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“OVIDIUS” UNIVERSITY OF CONSTANTZA UNIVERSITATEA „OVIDIUS” DIN CONSTANŢA “OVIDIUS” UNIVERSITY ANNALS - CONSTANTZA Year XVIII– Issue 18 (2016) Series: CIVIL ENGINEERING ANALELE UNIVERSITĂŢII „OVIDIUS”DIN CONSTANŢA ANUL XVIII – Nr 18 (2016) Seria: CONSTRUCŢII Ovidius University Press 2016 “OVIDIUS“ UNIVERSITY ANNALS - CONSTANTZA SERIES: CIVIL ENGINEERING ANALELE UNIVERSITĂŢII „OVIDIUS“ DIN CONSTANŢA SERIA: CONSTRUCŢII EDITOR IN CHIEF: Carmen MAFTEI, PhD, Eng., “OVIDIUS” University, Faculty of Civil Engineering, 124, Mamaia Blvd., 900527, RO., Constantza, Romania, phone +40- 241-545093, fax +40-241-612300 [email protected] EXECUTIVE EDITOR: Constantin BUTA, PhD, Eng, “Ovidius” University, Faculty of Civil Engineering, 124, Mamaia Blvd., 900527, RO., Constantza, phone +40-241- 545093, fax +40-241-612300 Romania, [email protected] EDITORIAL BOARD Haydar ACKA, Abu Dhabi University, United Arab Emirates Mary Jeanne ADLER, National Institute of Hydrology and Water Management, Bucharest, Romania Hafzullah AKSOY, Istanbul Technical University, Istanbul, Turkey Alina BĂRBULESCU, "Ovidius" University of Constantza, Romania/Higher Colleges of Technology, Sharjah, United Arab Emirates Erika BEILICCI, Politehnica University of Timișoara, Romania Gabriela BIALI, "Gheorghe Asachi" Technical University of Iassy, Romania Mihai Sorin CÂMPEANU, University of Agronomic Science and Veterinary Medicine of Bucharest, Romania Alin CÂRSTEANU, ESFM – National Polytechnic Institute, Mexico City, Mexico Silvia CHELCEA, National Institute of Hydrology and Water Management, Bucharest, Romania Anca CONSTANTIN, "Ovidius" University of Constantza, Romania Christophe CUDENNEC, Agrocampus Ouest, Rennes, France Radu DROBOT, Technical University of Civil Engineering of Bucharest, Romania Konstantinos EVANGELIDIS, The Technological Educational Institute of Central Macedonia, Serres, Greece Petar FILKOV, University of Architecture, Civil Eng. and Geodesy, Sofia, Bulgaria Sunai GELMAMBET, "Ovidius" University of Constantza, Romania Mariana GOLUMBEANU, National Institute for Marine Research and Development "Grigore Antipa", Constantza, Romania Pierre HUBERT, PhD., IAHS, England Adrian Mircea IOANI, Technical University of Cluj Napoca, Romania Dorina ISOPESCU, "Gheorghe Asachi" Technical University of Iassy, Romania Nikolaos KLIMIS, Democritus University of Thrace, Thrace, Greece Abdullah Cem KOÇ, Pamukkale University of Denizli, Denizli, Turkey Demetris KOUTSOYIANNIS, National Technical University of Athens, Athens, Greece João Pedroso de LIMA, Universida de de Coimbra, Coimbra, Portugal Carmen MAFTEI, "Ovidius" University of Constantza, Romania Teodor Eugen MAN, Politehnica University of Timișoara, Romania Adrian MARCHIS, Technical University of Cluj-Napoca, Romania Nicolae MARCOIE, "Gheorghe Asachi" Technical University of Iassy, Romania Milan MESIĆ, University of Zagreb, Zagreb, Croatia Ioan NISTOR, University of Ottawa, Canada Ichinur OMER, "Ovidius" University of Constantza, Romania Konstantinos PAPATHEODOROU, Technological Educational Institute of Central Macedonia, Serres, Greece Ioana POPESCU, UNESCO-IHE Institute for Water Education, Netherlands Ionela POPOVICI, "Ovidius" University of Constantza, Romania Nicolae POSTĂVARU, Technical University of Civil Engineering, Bucharest, Romania Lucica ROŞU, Technical Expert of MDRAP, Constantza, Romania Biljana SCENAPOVIC, University of Podgorica, Montenegro Andrej ŠOLTÉSZ, Slovak University of Technology in Bratislava, Slovakia Selçuk TOPRAK, Pamukkale University of Denizli, Denizli, Turkey Nicolae ȚĂRANU, "Gheorghe Asachi" Technical University of Iassy, Romania Florin ȚEPEȘ, "Ovidius" University of Constantza, Romania Dragoș VINTILĂ, "Ovidius" University of Constantza, Romania DESK EDITORS Geanina MIHAI, Mirela POPA, Cristina SERBAN, “OVIDIUS” University, Faculty of Civil Engineering, 124, Mamaia Blvd., 900527, RO, Constantza, Romania Number of Copies: 100 PUBLISHED BY: OVIDIUS UNIVERSITY PRESS, 126, Mamaia Blvd., 900527, RO., Constantza, Romania, Phone/Fax +40-241606421, [email protected] FREQUENCY: Yearly COVERED BY: PROQUEST, EBSCO REMIT OF JOURNAL: Journal can be freely downloaded from the site: http://revista-constructii.univ- ovidius.ro/; the authors receive a copy of their paper. ORDERING INFORMATION The printed version of the journal may be obtained by ordering at the „OVIDIUS” University Press, or on exchange basis with similar Romanian or foreign institutions. The price for a single volume is 40 euros plus postal charges. 126, Mamaia Blvd., 900527, RO., Constantza, Romania © 2000 Ovidius University Press. All rights reserved. For subscriptions and submission of papers, please use the e-mail address: [email protected] or [email protected] or postal address 22B Unirii str., 900524 RO, Constantza, Romania Instructions for authors can be found at: http://revista-constructii,univ-ovidius.ro/ ISSN 1584-5990 © 2000 Ovidius University Press. All rights reserved. Ovidius University Annals Series: Civil Engineering, Issue18, 2016 5 TABLE OF CONTENTS Section I Hydraulic Engineering. Water Resources. Costal Engineering. Environmental Engineering History of flood protection structures in Slovakia..................................9 A. Šoltész, M. Červeňanská, D. Baroková Evaluation of Water Management in Regions Affected By Water Structure Construction and Operation...................................................17 M. Červeňanská, A. Šoltész, D. Baroková, A. Janík Reduction of coastal erosion by beach nourishment of Romanian Black Sea Shore...............................................................................................25 M. I. Stan, D. F. Vintilă Research on the Stability of the Defense Works to Eroded River Beds.............33 M. Luca, F. Tamaşanu, A. L. Luca, G. Ilie, A. Balan Earthquake Vulnerability of Water Distribution Systems from Topology Perspective............................................................................41 A. C. Koc, U. S. Demir, S. Toprak The groundwater level variation due to seepage losses from Sinoe irrigation systems..................................................................................49 M. Stănescu, C. Buta, G. Mihai, L.Roșu Mechanisms and Risk of Embankment Dam Failure............................61 B. Ruedisser Practical application of wastewater treatment plant modeling and simulation..............................................................................................67 M. Koleva, A. Hammrich, W. Chen Urban Storm Water Runoff Pollution – An Overview and Recent Trends.......75 D. Rădulescu, G. Racovițeanu, A. Pienaru Role of polymer components of mixture as Non-Newtonian fluids......85 C. Moskalova, O. Popov, E. Rozhnyuk ISSN 1584-5990 ©2000 Ovidius University Press 6 Ovidius University Annals Series: Civil Engineering, Issue18, 2016 Section II Structural Engineering. Construction Technologies and Materials The non-linear analysis of the seismic response for dual structures, subjected to equivalent static loads.......................................................93 O. F. Țepeș, M. C. Căițeanu Obtaining of structure characteristics of the building composites by computer microscopy………………………………………………..103 I. Dovgan, A. Kolesnikov, S. Semenova Asphaltic facings – Durability and long-term behaviour……………109 M. Smesnik Section III Geology. Hydrogeology. Geotechnical Engineering Quantification of Volumetric Moisture in the Clay Loam Soil Profile by Measuring of Electrical Impedance...............................................115 M. Gomboš, J. Pařilková Evaluationof Selected Locality of East-Slovakian Lowland According the Soil Water Capacity......................................................................121 A. Tall, D. Pavelková Soil water storage modelling with aspect to volume changes.............129 B. Kandra, D. Pavelková Landslide Hazard Assessment in Regional Scale: Implementation and Reliability............................................................................................135 N. S. Klimis, K. Papatheodorou, B. N. Margaris ISSN 1584-5990 ©2000 Ovidius University Press Ovidius University Annals Series: Civil Engineering, Issue18, 2016 7 Section IV Management in Civil Engineering New areas of activity on the market in Romania: Facility Management........................................................................................147 G. Mehedintu, C. Vasiliu Life-cycle cost of a building in the new Romanian legislation...........155 G. Mehedinţu, N. Postăvaru Рricing policy of the construction firm...............................................163 A. Marichova Effective organization of construction firm........................................175 A. Marichova Section V Computational Methods in Civil Engineering. GeoInformatics Comparison of ISO 21748 and ISO 11352 standards for measurement uncertainty estimation in water analysis.............................................178 T. I. Venelinov Data Driven Estimation of Monthly Streamflow Based on Observation Ranges.................................................................................................193 F. Dikbas Trends in Yearly Precipitation and Temperature on the Aegean Region, Turkey.................................................................................................203 U.G. Bacanlı, A. Tanrıkulu Modeling tools for flood mitigation in urban areas............................211 M. Stancu, M. Cheveresan, T. Poienariu, V. Zaharia ISSN 1584-5990 ©2000 Ovidius University Press 8 Ovidius University Annals Series: Civil Engineering, Issue18, 2016 ISSN 1584-5990 ©2000 Ovidius University Press Ovidius University Annals Series: Civil Engineering, Issue18, 2016 9 History of flood protection structures in Slovakia Andrej Šoltész, Michaela Červeňanská, Dana Baroková _____________________________________________________________________ Abstract – The contribution deals with historical aspects of the protective and drainage structures in Slovakia. It describes the first attempts for an organised flood protection on our territory and claims Samuel Mikovíny to be one of the pioneers of technical progress and education. The construction of protective dams and drainage systems are emphasised as well as the development of dike structures on the Danube River. At the end the water associations against floods and internal waters (mostly in the Danubian lowland) are pointed out. They have done a great amount of useful work continuously provided complex solutions and, basically, were the longest operating organisations in the array of water management organisations in Slovakia. Keywords – dikes, flood protection in Slovakia, protective and drainage structures, Samuel Mikovíny. _____________________________________________________________________ 1. HISTORY Historically, territory of Slovakia, in lowlands of the Danube, Váh, Tisa and Bodrog river basins, has been exposed to repeated ravages when these rivers flooded [1]. The floods endangered lives and properties and resulted in the water-logging of farmland, which created marshes and had other undesirable effects. All of this led the inhabitants of these areas starting in the 13th century to take unusual countermeasures, according to historical records. They built dikes – embankments to protect their homes. The development of flood protection of an area together with the construction of dikes can be illustrated by the example of the Rye Island region [2]. The Danube River stream has been freely divided into many branches, especially in the area of current river bed and the river bed of Small Danube River. There were also branches in the area that, during floods, created a broad network of streams throughout the island. Even the river beds of the larger streams were not yet ___________________________________ Manuscript received 17th April 2016 Andrej Šoltész is with the Slovak University of Technology in Bratislava, Faculty of Civil Engineering, Radlinského 11, 810 05 Bratislava, Slovakia (corresponding author to provide phone: +421-2-59274-320; e-mail: [email protected]). Michaela Červeňanská is with the Slovak University of Technology in Bratislava, Faculty of Civil Engineering, Radlinského 11, 810 05 Bratislava, Slovakia (e-mail: [email protected]). Dana Baroková is with the Slovak University of Technology in Bratislava, Faculty of Civil Engineering, Radlinského 11, 810 05 Bratislava, Slovakia (e-mail: dana.baroková@stuba.sk). ISSN-1584-5990 ©2000 Ovidius University Press 10 Ovidius University Annals Series: Civil Engineering, Issue18, 2016 constant; they were formed and changed by the water with the active help of erosive and sedimentary processes. Some branches were filled with fluvial deposits, and others were formed anew. The ample extent of these processes also endangered the settlements. The oldest historical document concerning the protection of Rye Island is an open order issued by Kind Zigmund of Luxembourg to provide Rye Island, especially near the town of Šamorín, with a free workforce for construction and maintenance of protective dikes. This way of arranging for the construction of dikes was retained in future centuries, as proven by a 1569 law [5], [6]. Historians also assume unusual countermeasures had been in the 13th century previously taken. For example, a German record mentions Rye Island (in German, “Schütt Insel”), which became suitable for permanent settlement after the construction of dikes. Based on record it is assumed that the construction of the dikes had already started in the 13th century. But the agriculture on Rye Island still suffered from the consequences of flooding. The floods impaired the compactness of the dikes, overflowed them or even washed them completely away. Written records report, for example, heavy floods on Rye Island in 1568 and 1569 and the chronicles of the County of Bratislava mention 21 floods on Rye Island between 1673 and 1818. It is no wonder that in the 17th century, historians still considered the region of Rye Island as a marshy ground to the extent of two thirds of it, admitting only the western part to be drier [6]. The first attempts of organised protection started in the 17th century. The administration of the structures was within the jurisdiction of the counties which were obliged to carry out flood protection. The counties therefore had specialised technical authorities. The County of Bratislava had already elected a dike director (director aggarum) in 1616 and decreed yearly repairs always by the St. Michael’s Day (i.e., September 29) in 1731. Among the experts engaged in the protection of Danubian Lowland against floods was the noted scientist and engineer Samuel Mikovíni (1686? – 1750). He considered the main cause of the floods to be the numerous meanders and branches that should be removed by tapping. His “Mappa Comitanus Posoniensis” of the upper part of the Danube and the Small Danube from the beginning of the 18th century probably served for this purpose (Fig. 1). We can unambiguously claim Samuel Mikovíni to be not only a pioneer of scientific mapping in Hungary, but also of technical progress and education. It is worth noting, that his activities in cartography became a good basis for the preparation of the regulation of water regimes not only in the case of the water reservoirs in the area of Banská Štiavnica (more detailed in [6]) but also in the cases of the Danube River below Bratislava, Budapest and other places in Hungary. As an example, records from 1727 note his participation in the regulation of the water regime in the surroundings of the town of Tata in northern Hungary on the property of the Esterházy family. One of his accomplishments that is held in high esteem is the establishment of the Civil School of Technology as a part of the School of Mining in Banská Štiavnica (the future Academy of Mining).

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REMIT OF JOURNAL: Journal can be freely downloaded from the site: http://revista-constructii.univ- foreign institutions. The price for a Ovidius University Annals Series: Civil Engineering, Issue18, 2016. 5. TABLE OF 12 m pipe sections are welded thus forming the pipe section future ballasted.
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