Войти
Seawater Salinity Estimating Module Based on the Sound Velocity Measurements  id статьи: 887
Тип публикации
статья в журнале
Язык
En
Журнал
PHYSICAL OCEANOGRAPHY

ISSN:0928-5105
eSSN:1573-160X
Год
2021
Выходные данные
том 28
выпуск 1
страницы 122-131
EDN
Абстракт
Purpose. Reliability of knowledge about the ocean dynamics and climate variability is largely limited for lack of systematic in situ observations of the sea surface layer salinity, which is one of the basic hydrological parameters determining circulation and stratification of the water masses. The study is aimed at developing an autonomous device for long-term monitoring of salinity in the seawater upper layer. Methods and Results. One of the most effective tools for in situ observations of the ocean upper layer is the global network of surface drifting buoys - drifters. At present, the network consists of more than 1500 buoys, but only a few of them provide sea surface salinity observations within the framework of a limited number of pilot experiments. In the drifters, salinity is calculated by the traditional method using the results of the electrical conductivity and temperature measurements. There are a few problems related both to the principle of determining salinity by this method and to providing long-term stable running of conductivity sensors under the conditions of pollution and biological fouling. A drifter equipped with the module for the sound velocity and temperature measurements used for calculating salinity by an alternative method just aboard the drifter, was developed in Marine Hydrophysical Institute, Russian Academy of Sciences. The sound velocity and temperature module includes a specially designed time-of-flight sound velocity sensor with the fixed base and a quartz temperature sensor. In course of two years, numerous laboratory and in situ tests of several prototypes of the sound velocity and temperature module were performed. The laboratory tests showed that the repeatability limits for the results of the sound velocity measurements in the distilled water were +/- 0.02 m/s. According to the data of the long-term in situ tests performed at intensive biological fouling, the error of salinity estimation resulted from of the sound velocity and temperature measurements were within +/- 0.05 %. This result permits to expect that the sound velocity and temperature module parameters will remain stable in real conditions of long-term autonomous operation...
Ключевые слова
rifting buo, seawate, ound velocit, emperatur, alinit
Дата занесения
2021-05-12 12:00:45
Scopus
Статус нет
Квартиль --
WoS
Статус есть
Квартиль --
РИНЦ
Статус есть
Импакт-фактор --
количество баллов за публикацию
4
количество баллов каждому автору
1
история начисления баллов за квартал:
Финансирование: