12 pg_W-261_EFS 5/16/06 10:38 PM Page 3

FIGURE 1.

COVER (F)

SCREWS (E)

LAMP (G)

SOCKET

BASE (H)

 

FITTER (A)

MOUNTING

 

SCREWS (D)

WIRE

 

CONNECTORS (C)

POST (B)

NOTE:

Lamp and Ballast are replaceable without cutting any wires.

Turn power off first to avoid "risk of shock".

Simple twist & lock replacement.

Line art shown may not exactly match the fixture enclosed.

*NOT SUPPLIED

However, the installation instructions do apply to this fixture.

3

Page 3
Image 3
Westinghouse W-261 owner manual Line art shown may not exactly match the fixture enclosed

W-261 specifications

The Westinghouse W-261 is a notable advancement in the realm of nuclear power technology, representing a significant milestone in the evolution of pressurized water reactors (PWRs). As part of the Westinghouse family of nuclear reactors, the W-261 is primarily known for its enhanced safety features, operational efficiency, and adaptability to various energy demands.

One of the key features of the Westinghouse W-261 is its compact design, allowing for a smaller footprint compared to traditional nuclear reactors. This makes it particularly appealing for locations where space is a constraint. The W-261 is engineered to deliver a power output typically in the range of 1,000 megawatts, making it a robust option for meeting the energy requirements of large urban areas or industrial applications.

The reactor employs advanced modular construction techniques, which streamline the assembly process and reduce construction time and costs. The use of pre-fabricated components facilitates quicker installation and commissioning phases, providing an overall boost to project economics.

In terms of safety, the Westinghouse W-261 incorporates several state-of-the-art technologies designed to ensure the highest levels of operational security. The reactor features a core catchment system that can contain any potential core material in the event of an extreme accident. Additionally, the passive safety systems allow for natural circulation of coolant, eliminating the need for active intervention in many emergency scenarios. This self-reliant cooling mechanism operates even without external power or human intervention, thus enhancing the safety profile substantially.

The reactor’s core is designed to utilize advanced fuel technologies, including high-density fuels that prolong fuel life and enhance thermal efficiency. This not only reduces the frequency of refueling outages but also minimizes the quantity of waste generated, contributing to a more sustainable nuclear energy future.

Moreover, the W-261 is equipped with sophisticated monitoring and control systems that leverage digital technologies for real-time data assessment. These systems improve the operational decision-making process, enabling swift adjustments to the reactor’s performance based on fluctuating demand or operating conditions.

Overall, the Westinghouse W-261 stands out in the nuclear energy sector for its innovative technologies, focused on safety, efficiency, and sustainability. As the world increasingly turns to renewable energy solutions, the design and operational principles embodied in the W-261 represent a compelling option for meeting future energy demands while prioritizing environmental stewardship.