V. B. Tregubov scite author profile

V. B. Tregubov

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Use of internal direct-charge detectors as input elements of automatic reactor control systems

Mitel'man¹,

Andreev²,

Batenin³

et al. 1975

At Energy

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Automatic power control is one of the basic problems in the operation of nuclear power reactors. Its successful solution depends on the availability of accurate and reliable information of the power and energy release distribution in the reactor core. In principle, a nuclear reactor can be controlled by measuring its power by heat-engineering methods, the 7 radiation of the fission products, and the produced neutron flux.The principal drawbacks of the heat-engineering method is its slow response and limited measuring range, which are respectively determined by the time required for thermal equilibrium to be established during transition periods and by small temperature differences of the coolant at low reactor powers. Because of these difficulties, the heat-engineering method is rarely used for automatic control, but is widely employed as a reference method for calibration of other reactor power control systems and for providing an auxiliary signal for the reactor control system [1, 2].Power measurement by means of 7 detectors is limited by the slow response of such detectors due to the kinetics of 7 quanta emission. Emelyanov et al. [3] suggested a method of correcting the response of 7 detectors according to which the time dependence of a T-quanta flux is represented by a sum of exponents with appropriate coefficients. Unfortunately, both the exponents and coefficients depend on the reactor type and on the location and structure of detectors, and must be found separately for each specific case; moreover, even a small change in the detector location necessitates recalculation of these quantities which always involves much computation and experimental work. Because of these reasons the suggested method of improving the response of T detectors is rarely used in practice.The neutron method of power monitoring and control [1, 2] is most widely used because it offers the additional advantage that the parameter directly acted upon by control devices is the neutron flux density. The present use of neutron-current ionization chambers located outside the reactor core as input elements for automatic control systems provides no unambiguous relation between the reactor power and detector readings because of the possible "shading" of the detectors by control elements and because of considerable neutron-field gradients in the reactor. Actually, the operation of detectors located outside the core is based on leakage neutrons. In case of a large core, and in particular when the coefficient of reactivity is positive, there is a vital need in core control which is impossible to accomplish with detectors located outside the core.This makes it very desirable to design automatic reactor control systems based on intracore neutron detectors. Such a method makes it possible to combine the intracore monitoring sysfem of energy release distribution and the automatic reactor control system (which would reduce the total number of neutron detectors and make the system less expensive), to obtain objective and more accurate data on the tota...

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Status of the first nuclear power station

Sever'yanov¹,

Tregubov²

1979

At Energy

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High power intra-coupled transistor of R&PC «Istok»

Manchenko¹,

Pchelin²,

Tregubov³

2010

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High power internally matched transistor of R&PC “Istok”

Liapin¹,

Manchenko²,

Pchelin³

et al. 2008

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Experience in the operation of channels with single-pass steam generation in the reactor at the first nuclear power station

Dolgov¹,

Kozlov²,

Minashin³

et al. 1976

At Energy

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V. B. Tregubov

Use of internal direct-charge detectors as input elements of automatic reactor control systems

Status of the first nuclear power station

High power intra-coupled transistor of R&PC «Istok»

High power internally matched transistor of R&PC “Istok”

Experience in the operation of channels with single-pass steam generation in the reactor at the first nuclear power station

Contact Info

Product

Resources

About

V. B. Tregubov

Use of internal direct-charge detectors as input elements of automatic reactor control systems

Status of the first nuclear power station

High power intra-coupled transistor of R&PC «Istok»

High power internally matched transistor of R&#x00026;PC &#x201C;Istok&#x201D;

Experience in the operation of channels with single-pass steam generation in the reactor at the first nuclear power station

Contact Info

Product

Resources

About

High power internally matched transistor of R&PC “Istok”