S. Yu. Suslov scite author profile

S. Yu. Suslov

5Publications

4Citation Statements Received

0Citation Statements Given

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All-Russia Thermal Engineering Institute

Publications

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Evaluating the effect of frequency regulation modes on the reliability and economic efficiency of thermal power generation units

Zorchenko¹,

Rezinskikh²,

Suslov³

et al. 2011

Power Technol Eng

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Tests for evaluating the effect of primary and automatic secondary frequency control on the reliability and economic efficiency of thermal condensation power generator units with flow-through boilers are described briefly. The results of these tests serve as initial data for the development of a method of estimating the consequences and additional expenses involved in bringing thermal power generator units into operation in these frequency regulation modes.Keywords: power generator unit, general and standard primary frequency regulation, secondary frequency and power regulation, flow-through boiler, steam turbine.The involvement of the power generator units of thermal power plants in frequency and power regulation of the power system is currently quite widespread in Russia. Here there are basically two ways of operating the equipment: standard primary frequency regulation (NPRCh) and automatic secondary frequency and overcurrent regulation (AVRChM). During operation in the primary mode, a power generator unit must react to deviations in the grid frequency greater than 20 mHz with a proportional change in active power by imposing power changes within the corresponding specifications on the dynamics. During operation with secondary regulation, the active power of a power generator unit must vary at the specified rate (no more than 4% of the nominal unit power N nom in 1 min) within a reserve of ±5% N nom in accordance with specifications from the central automatic frequency and overcurrent regulation system (in addition to power changes according to the system schedule [1]). Combined operation in the primary and secondary modes is possible.These modes apply, first of all, gas-oil fired power generator units with powers of 800, 300, and 200 MW "selected" for this purpose [2]. Most of these were brought into operation more than 30 -40 years ago and have already been run longer than their design lifetimes. The primary and secondary frequency regulation modes are not part of the original design for these units, since they were designed for operation in their base modes. Thus, it is natural that the frequency and power regulation modes should have an effect on the operational reliability and economic efficiency of these units and lead to additional wear on the engineering equipment.Here we examine the results of a study of the effect of the primary and secondary frequency regulation modes on the reliability and economic efficiency of gas-oil power generation units carried out by JSC "VTI" at the request of JSC "SO EÉS." Although many power generation units (more than 50) have already been certified in tests of their suitability for the primary and secondary frequency regulation modes, they are not yet in practical use. Thus, there are no statistics on the operation of the equipment in these modes, so, besides a computational-analytic approach (calculations of lifetime, etc.), in our study we used an experimental-statistical method with expert evaluation of the results. Special tests were done on the 300 MW power generat...

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Standardization of the water heat carrier quality at Russian thermal power plants

Larin

Suslov

et al. 2017

Therm. Eng.

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Water Chemistry Development for a Thermal Power Plant Circulating Cooling System Using the VTIAMIN EKO-1 Chemical Agent

Kirilina

Suslov²,

Kozlovskii³

et al. 2019

Therm. Eng.

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The New Generation of CHP Plants: Water Chemistry and Its Support Systems

Larin

Kirillina³

et al. 2022

Therm. Eng.

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Status and Standardization of the Water-Chemical Regime for Power Generation Boilers

et al. 2017

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S. Yu. Suslov

Evaluating the effect of frequency regulation modes on the reliability and economic efficiency of thermal power generation units

Standardization of the water heat carrier quality at Russian thermal power plants

Water Chemistry Development for a Thermal Power Plant Circulating Cooling System Using the VTIAMIN EKO-1 Chemical Agent

The New Generation of CHP Plants: Water Chemistry and Its Support Systems

Status and Standardization of the Water-Chemical Regime for Power Generation Boilers

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