Construction of Test-Production Power Generation Unit with the Fast-Neutron Reactor with the Lead-Bismuth Heat Carrier in Ulyanovsk Region (ОPEB Turbine Unit with the SVBR-100 Reactor Plant)

Разработка проектно-сметной документации для нового строительства и реконструкции действующих энергетических объектов и гражданского строительства

Construction of Test-Production Power Generation Unit with the Fast-Neutron Reactor with the Lead-Bismuth Heat Carrier in Ulyanovsk Region (ОPEB Turbine Unit with the SVBR-100 Reactor Plant)

100 MW

The object location: Dymytrovhrad -10 town, Ulyanovsk region, RF.

The Customer: «АКМE-Engineering».

Designing Stages:

  • Conceptual design documentation for the turbine unit.

 

 

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The Project Technical-Economic Indices

  • The installed capacity: electrical, MW- 100, heat, MW (Gcal/h) - 116.3 (100).
  • The turbine unit main equipment components: the steam turbine of the К-100-6.7 type, the turbine generator of the ТФ-110-2УХЛ4 type.
  • The turbine plant electric capacity in the condensing mode, MW - 100.
  • The gross heat rate for electric power generation in the condensing mode, Kcal/kW/h - 2407.5.
  • The turbine plant electric capacity in the heat generation mode, MW - 77.19.
  • The gross heat rate for electric power generation in the heat generation mode, Kcal/kW/h – 1823.6.

Brief Description of Main Solutions

Within the «KHDDI «TEP-SOYUZ» LLC works scope has been fulfilled the conceptual design documentation development for the turbine unit and the station block of the turbine unit ОPEB with the SVBR-100 reactor plant. The reactor plant, auxiliary buildings, structures and systems, to be located at the object site have been designed by JSC «Main Institute «VNIPIET».

The designed test-production power generation unit is designated for heat and electric power generation for the region needs, as well as for complex proving the design technical data of the turbine unit ОPEB with the SVBR-100 reactor plant (such as the operation reliability, safety, the service life technical data, the nuclear power plant economic technical data) in the actual operation mode conditions.

In the project for the first time there has been realized the stable implementation of the unique lead-bismuth reactor mainly in terms of its safety parameters.

The turbine unit ОPEB with the SVBR-100 reactor plant must become the basis for commercialization of the innovatory civil lead-bismuth reactor technology and become the prototype of the «nuclear island» for the perspective serial modular nuclear complexes based on the unified SVBR -100 reactor plant for regional and local power systems of the electric capacities within 100 up to 400 MW range, used both for heat supply and electric power supply of the regional consumers, and, if required, in the water desalination processes, in the field of petro chemistry etc.

   The turbine unit is intended for the OPEB secondary coolant circuit equipment location and heat and electric power generation.

Within the turbine unit scope is provided for the following equipment installation:

  • the КТ-100-6.7 condensing steam turbine with the steam extractions for heat power generation, of PJSC «Turboatom» production, Kharkov, Ukraine;
  • the ТФ-110-2УХЛ4 air-cooled electric generator, of SPA JSC «ELSIB», Novosibirsk city, Russian Federation.
  • the separators - steam super heaters, the feedwater and heating system water pumps, the low pressure and high pressure heaters, the unit water purification plant, the turbine unit PACS (Process Automated Control Systems) and other equipment, required for ensuring the process with the required safety parameters.

   Within the scope of the turbine unit building, besides the turbine hall proper, are provided for the premises and the equipment of the deaerator hall, the 0.4 kV auxiliary needs switchgear, the relay panels, the turbine oil facilities, the chemical dosing facilities, automatic chemical inspection, PACS, ventilation centers, the premises for the operational and maintenance and repair personnel location.

   At the turbine hall butt end is located the station unit comprising the unit step-up transformer, portals, disconnectors, the current-limiting reactors and the underground emergency oil discharge reservoir.

   Based on the conceptual design documentation there has been developed the turbine unit three-dimensional model by the software SmartPlant of Intergraph production.