003, vol. 25.

5. Tong, Z., Zhang, Y., Zhang, Z., and Hu, H., “Dynamic Behavior and Sound Transmission Analysis of a Fluid-Structure Coupled System Using the Direct-BEM/FEM,” Journal of Sound and Vibration, 2007, vol. 299.