Assessment of operation of safety channel signal cables at nuclear power plants under fire conditions

Lebedchenko, O. S.; Zykov, V. I.; Puzach, S. V.

doi:10.22227/pvb.2020.29.04.51-58

Požarovzryvobezopasnostʹ

2020

DOI: 10.22227/pvb.2020.29.04.51-58

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Assessment of operation of safety channel signal cables at nuclear power plants under fire conditions

O. S. Lebedchenko¹,

V. I. Zykov²,

S. V. Puzach³

Abstract: Introduction. Signal cables of safety systems, installed at nuclear power plants (NPPs), retain the ability to conduct modulated signals during the time period needed to switch the reactor facility to a safe mode. However, the ability of signal cables to transmit signals correctly in the high temperature gas medium, which is typical for the early stage of a room fi re, has not been exposed to research.Aims and objectives. The co-authors offer a theoretical assessment of the ability of NPP safety system cables … Show more

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Cited by 3 publications

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The application efficiency of intumescent coatings for power cables of safety systems of nuclear power plants under fire conditions

Lebedchenko¹,

Puzach²,

Zykov³

2021

Požarovzryvobezopasnostʹ

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Introduction. The reliable operation of safety systems, that allows for the failure of no more than one safety system component, entails the safe shutdown and cool-down of an NPP reactor in the event of fire. However, the co-authors have not assessed the loss of performance by an insulating material, treated by intumescent compositions and used in the power cables of the above safety systems exposed to the simultaneous effect of various modes of fire and current loads.Goals and objectives. The purpose of the article is the theoretical assessment of the application efficiency of intumescent fire-retardant coatings in power cables used in the safety systems of nuclear power plants having water-cooled and water-moderated reactors under fire conditions. To achieve this goal, the temperature of the outer surface of the insulation and the intumescent fire-retardant coating was analyzed depending on the mode of fire. Theoretical foundations. A non-stationary one-dimensional heat transfer equation is solved to identify the temperature distribution inside the multilayered insulation and the fire-protection layer of a conductive core.Results and their discussion. The co-authors have identified dependences between the temperature of the outer surface of the insulation and the fire retarding composition of the three-core cable VVGng (A)-LS 3x2.5-0.66, on the one hand, and the temperature of the indoor gas environment for three standard modes of fire and one real fire mode. It is found that before the initiation of the process of destruction of the insulation material, the intumescence of the fire-retardant coating occurs only in case of a hydrocarbon fire. Under real fire conditions, the maximal insulation melting time before the initiation of intumescence of the fire-retardant coating at the minimal temperature of intumescence is 4.75 minutes, while the maximal time period from the initiation of destruction of the insulation material to the moment of the insulation melting is 6.0 minutes.Conclusions. An experimental or theoretical substantiation of parameters of intumescent fire retardants, performed using standard modes of fire, has proven the potential loss of operational properties by insulating materials of power cables, used in the safety systems of nuclear power plants, in case of a real fire. Therefore, it is necessary to establish a scientific rationale for the efficient use of fire retardants in the above cables with regard for the conditions of a real fire.

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The application efficiency of intumescent coatings for power cables of safety systems of nuclear power plants under fire conditions

Lebedchenko¹,

Puzach²,

Zykov³

2021

Požarovzryvobezopasnostʹ

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Operability evaluation of electrical wires and cables subjected to simultaneous fire and current loadings

Puzach¹,

Lebedchenko²,

Zykov³

et al. 2023

Požarovzryvobezopasnostʹ

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Introduction. Intumescent coatings are used as a means of protection from heat flows, and their mission is to preserve the operability of wires and cables under fire conditions coupled with simultaneous current loading. However, the effect of insulation destruction on the operability of cables has not been studied for the case of a real fire regime.Goals and objectives. The purpose of the article is to evaluate the experimental operability of electrical wires and cables subjected to simultaneous effects of fire and current loadings.To achieve this purpose, an experimental testing unit was applied to conduct the experimental testing of wires and cables manufactured by various producers. At the same time, the temperature effect of the heated environment on electrical parameters of wires and cables, such as resistivity, inductance and capacitance, was evaluated.Theoretical background. In real fire conditions, dependence of indoor temperature, affecting the heating of cable insulation, differs essentially from the same dependencies in cases of various standard fire conditions. Therefore, the insulation destruction process may occur before the coating intumescence starts.Results and discussion. An experimental testing unit has been developed. This unit allows for the gradual cable heating with a pre-set temperature measurement interval and cable electrical characteristics. Dependencies of resistivity, inductance and capacitance of standard electrical cables on the temperature of the air surrounding the cable are obtained. It’s been discovered that the gradual heating of an electrical conductor or cable eventually leads to a short circuit between its conductive cores and further electric current transmission in electrical wires and cables. It is shown that phases and amplitudes of an input electrical signal can drastically change before the short circuit.Сonclusions. The simultaneous effect of fire and current loadings on standard electrical wires and cables causes a short circuit in the temperature range, in which no intumescence of flame retardant coatings is initiated on the insulation surface. Therefore, these coatings can ineffectively maintain the operability of electrical wires and cables.

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Экспериментальная Оценка Эффективности Применения Вспучивающихся Огнезащитных Покрытий Для Электрических Проводов И Кабелей При Одновременном Воздействии Пожара И Токовой Нагрузки

Пузач,

Лебедченко,

Зыков

et al. 2023

Požarovzryvobezopasnostʹ

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Assessment of operation of safety channel signal cables at nuclear power plants under fire conditions

Cited by 3 publications

References 4 publications

The application efficiency of intumescent coatings for power cables of safety systems of nuclear power plants under fire conditions

The application efficiency of intumescent coatings for power cables of safety systems of nuclear power plants under fire conditions

Operability evaluation of electrical wires and cables subjected to simultaneous fire and current loadings

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