An integrated modelling system for coastal area dynamics

Abstract: Examples of computations are given.KEY WORDS Boundary-fitted co-ordinates Semi-implicit and implicit finite difference methods Coastal area water dynamics software

“…So far such forecasts in the Baltic States of the former Soviet Union have been given on an empirical basis; however, hydrodynamic models have also been used for predicting St. Petersburg surges (e.g. Klevanny et al, 1994). The present study presents sea level and flow simulations.…”

Extreme sea level events in the coastal waters of western Estonia

“…So far such forecasts in the Baltic States of the former Soviet Union have been given on an empirical basis; however, hydrodynamic models have also been used for predicting St. Petersburg surges (e.g. Klevanny et al, 1994). The present study presents sea level and flow simulations.…”

Extreme sea level events in the coastal waters of western Estonia

“…вклейку). Рассмотрено прохождение штормового нагона через судопропускное сооружение С-1 комплекса соо-ружений защиты Санкт-Петербурга от наводнений (КЗС) шириной 200 м и глубиной на пороге 16 м. Расчет выполнен по уравнениям (5), (6) в ГС и (9)-(11) в НГ с помощью ПК CARDINAL [70,71]. При расходе равном 4380 м 3 /с и юго-западном ветре 12 м/с скорость течения доходит до 2 м/с.…”

“…Об этом свидетельствуют и отдельные рабо-ты, и возникающие системные модели с возможностями НГ приложений: [73]; CARDINAL (Coastal ARea Dynamics INvestigation ALgorithm), [70,71]; ROMS (Regional Oceanic Modeling System), [25]; NBfOM (Nonhydrostatic Body-fitted Oceanic Model), [26]; ICOM (Integrated Coastal Ocean Modeling) [68]; SUSTANS (Stanford Unstructured Nonhydrostatic), [69]; ADCIRC (Advanced CIRCulation Model), [74]; SELFE (Semi-implicit Euler -Lagrangian Finite -Element model), [75]; UnTRIM (Unstructured 3-D hydrodynamic model), [76]; FESOM -coastal (Finite -Element Sea -ice Ocean Model [77] -вот далеко не полный перечень системных моделей.…”

Океанологические Модели Негидростатической Динамики. Обзор, "Фундаментальная И Прикладная Гидрофизика"

“…An example of this parameter's variability influence on the quality of the water level forecast is presented in Figure 3(c). The corresponding plots are based on the results of multiple runs of the Baltic Sea Model [15] provided with HIRLAM [16] meteorological forecast (both integrated as domain-specific objects) and parameterized with 48 different values of the wind stress factor. It is clear that the optimal wind stress factor value to obtain the best forecast of the water level is 1.61.…”

Cloud Technology for Forecasting Accuracy Evaluation of Extreme Metocean Events