Simulated and observed reversals of wave-driven alongshore sediment transport at the eastern Baltic Sea coast

Viška, Maija; Soomere, Tarmo

doi:10.5200/baltica.2013.26.15

Cited by 40 publications

(54 citation statements)

References 18 publications

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“…Tyrimų vieta yra kontinentinio sektoriaus pietuose, t. y. Klaipėdos šiaurėje. Šioje vietoje (Bitinas et al 2005;Viška, Soomere 2013), priekrantėje, yra nedidelė smėlio juos ta (mIV), kuri tęsiasi maždaug iki 4-5 m gylio, giliau slūgso moreninės nuogulos (g II-III) (Skuodis 2015). Vėlyviausios jūrinės nuosėdos (mIV) sudarytos daugiausia iš žvyringo, vidutinio rupumo ir smulkaus smėlio (Dundulis et al 2006).…”

Section: Grunto Duomenysunclassified

Non-cohesive Soil Direct Shear Strength Affected with Hydrostatic Pressure

Tamošiūnas

Skuodis

2017

Science - Future of Lithuania

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2017 © Straipsnio autoriai. Leidėjas VGTU leidykla "Technika". Šis straipsnis yra atvirosios prieigos straipsnis, turintis Kūrybinių bendrijų (Creative Commons) licenciją (CC BY-NC 4.0), kuri leidžia neribotą straipsnio ar jo dalių panaudą su privaloma sąlyga nurodyti autorių ir pirminį šaltinį. Straipsnis ar jo dalys negali būti naudojami komerciniams tikslams. ISSN 2029-2341 / eISSN 2029-2252 https://doi.org/10.3846/mla.2017.1078 STATYBA, TRANSPORTAS, AVIACINĖS TECHNOLOGIJOS CIVIL AND TRANSPORT ENGINEERING, AVIATION TECHNOLOGIES 2017 9(5): 520-523 natūraliomis slūgsojimo sąlygomis, nustatomas kerpamasis stipris yra netikslus. Žinant, kad grunto bandiniui paimti iš jūros dug no (Funes 2014) reikia daug pastangų, t. y. specia laus laivo su kernų gręžimo įranga ir pan., vieno gręžinio ir statinio zondavimo taško kaina siekia net iki 500 000 eurų. Dėl grunto bandinių paėmimo sudėtingumo ir santykinai didelės tyrimų kainos rezultatai, nustatyti tiesioginio kirpi mo bandymu su hidrostatiniu slėgiu, yra itin vertingi, nes atkuriamas pradinis hidrostatinis slėgis imituojant realias grunto slūgsojimo sąlygas. MOKSLAS -LIETUVOS ATEITIS SCIENCE -FUTURE OF LITHUANIA Grunto duomenysTyrimams naudotas smėlis, paimtas iš bangų skalaujamos zonos (14 kg, paėmimo gylis 0,4-0,5 m, paėmimo koor dinatės 55°46'4,07", 21°4'39,06"(WGS)), kurioje slūgso Holoceno amžiaus jūrinės nuogulos (mIV) (Skuodis et al. 2014). Tyrimų vieta yra kontinentinio sektoriaus pietuose, t. y. Klaipėdos šiaurėje. Šioje vietoje (Bitinas et al. 2005;Viška, Soomere 2013), priekrantėje, yra nedidelė smėlio juos ta (mIV), kuri tęsiasi maždaug iki 4-5 m gylio, giliau slūgso moreninės nuogulos (g II-III) (Skuodis 2015). Vėlyviausios jūrinės nuosėdos (mIV) sudarytos daugiausia iš žvyringo, vidutinio rupumo ir smulkaus smėlio (Dundulis et al. 2006). Tirto grunto pagrindinė sudėtis yra kvarcas (~85 %), žėru tis (6 %) ir kiti mineralai (Amšiejus et al. 2010) Projektuojant inžinerinius statinius vandens ekvato rijose, fjorduose, jūrose ir pan., pamatai įrengiamai giliai ir pagrinde esantis gruntas perima konstrukcijų apkrovas, šiame grunto tūryje porinio slėgio dydis priklauso nuo van dens stulpo aukščio. Teoriškai grunto kerpamojo stiprio rezultatai nepriklauso nuo grunto drėgnio, nes nagrinėjami efektyvūs įtempiai (Dirgėlienė 2013). Nepaisant teorinių sprendinių, nutarta atlikti tyrimus su tiesioginio kirpimo apa ratu, kurio techninės galimybės leidžia sukurti hidros tatinį slėgį aplink bandinį ir bandinio viduje. Ši funkcija užtikrina tiriamo grunto pradinių slūgsojimo sąlygų atkū rimą, t. y. sukuriamas hidrostatinis slėgis (imituojamas vandens stulpo aukštis) ir tik tada pradedama tiesioginio kirpimo bandymo procedūra. Tai labai svarbu, nes, neatku riant grunto bandinyje tokio pačio hidrostatinio slėgio kaip 521 grunto pavadinimas -smėlis (C U = 1,47; C C = 0,93; vienoda sankloda). Gruntą sudaro 1,34 % rupi, 96,38 % vidutinio ru pumo ir 2,28 % smulki frakcija (Skuodis 2015). Dėl pirmiau išvardytų grunto savybių šį gruntą galima praktiškai vadinti etaloniniu gruntu ...

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Section: Grunto Duomenysunclassified

Non-cohesive Soil Direct Shear Strength Affected with Hydrostatic Pressure

Tamošiūnas

Skuodis

2017

Science - Future of Lithuania

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“…First of all, the set-up height strongly depends on the approach angle of waves at the actual breaker line. This angle is well-defined only if the coastline is almost straight, the nearshore is homogeneous in the alongshore direction and the wave field is monochromatic (Larson et al, 2010;Viška and Soomere, 2013;Lopez-Ruiz et Earth Syst. Dynam.…”

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confidence: 99%

“…Several studies have focused on maxima of wave set-up over extended areas (O'Grady et al, 2015;Soomere et al, 2013) or the maxima of the contribution from wave set-up to water level extremes (Pindsoo and Soomere, 2016). This problem is relatively simple on comparatively straight open ocean coasts that are fairly homogeneous in the alongshore direction and where the highest waves tend to approach the shore under relatively small angles.…”

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confidence: 99%

“…This problem is relatively simple on comparatively straight open ocean coasts that are fairly homogeneous in the alongshore direction and where the highest waves tend to approach the shore under relatively small angles. These features make it possible to use 10 simplified schemes for evaluation of the impact of refraction and shoaling in the nearshore (e.g., Larson et al, 2010) or to assume that waves propagate directly onshore (O'Grady et al, 2015), and to reduce the problem to an evaluation of the properties of highest waves from a relatively narrow range of directions (Soomere et al, 2013). In areas with complicated geometry and especially in coastal segments where high waves may often approach under large angles to the shoreline it is necessary to take into account full refraction and shoaling in the nearshore (Viška and Soomere, 2013;Pindsoo and Soomere, 15 2015).…”

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confidence: 99%

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Inverse Gaussian distribution of wave set-up heights along a shoreline with complicated geometry

Soomere

Pindsoo

2017

Preprint

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Abstract. The phenomenon of wave set-up may substantially contribute to the formation of devastating coastal flooding in certain coastal sections. We study empirical probability distribution of the occurrence of different set-up heights in section of coastline near Tallinn in the Gulf of Finland, the eastern Baltic Sea. The shoreline in the study area is often attacked by high 10 waves from various directions and also has a complex geometry. Shown is that this distribution substantially deviates from the Rayleigh or the Weibull distribution that usually reflect the distribution of different wave heights. The distribution of wave set-up heights matches a Wald (inverse Gaussian) distribution along the entire study area. Even though different sections of the study area are open to different directions and host substantially different wave regimes, the leading term of the exponent in the associated inverse Gaussian distribution varies insignificantly along the study area and generally is close 15 to -1. This appearance signals that extreme set-up events are substantially more probable that it could be expected from the probability of occurrence of severe seas. This feature is invariant with respect to the orientation of the coastline and with respect to the properties of local wave climate.

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“…For example, Cieślak (1985) presented the direction of fluxes along the Polish coast. Data for the eastern coast of the Baltic Sea, from the Sambian Peninsula to Pärnu Bay, were represented by Viška & Soomere (2013). Such research estimates the total volume of sediments that are transported alongshore.…”

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confidence: 99%

Wave-induced bedload transport – a study of the southern Baltic coastal zone

Dudkowska

Gic-Grusza

2017

Geologos

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The wave-induced bedload transport and spatial distribution of its magnitude in the southern Baltic coastal zone of Poland are estimated. The vicinity of Lubiatowo was selected as a representative part of the Polish coast. It was assumed that transport is a function of shear stress; alternative approaches, based on force balances and discharge relationships, were not considered in the present study. Four models were studied and compared over a wide range of bottom shear stress and wind-wave conditions. The set of models comprises classic theories that assume a simplified influence of turbulence on sediment transport (e.g., advocated by authors such as Du Boys, Meyer-Peter and Müller, Ribberink, Engelund and Hansen). It is shown that these models allow to estimate transport comparable to measured values under similar environmental conditions. A united general model for bedload transport is proposed, and a set of maps of wave bedload transport for various wind conditions in the study area is presented.

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Simulated and observed reversals of wave-driven alongshore sediment transport at the eastern Baltic Sea coast

Cited by 40 publications

References 18 publications

Non-cohesive Soil Direct Shear Strength Affected with Hydrostatic Pressure

Non-cohesive Soil Direct Shear Strength Affected with Hydrostatic Pressure

Inverse Gaussian distribution of wave set-up heights along a shoreline with complicated geometry

Wave-induced bedload transport – a study of the southern Baltic coastal zone

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