TRANSPORT IMMERSED TUBE TUNNELS

The article shows advantages and disadvantages of immersed tube tunnels used in the transport passage across extensive water obstacles (straits, lakes, wide rivers). An immersed tunnel project for the passage at the intersection of a strait, which may be the most cost-effective, reliable and affordable in terms of costs, time of construction and choice of technologies, is evaluated. The authors propose a method for calculating the tunnels with account for seismic impact.

1. http://www.ita-aites.org/en/publications/wgpublications/download/122_47ee7751b3b4b5472729a00b61295572 . Доступ 26.09.2014. Last accessed 26.09.2014.

2. . http://www. c e i-demeyer.be/en/index.php?menu=229&cei-demeyer=type&type=2253&subtype=22531#liefkenshoektunnel.pdf . Доступ 26.09.2014. Last accessed 26.09.2014.

3. Kiyomiya, O. Earthquake-resistant Design Features of Immersed Tunnels in Japan, Tunnelling and Underground Space Technology, Vol. 10, No. 4, pp. 463–475, 1995.

4. . https://archive.org/stream/earthquakeengine00owen#page/n0/mode/2up . Доступ 26.09.2014. Last accessed 26.09.2014.

5. Kiyomiya, O. Flexible joints between elements for large deformation. In(Re) Claiming the Underground Space», Vol. 1, pp. 329–334. Published by A.A.Balkema. Proceedings of the ITA World Tunnelling Congress in Amsterdam, The Nertherlands, www.balkema.nl and www.szp.swets.nl. Доступ 26.09.2014.

6. Курбацкий Е. Н. Метод решения задач строительной механики и теории упругости, основанный на свойствах изображений Фурье финитных функций/ Дис… док. техн. наук. – М., 1995. – 205 с. Kurbatskiy, E. N. Method for solving tasks of structural mechanics and the theory of elasticity, based on the properties of the Fourier image of finite functions. D. Sc. (Tech.) thesis [Metod resheniya zadach stroitel’noy mehaniki i teorii uprugosti, osnovannyj na svoystvah izobrazheniy Fur’e finitnyh funktsiy. Dis… dok. tehn. nauk]. Moscow, 1995, 205 p.

7. Геология шельфа УССР. Керченский пролив/ Шнюков Е. Ф., Аленкин В. М., Путь А. Л. и др. – Киев: Наукова думка, 1981. – 160 с. Shelf geology of the USSR. Kerch Strait [Geologiya shel’fa USSR. Kerchenskiy proliv]. Shnyukov, E.F., Alenkin, V.M., Put’ A.L. [et al.], Kiev, Naukova Dumka publ., 1981, 160 p.

8. Projekter.aau.dk/projekter/files/14460088/Thesis.pdf. Доступ 26.09.2014.

9. Определение исходных сейсмических колебаний грунта для проектных основ (РБ-006–98). Нормативный документ. – М.: НТЦ ЯРБ, 2000. – 76 с. Determination of initial seismic ground motion for the design basis (RB-006–98). Regulatory document [Opredelenie ishodnyh seysmicheskih kolebaniy grunta dlya proektnyh osnov (RB-006–98). Normativnyj document]. Moscow, NTTs YaRB, 2000, 76 p.

10. Kyriazis Pitilakis, Kyriazis; Argyroudis, Sotiris; Tsinidis, Grigoris. Seismic Design and Risk Assessment of Underground Long Structures. MONICO Workshop Structural Monitoring and Assessment of Underground Transportation Facilities, March 18, 2011, Athens, Greece. http://www.monico-eu.org/documents/Workshop/1.%20Pi t i lakis%20-%20Seismic%20Design%20and%20Risk%20Assessment%20of%20Underground%20Long%20Structures.pdf. Доступ 26.09.2014.

11. St John, C.M., Zahrah, T.F. A seismic Design of Underground Structures. Tunnelling and Underground Space Technology, Vol.2. No. 2, pp. 165–197, 1987.

12. https://www.pbworld.com/pdfs/publications/…/wang.pdf . Доступ 26.09.2014. Last accessed 26.09.2014.

13. http://www.readcube.com/articles/10.1002%2F(SICI)1096–9845(200005)29%3A5%3C683%3A%3AAID-EQE932%3E3.0.CO%3B2–1. Доступ 26.09.2014. Last accessed 26.09.2014.