SU1635154A1 - A technique for measuring horizontal sections of hydrophysical fields - Google Patents

Abstract

The invention relates to hydrophysical measurements of parameters of the aquatic environment, in particular with the help of towed measuring devices. The purpose of the invention is to reduce the dynamic errors in the measurement of temperature and indirectly measured parameters caused by the vibrations of the measuring instrument in the vertical plane. The method consists in towing the measuring device horizontally, discrete direct measurement of temperature, electrical conductivity and pressure with a sampling frequency greater than the oscillation frequency of the measuring instrument, recording the measurement results into the accumulator, reading from the accumulator when carrying out indirect measurements of electrical conductivity data and pressure corresponding to a predetermined towing depth, and the temperature value corresponding to the time when the component of the temperature sensor output signal is about prearranged oscillation of the measuring instrument is equal to zero, this point of time is determined by a time shift function of temperature caused by the inertia sensor 1 yl (LS

Description

The invention relates to hydrophysical measurements of parameters of the aquatic environment, in particular with the help of towed measuring devices.

The purpose of the invention is to reduce the dynamic error of measurement of temperature and indirectly measured parameters of hydrophysical fields caused by the oscillations of the measuring device in the vertical plane.

The drawing shows a graph, where the signals at the output of the depth sensors H, pressure P, electrical conductivity G and temperature T as a function of time t

. The method is implemented as follows.

When towing the measuring device in the horizontal direction under wave conditions of the surface of the water area, the measuring device makes oscillatory movements in the vertical plane. Since the gauges of the pubine, pressure, and electrical conductivity are almost instantaneous, their output signals H, P, G coincide in phase. Due to inertia, the output signal T of the temperature sensor is shifted by time D t with respect to the signals H, P and G. Direct discrete measurements are made of the signals T, H, P and G, respectively, with a frequency obviously much larger than the oscillation frequencies

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device and data is stored in the storage device. Since the vertical gradients of the measured parameters are much larger than the horizontal ones, the frequency of the oscillatory movements of the device is determined, for example, by the number of intersections of the line equal to the depth H0 per unit time. By comparing periodic changes in the functions of depth and temperature with respect to given levels, for example, But and To determine the time shift At of these functions due to the inertia of the temperature sensor,

When determining the parameters of hydrophysical fields measured indirectly (salinity, water density, sound velocity, etc.). As a function of electrical conductivity, pressure and temperature, the values of electrical conductivity Gi and pressure Pi are selected from the accumulator of information, corresponding, for example, to a predetermined depth Hi and moment of measurement ti. In this case, the temperature value Ti is chosen to correspond to the measurement time t2 ti + Dt, where At is the time shift of the temperature function. Thus, compensation is made for the dynamic error of measurement of temperature and indirectly measured parameters of hydrophysical fields.

Claims (1)

Invention Formula A method of measuring horizontal profiles of hydrophysical fields, consisting in towing a measuring device horizontally, discrete direct measurement of temperature, conductivity and pressure, recording measurement results into a storage device, reading from a storage device, and carrying out indirect measurements of hydrophysical fields, characterized in that, in order to reduce the dynamic errors of measurement of temperature and indirectly measured parameters of hydrophysical fields caused by the measuring device oscillations in vertical In this plane, the frequency of these oscillations is preliminarily determined and direct measurements of temperature, electrical conductivity and pressure are made with a frequency greater than the oscillation frequency of the measuring device, the temporal delay of the temperature values caused by the inertia of the measurements is determined, then indirect measurements are taken, pressure and conductivity values at a given depth, as well as temperature values shifted along the time axis by the time delay value. W