Boxodir Xoshimovich - All sciences. №6, 2022. International Scientific Journal

It would be wrong to assume that all the impacts of reservoirs on the environment (in fact, in much greater numbers than those considered in Buer) will only be negative. Usually, each of them will have a set of positive properties, both negative and not so much.

Thus, it is also wrong to think that all forms of reservoir outcrops are inevitable and natural defects of hydraulic engineering. Many of these effects manifest themselves in the practice of creating and using reservoirs and turn out to be the consequences of incorrect design of objects or violation of the rules for the use of gyroscopes in general. For example, the harmful effects of reservoirs on fishing can be eliminated at a significant level by properly designing reservoirs and observing the appropriate level of their use.

Nature protection measures. When designing hydropower facilities, it is necessary to ensure that the damage to nature is at the lowest possible level. In order to control and timely prevent environmental pollution at the HPP, the following observations were established, namely:

· by draining and removing process oils;

· with the quality of the water to be disposed of after use;

· with ledges of elegaz puddles in complex switchgear.

In addition, taking into account the characteristics of large reservoirs with a complex and energy purpose, the following observations are carried out in them:

* Meteorological;

* hydrochemical;

· hydrobiological, including ichthyological observations.

According to the results of observations, the caretakers receive information about the necessary environmental measures.

When creating reservoirs, their water protection zone is assumed, protective forest plantations and reforestation measures are planned on the same territory. Contamination of the water protection zone by water flows into the reservoir prevents the ingress of substances.

Based on specially conducted scientific research, GES projects included the following extensive set of measures to protect flora and fauna, including:

· restoration of forests instead of flooded woodlands, relocation of rare, relict and Red-listed plants from flooded areas;

* cultivation of valuable varieties in crop rotation; introduction of a system of special permits that do not allow the basin to build up its lower part;

* moving to catch valuable animal species from flooded areas;

* creation of livestock farms and livestock farms for breeding animals; Organization of protective and reserve zones; construction of fishing, fish-breeding and compensation facilities.

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Аннотация. В настоящей работе обнаружен и исследованы пространственно-осциллирующей фотовольтаический ток (ПОФТ) в направлении [100] в сегнетоэлектрике SbSJ при освещении поляризованным светом в направлении [010] и образованию от оптической зависимости в [001] направлении структуры пространственного осциллирующего фотовольтаического тока J x. Обсуждены некоторые экспериментальные и физические основы пространственно осциллирующего фотовольтаического тока.

Ключевые слова: сегнетоэлектрик, поляризация, оптически-активный кристалл, пространственно-осциллирующий фотовольтаический ток, тензор 3-ранга.

Annotation. In this paper, the spatially oscillating photovoltaic current (POFT) in the direction [100] in the SbSJ ferroelectric is detected and investigated when illuminated with polarized light in the direction [010] and the formation of the structure of the spatial oscillating photovoltaic current Jx from the optical dependence in the direction [001]. Some experimental and physical bases of spatially oscillating photovoltaic current are discussed.

Keywords: ferroelectric, polarization, optically active crystal, spatially oscillating photovoltaic current, rank 3 tensor.

In recent years, it has become clear that in thermodynamic nonequilibrium conditions, currents of a different nature are possible due to the absence of a center of symmetry medium. The most important of this class of effect is the anomalous photovoltaic effect (AF effect).

The AF effect is that with uniform illumination of a short-circuited ferroelectric, a stationary current flows through it, which in [1,2] was called photovoltaic. It has been shown that it is the photovoltaic current that leads to the anomalous photovoltaic effect (AF effect) in ferroelectrics.

The anomalous photovoltaic effect discovered for ferroelectrics for the first time in [1,2] is a special case of a more general AF effect described for crystals without a center of symmetry by the third rank aijk tensor [3].

According to (1), with uniform illumination by linearly polarized light of homogeneous crystals without a center of symmetry (ferroelectric or piezoelectric crystal), a photovoltaic current Ji arises in it, the sign and magnitude of which depend on the orientation of the polarization vector of light with projections Ej, Ek*.