Advective Components Determination of Mass, Heat and Substances Exchange According to Natural Data at the Mouth of the Black River (Sevastopol Region)

Pub Date : 2023-01-01 DOI:10.21638/spbu07.2023.107
R. Minkovskaya, K. Slepchuk, Dmitry A. Antonenkov
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Abstract

Physical and mathematical modeling of nonstationary exchange processes in the zone of interaction of heterogeneous waters at the mouths of rivers remains problematic. Therefore, the paper proposes and tests a method for estimating multidirectional water, heat and salts consumption in this zone based on field data. For this purpose, a program of long-term expeditionary research was developed, full-scale measurements were carried out in 2017–2021, an algorithm and a calculation program were developed and methods for quantifying the components of metabolic processes were tested according to full-scale studies in 2019 at the mouth of the Black river, in the zone of interaction of river water and desalinated water of the Sevastopol Bay. The article provides a methodology and an example of the assessment of water, salt and heat exchange for a representative expedition carried out under average hydrometeorological conditions during the low-water periods. Calculations are made by the analytical method, using standard programs, and by the graphical method, by graphical interpolation and planimetry of areas. The discrepancies between the results obtained by different methods were 2–7 %, which indicates the possibility of using this technique to process long-term data with sufficient accuracy. The proposed method for quantifying the components of exchange processes based on natural data can be used in any formation of different types of river mouths for balance calculations, forecasting possible changes in their state and adjacent parts of the sea under the influence of natural and anthropogenic factors, as well as for calibration and verification of models.
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黑河入海口(塞瓦斯托波尔地区)自然数据的质量、热量和物质交换的平流成分测定
河口非均质水相互作用区非平稳交换过程的物理和数学建模仍然存在问题。为此,本文提出并试验了一种基于现场资料的多向水、热、盐耗估算方法。为此,制定了一项长期远征研究计划,在2017-2021年进行了全面测量,开发了一种算法和计算程序,并根据2019年在塞瓦斯托波尔湾河水和淡化水相互作用区域进行的全面研究,测试了量化代谢过程成分的方法。本文提供了在平均水文气象条件下进行的一次有代表性的考察在低潮期进行水、盐和热交换评估的方法和实例。采用解析法、标准程序和图解法、图解插值法和面积平面法进行计算。不同方法得到的结果之间的差异为2 - 7%,表明使用该技术处理长期数据具有足够的精度。所提出的基于自然数据的交换过程组成部分量化方法可用于不同类型河口的任何形成,用于平衡计算、预测自然和人为因素影响下河口状态和邻近海域可能发生的变化,以及用于模式的校准和验证。
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