Abstract

The operating experience of Novovoronezh NPP II-1 shows that, in the summer period, the temperature of the cooling water exceeds the design value: this indicates the insufficient performance of the service water supply system. The main factor that has a negative impact on the performance of this system is the formation of carbonate deposits on the cooling tower filler. At Novovoronezh NPP II-1, the cooling tower water distribution system was cleaned from carbonate deposits by the method of combined vibration and aerohydraulic impact. The tested method of cleaning the filler cannot be considered optimal, since the main stage that determines the entire cleaning duration is the assembly/disassembly of the cooling tower filler. It is necessary to continue research on the choice of a strategy for controlling the carbonate deposition rate, taking into account the revealed influence of the design features of the main cooling water pipelines and pipelines of the cooling tower water distribution system on the mechanism of deposit formation in the peripheral spraying area. As compensating measures to ensure the required temperature regime of the turbine plant equipment at Novovoronezh NPP II-1, it is practiced during the summer period to put the standby heat exchangers of the lubrication system and the standby pump of the nonessential services cooling water system into parallel operation. This solution is fraught with the risk of an unplanned decrease in the electrical load if this equipment is turned off in the event of a malfunction. To increase the operating stability of Novovoronezh NPP II-1 and -2 in the summer period, it is proposed to carry out a number of measures aimed at mitigating the negative consequences caused by the elevated service water temperature. Equipment upgrade options are evaluated, e.g., by installing an additional pump for the turbine building services cooling system and (or) laying an additional pipeline to supply part of the makeup water from the Don River directly to the suction pipelines of the pumps of the turbine building services cooling system.

Highlights

  • At the VVER-1200 power units (Novovoronezh NPP 2006), the main cooling water supply system and the nonessential services cooling water system are designed as part of the general service water system for cooling the turbine condensers as well as heat removal from the unit auxiliary equipment

  • The issues of the performance of the service water supply system become most acute in the summer period: annually, from May to September inclusive, the cooling water temperature periodically exceeds the maximum design value of 31 °C, which entails a proportional decrease in the power generated by the turbine unit (Fig. 1)

  • The total amount of makeup water supplied from the Don River to the service water supply system will remain unchanged, and the temperature of the water supplied to the UMA building consumers will decrease due to the addition of colder makeup water

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Summary

Research Article

Operating experience and ways to improve the performance of the service water supply system at the Novovoronezh NPP II (Units 1 and 2)*.

Introduction
Service water supply system operating modes
Opportunities for solving operation problems
Conclusion

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