Estimating Maximum Water Levels During Winter Flooding at Some Segments of the Lena River

Proceedings of the International Symposium "Engineering and Earth Sciences: Applied and Fundamental Research" dedicated to the 85th anniversary of H.I. Ibragimov (ISEES 2019) Pub Date : 2019-08-01 DOI:10.2991/ISEES-19.2019.126

G. Struchkova, V. Timofeeva, T. Kapitonova, D. D. Nogovitsyn, K. Kusatov

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Abstract

The Sakha Republic (Yakutia) has a large territory that covers various climatic zones and a network of water bodies and thus is exposed to a wide range of natural emergencies. The most typical of them is spring-summer floods that cause flooding of vast territories, facilities and infrastructure, thus causing enormous damage to the economy; it determines relevance of developing and perfecting flood prediction methods to reduce the hazard level and possible damage. This research presents application of multiparametric models and neuron networks for development of a predictive model that allows forecasting the spring flooding hazard from statistical data accumulated through 44 years of observation and regressive modeling. The proposed methods allow evaluating the spring flood water levels as a function of various factors (thickness of ice, temperature, etc.) with sufficient accuracy, as confirmed with the results of predicting maximum water levels for two segments of the Lena River. Selection of the river course segments was determined by nearby location of potentially hazardous facilities whose flooding may cause significant property loss. Factors influencing spring flood levels have been determined.

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估计冬季洪水在勒拿河的一些区段的最大水位

萨哈共和国(雅库特)幅员辽阔，包括各种气候带和水体网，因此面临各种各样的自然紧急情况。其中最典型的是春夏洪水，它会导致大面积的土地、设施和基础设施被淹没，从而对经济造成巨大的破坏;它决定了开发和完善洪水预报方法以降低灾害等级和可能造成的损失的相关性。本研究提出应用多参数模型和神经元网络建立预测模型，利用44年的观测数据和回归模型对春季洪涝灾害进行预测。所提出的方法能够以各种因素(冰厚、温度等)的函数来评估春季洪水水位，并具有足够的准确性，这与预测勒拿河两段最高水位的结果相吻合。河道段的选择取决于附近有潜在危险的设施的位置，这些设施的洪水可能造成重大财产损失。已经确定了影响春季洪水水位的因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the International Symposium "Engineering and Earth Sciences: Applied and Fundamental Research" dedicated to the 85th anniversary of H.I. Ibragimov (ISEES 2019)

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