MOUNTING AND WIRING INSTRUCTIONS

CAUTION: For fixtures labeled for outdoor and wet location use, provide a water-tight seal between the fixture and the mounting surface by using silicone or similar caulking.

NOTE: Underwriters Laboratories (UL) does not require all fixtures to have ground wires. These fixtures meet all UL specifications.

1.Turn off power at circuit box to avoid possible electric shock.

2.Thread mounting screws (A) into the universal mounting plate (B) (see figure 1).

3.Secure universal mounting plate (B) to outlet box (C) with outlet box screws (D) (not included). NOTE: Mounting screws must be level for fixture to hang straight.

4.Identify color coding of fixture wires (see figure 2 on page 11).

5.To connect wires, take black fixture wire (group A from figure 2) and place evenly against black outlet box wire. Do not twist wires.

6.Fit wire connector (E from figure 1) over wires and twist until there is a firm connection. If wire connector (E) easily comes off, reattach wire connector (E) and check again for a firm connection (see figure 1).

7.Repeat steps 5 and 6 with the white (group B from figure 2) fixture wire and outlet box wires.

8.Partially thread green grounding screw (F) into side hole (G) on universal mounting plate (B) (see figure 1).

9.Wrap ground wire from fixture and ground wire (metal or green wire) from outlet box (C) around green grounding screw (F) on universal mounting plate (B).

10.Tighten green grounding screw (F). Do not over tighten.

FIXTURE ASSEMBLY INSTRUCTIONS

1.Assemble cage (H) by lining up tabs on socket cup (I) with slots in bottom of cage (H) (if applicable) (see figure 1).

2.Twist clockwise to lock in place.

3.Install panels (J) (textured side in) into cage (H).

4.Attach roof (K) by snapping pins into corresponding holes in roof.

5.Install lamp(s). Do not exceed recommended wattage.

6.Secure roof (K) by bending roof locking tab (L) inward approximately 1/4” and snapping into place.

7.Tuckwires inside outlet box (C).

8.Place back plate (M) over mounting screws (A).

9.Secure into place with cap nuts (N).

10.Turn power back on at circuit box.

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Westinghouse W-002 owner manual Mounting and Wiring Instructions, Fixture Assembly Instructions

W-002 specifications

The Westinghouse W-002 is an advanced nuclear reactor design that represents a significant step forward in nuclear technology. One of the defining features of the W-002 is its commitment to safety and efficiency. This reactor is built on the principles of passive safety systems, which means that in the event of an emergency, the reactor can automatically shut down and cool itself without the need for external power or human intervention. This approach drastically reduces the risk of accidents and enhances the overall safety profile of nuclear power generation.

With a thermal output of 1,100 megawatts, the W-002 is designed for high operational efficiency, allowing it to generate a substantial amount of electricity while consuming less fuel. The reactor employs advanced fuel technology that increases its fuel utilization, resulting in longer refueling cycles and reduced waste production. The core design is optimized for thermal-hydraulic performance, which contributes to improved heat transfer and overall plant efficiency.

A critical aspect of the Westinghouse W-002 is its modular design. This allows for a more flexible installation process and can significantly reduce construction times compared to traditional reactors. The modular approach also facilitates easier scalability, enabling utilities to expand their capacity as demand increases. Furthermore, the W-002 incorporates digital instrumentation and control systems, which enhance operational reliability and provide real-time monitoring capabilities, allowing for precise control of the reactor's performance.

In terms of technology, the W-002 utilizes a pressurized water reactor (PWR) design, which is well-established and widely understood within the nuclear industry. This design choice contributes to the reactor's reliability and enhances its compatibility with existing infrastructure. Moreover, the reactor is designed to support a variety of fuel types, including enriched uranium and mixed-oxide (MOX) fuels, which showcases its versatility and adaptability to different energy requirements.

The Westinghouse W-002 embodies a forward-thinking approach to nuclear energy, focusing on safety, efficiency, and sustainability. With its innovative design and advanced technologies, the W-002 is poised to play a crucial role in meeting the world's growing energy demands while addressing climate change concerns through the reduction of greenhouse gas emissions. This reactor stands as a testament to the potential of nuclear energy in creating a sustainable energy future.