TECHNICAL CONDITIONS OF THE UNIQUE STRUCTURE OF INVERTED SIPHON – HISTORY & PRESENT

[1] Mangus, A. (2014). Orthotropic Steel Decks. In: Superstructure Design. Bridge Engineering Handbook. Second Edition. Edited by Wai-Fah Chen and Lian Duan. CRC Press, Taylor & Francis Group, 589–645. Mangus A. ( 2014 ). Orthotropic Steel Decks . In: Superstructure Design. Bridge Engineering Handbook . Second Edition. Edited by Wai-Fah Chen and Lian Duan . CRC Press, Taylor & Francis Group , 589 – 645 . Search in Google Scholar

[2] Eckoldt, M. (1998). Rivers and channels. The history of the German waterways (Flüsse und Kanäle. Die Geschichte der deutschen Wasserstraßen) Hamburg: DSV-Verlag. Eckoldt M. ( 1998 ). Rivers and channels. The history of the German waterways (Flüsse und Kanäle. Die Geschichte der deutschen Wasserstraßen) Hamburg : DSV-Verlag . Search in Google Scholar

[3] Lavis, F. (1915). Building the New Rapid Transit System of New York City. New York: Hill Publishing Co. Lavis F. ( 1915 ). Building the New Rapid Transit System of New York City . New York : Hill Publishing Co . Search in Google Scholar

[4] Stene, E. A. (1996). Yuma Project and Yuma Auxiliary Project. Bureau of Reclamation. Stene E. A. ( 1996 ). Yuma Project and Yuma Auxiliary Project . Bureau of Reclamation . Search in Google Scholar

[5] Breen, J. J. (2017). Winchester Culvert: Location. Towpath topics. 55(2). Breen J. J. ( 2017 ). Winchester Culvert: Location . Towpath topics . 55 ( 2 ). Search in Google Scholar

[6] Green, M. G. (1994). Construction of the San Antonio, Texas, Flood Control Tunnels. Environmental & Engineering Geosciences. XXXI(1), 15–31. Green M. G. ( 1994 ). Construction of the San Antonio, Texas, Flood Control Tunnels . Environmental & Engineering Geosciences . XXXI ( 1 ), 15 – 31 . 10.2113/gseegeosci.xxxi.1.15 Search in Google Scholar

[7] Fu, H., Yang, K., Guo, X., Guo, Y. & Wang, T. (2015). Safe operation of inverted siphon during ice period. Journal of Hydrodynamics. 27(2), 204–209. Fu H. Yang K. Guo X. Guo Y. & Wang T. ( 2015 ). Safe operation of inverted siphon during ice period . Journal of Hydrodynamics . 27 ( 2 ), 204 – 209 . 10.1016/S1001-6058(15)60473-5 Search in Google Scholar

[8] Ettema, R., Kirkil, G. & Day, S. (2009). Frazil ice concerns for channel, pump-lines, penstocks, and tunnels in mountainous regions. Cold Regions Science and Technology. 55, 2002-2011. Ettema R. Kirkil G. & Day S. ( 2009 ). Frazil ice concerns for channel, pump-lines, penstocks, and tunnels in mountainous regions . Cold Regions Science and Technology . 55 , 2002 - 2011 . 10.1016/j.coldregions.2008.04.008 Search in Google Scholar

[9] Chen, S. H. (2015). Irrigation and Drainage Works. In: Hydraulic Structures. Springer, Berlin, Heidelberg. Chen S. H. ( 2015 ). Irrigation and Drainage Works . In: Hydraulic Structures . Springer , Berlin, Heidelberg . Search in Google Scholar

[10] Al-Husseini, T. R. (2008). Optimum hydraulic design for inverted siphon. Al-Qadisiya Journal for Engineering Science. 1(1), 46–59. Al-Husseini T. R. ( 2008 ). Optimum hydraulic design for inverted siphon . Al-Qadisiya Journal for Engineering Science. 1 ( 1 ), 46 – 59 . Search in Google Scholar

[11] Aisenbrey, A. J., et al., (1974). Design of small canal structures. Denver, Colorado, USA. Aisenbrey A. J. et al. , ( 1974 ). Design of small canal structures . Denver , Colorado, USA . Search in Google Scholar

[12] Smith, N. A. F. (1976). Attitudes to Roman Engineering and the question of the Inverted Siphon. History of Technology, I, 45–71, London. Smith N. A. F. ( 1976 ). Attitudes to Roman Engineering and the question of the Inverted Siphon . History of Technology , I , 45 – 71 , London . Search in Google Scholar

[13] Urbaniak, M. (2015). Hydrotechnical engineering works in Poland. Upper Silesian Canal (Dzieła hydrotechniki w Polsce. Kanał Górnośląski (Gliwicki)). Lodz: Publishing House Michał Kolinski. Urbaniak M. ( 2015 ). Hydrotechnical engineering works in Poland. Upper Silesian Canal (Dzieła hydrotechniki w Polsce. Kanał Górnośląski (Gliwicki)) . Lodz : Publishing House Michał Kolinski . Search in Google Scholar

[14] Tołkacz, L. (2010). Water transport infrastructure. Vol. 1: Infrastructure of inland transport (orig. Infrastruktura transportu wodnego. Tom I. Infrastruktura transportu śródlądowego). Szczecin (www.zbc.ksiaznica.szczecin.pl). Tołkacz L. ( 2010 ). Water transport infrastructure . Vol. 1 : Infrastructure of inland transport (orig. Infrastruktura transportu wodnego. Tom I. Infrastruktura transportu śródlądowego). Szczecin ( www.zbc.ksiaznica.szczecin.pl ). Search in Google Scholar

[15] Szling, Z., Winter, J. (1988). Inland waterways (Drogi wodne śródlądowe). Wroclaw: Publishing House of Wroclaw University of Science and Technology. Szling Z. Winter J. ( 1988 ). Inland waterways (Drogi wodne śródlądowe) . Wroclaw : Publishing House of Wroclaw University of Science and Technology . Search in Google Scholar

[16] www.kanalgliwicki.net/inne_obiekty/syfon/syfon.htm www.kanalgliwicki.net/inne_obiekty/syfon/syfon.htm , Search in Google Scholar

[17] EN 12504-2:2001, Testing concrete in structures - Part 2: Non-destructive testing – Determination of rebound number. EN 12504-2 : 2001 , Testing concrete in structures - Part 2: Non-destructive testing – Determination of rebound number . Search in Google Scholar

[18] Claisse, P. (2016) Assessment of concrete structures. In: Civil Engineering Materials. Butterworth-Heinemann. Claisse P. ( 2016 ) Assessment of concrete structures . In: Civil Engineering Materials . Butterworth-Heinemann . 10.1016/B978-0-08-100275-9.00027-9 Search in Google Scholar

[19] Balayssac, J-P., Garnier, V., (2018), Non-destructive Testing and Evaluation of Civil Engineering Structures. ISTE Press – Elsevier. Balayssac J-P. Garnier V. , ( 2018 ), Non-destructive Testing and Evaluation of Civil Engineering Structures . ISTE Press – Elsevier . Search in Google Scholar

[20] EN 12504-1:2009, Testing concrete in structures – Part 1: Cored specimens – Taking, examining and testing in compression. EN 12504-1 : 2009 , Testing concrete in structures – Part 1: Cored specimens – Taking, examining and testing in compression . Search in Google Scholar

[21] Liu, J., Xing, F., Dong, B., Ma, H. & Pan, D. (2014). Study of Surface Permeability of Concrete under Immersion. Materials, 7, 876–886. Liu J. Xing F. Dong B. Ma H. & Pan D. ( 2014 ). Study of Surface Permeability of Concrete under Immersion . Materials , 7 , 876 – 886 . 10.3390/ma7020876 Search in Google Scholar

[22] EN 206-1:2000/A-2:2005, Concrete – specification, performance, production and conformity. EN 206-1:2000/A-2 : 2005 , Concrete – specification, performance, production and conformity . Search in Google Scholar