Westinghouse W-145 owner manual Line art shown may not exactly match the fixture enclosed

Page 3

FIGURE 1.

GROUND

 

WIRE

SIDE

HOLE (G)

GREEN

GROUNDING

SCREW (F)

MOUNTING

SCREWS (A)

NIPPLE (K)

FINIAL (M)

*OUTLET BOX (C)

WIRE

CONNECTORS (E)

MOUNTING

BAR (B)

*OUTLET BOX SCREWS (D)

CANOPY (H)

KEY SLOTS (I)

GLASS

SHADE (J)

WASHER (L)

Line art shown may not exactly match the fixture enclosed.

 

*NOT SUPPLIED

However, the installation instructions do apply to this fixture.

 

3

Image 3
Contents Indoor Lighting Fixture Installation Instructions Electrical Shock can Result in Serious Injury Warranty InformationLine art shown may not exactly match the fixture enclosed Fixture Assembly Instructions Mounting and Wiring InstructionsGarantie Limitée DE Cinq ANS FIL DE Mise Instructions D’ASSEMBLAGE DE Lappareil Déclairage Instructions DE Montage ET DE RaccordementAdvertencia UNA Descarga Eléctrica Podría Causar Lesiones Garantía Limitada DE Cinco AñosFigura Instrucciones DE Montaje DEL Artefacto Instrucciones DE Montaje Y CableadoAdvertencia Mise EN GardeNettoyage ET Entretien Cleaning and CareCommande DE Pièces Ordering Parts
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W-145 specifications

The Westinghouse W-145 is a notable product in the realm of nuclear technology, specifically designed to represent advancements in the field of pressurized water reactor (PWR) designs. This reactor has been developed to offer enhanced safety, efficiency, and operational reliability, making it an essential component for modern power generation.

One of the main features of the W-145 is its robust design that prioritizes safety. The reactor incorporates a double containment structure, which provides a significant barrier against the release of radioactive materials. This feature is critical in ensuring that, in the unlikely event of an incident, the environment and public safety are safeguarded. Additionally, the reactor is equipped with advanced emergency cooling systems, which can maintain core integrity even during unexpected scenarios.

The W-145 uses a unique fuel management strategy that optimizes fuel use and enhances the economic viability of the power plant. The reactor is designed to accommodate a diverse range of fuel types, including low-enriched uranium, which allows for flexibility in fuel sourcing and helps minimize operational costs. Its fuel cycle efficiency is further complemented by advanced online monitoring systems that provide real-time data on reactor performance and fuel utilization.

In terms of technology, the Westinghouse W-145 boasts sophisticated digital control systems that facilitate seamless operation and monitoring of the reactor. These systems allow for more precise regulation and control, resulting in improved response times to any operational anomalies. The adoption of digital technology also means that predictive maintenance can be performed, reducing downtime and ensuring a more reliable power supply.

Operational efficiency is another critical characteristic of the W-145. The reactor is designed to achieve high thermal efficiency, translating to lower fuel consumption and reduced greenhouse gas emissions during electricity generation. It operates at a higher thermal output while ensuring that environmental impact is minimized through robust waste management practices and sustainable operational strategies.

In summary, the Westinghouse W-145 is a state-of-the-art pressurized water reactor that combines advanced safety features, efficient fuel management, and innovative technology. Its design reflects a commitment to sustainable energy production, positioning it as a leading choice for future nuclear power applications. The W-145 exemplifies the strides made in the nuclear industry towards safer and more efficient energy solutions, contributing significantly to the quest for clean energy.