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Turbine building

Table 5.3-1 Turbine Building Flooding in U S. Nuclear Power Plants ... Table 5.3-1 Turbine Building Flooding in U S. Nuclear Power Plants ...
Solid Radioactive Waste 11.4 Central Hot Water Heating 9.2.9 Turbine Building Closed Cooling 10.12... [Pg.59]

The power conversion system to produce electricity from the AHTR uses a multistage molten coolant gas cycle (MCGC)/ which is based on the GT-MHR power conversion unit (PCU). With similar power output, the MCGC system is expected to be more compact and, thus, provide the potential for major reductions in the turbine building volume and power conversion system capital cost for the AHTR relative to conventional systems that use a steam Rankine cycle. [Pg.31]

Turbine building. The turbine building for the AHTR will be much more compact than a steam-cycle turbine building. Here the AHTR turbine building cost is assumed to be 50% of the cost of the 2000 MW(t) S-PRISM turbine building. [Pg.90]

The turbine building houses two parallel turbo-generator sets each with Its own auxiliaries. It Is of reinforced concrete and structural steel construction. [Pg.37]

The general arrangement of the CANDU 3 nuclear power plant is shown in Figure 5.8.3 A The principal structures included the Reactor Building, two separate Service Buildings and the Turbine Building. Other structures include the Administration Building, two separate Pump houses and the Main Control Area. [Pg.187]

Turbine building generally houses the power generation system, electrical system and common services system. Other facilities are located in buildings specifically named after, the facility. [Pg.203]

The fourth block, finally, is formed by the turbine building, the non-vital medium voltage switchgear building, the transformer enclosures, the service water pump house and the circulating water pump house. This block is located on the other side of the reactor building, compared with the second block. [Pg.244]

Central control building Wet-cooling-cells Cooling tower Transformer Deionat tanks Turbine building... [Pg.336]

The structural complex at the center of the plant comprises the reactor building and the turbine building. The second complex contains the switchgear equipment, the systems for radioactive waste treatment and storage, the hot workshop, staff amenities, the main control room and the entrance to the controlled access area. The third structural complex consists of the plant service systems the circulating water supply systems, the emergency diesel generators, the cold workshops and the demineralized water system. [Pg.363]

Control Building Fuel Building Auxiliary Building Rad. Waste Building Diesel Building Containment Building Turbine Building Station Service Water Pump Structure... [Pg.119]

In most cases, two RBMK reactors are equipped with a common auxiliary building which is located between the reactor buildings. Parallel to this complex, the turbine building for the two reactors is located. [Pg.54]

NEUTRAl BEAM INJECTOR S TURBINE BUILDING REACTOR COOLANT helium ... [Pg.25]

Nuclear island and turbine building layout-elevation. [Pg.339]

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See also in sourсe #XX -- [ Pg.572 ]



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TURBINE BUILDING CLOSED COOLING WATER

Turbine Building Closed Cooling Water System

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