MOUNTING AND WIRING INSTRUCTIONS

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 nipple (A) into center hole on mounting bar (B) approximately 1/4 inch (see fig. 1).

3.Secure lock washer (C) and nut (D) to nipple (A) on mounting bar (B).

4.Secure mounting bar (B) to outlet box (E) (horizontally or vertically, see fig. 1) with outlet box screws (F) (not included).

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

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

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

8.Partially thread green grounding screw (H) into side hole (I) on mounting bar (B) (see fig. 1).

9.Wrap ground wire from fixture around green grounding screw (H), leaving enough excess wire to then connect ground wire and outlet box wire with wire connector (G)

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

11.Tuck wires inside outlet box (E).

FIXTURE ASSEMBLY INSTRUCTIONS

Warning: This fixture is for indoor use only.

1.Place back plate (J) over nipple (A).

2.Secure into place with cap nut(s) (K).

3.Secure glass shade(s) (L) into holder(s) (M) with thumb screws (N) or with retaining ring(s) (O), whichever is applicable.

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

5.Turn power back on at circuit box.

4

Page 4
Image 4
Westinghouse W-045 owner manual Mounting and Wiring Instructions, Fixture Assembly Instructions

W-045 specifications

The Westinghouse W-045 is a state-of-the-art nuclear reactor design that exemplifies advanced safety features and innovative technologies. It is part of Westinghouse Electric Company's commitment to enhancing the nuclear energy sector through efficiency, sustainability, and safety.

One of the primary features of the W-045 reactor is its use of pressurized water reactor (PWR) technology. This design allows for the efficient transfer of heat, using water as both a coolant and a neutron moderator. The PWR setup ensures that the reactor operates at high temperatures and pressures, maximizing thermal efficiency and energy output.

Incorporating passive safety systems is a hallmark of the Westinghouse W-045. These systems operate without reliance on external power sources or human intervention, a crucial element in ensuring safety during emergencies. For example, the reactor can cool down and maintain safe temperatures even in the event of power loss, significantly reducing the risk of accidents.

Another notable characteristic of the W-045 is its modular design, which allows for shorter construction times and increased flexibility in deployment. This modularity not only reduces capital costs but also enhances the adaptability of the reactor to various site conditions. Moreover, the design accommodates future upgrades and modifications, ensuring longevity and relevance in the evolving energy landscape.

The Westinghouse W-045 also integrates advanced control systems and automation technologies. These smart systems provide operators with real-time data, enhancing decision-making processes and operational efficiency. Furthermore, the reactor is built with enhanced containment structures that provide an added layer of protection against potential incidents, thereby boosting public confidence in nuclear energy.

Additionally, the W-045 is designed with longevity and sustainability in mind. It operates with a fuel cycle that minimizes waste while optimizing the use of nuclear fuel, aligning with global goals for cleaner energy sources. This commitment to sustainability not only meets regulatory requirements but also addresses public concerns about the environmental impacts of nuclear power.

In conclusion, the Westinghouse W-045 reactor stands out as a beacon of innovation in nuclear technology. Its advanced safety features, modular design, and commitment to sustainability make it a compelling option for countries seeking to harness nuclear power responsibly. As the energy landscape continues to evolve, the W-045 is poised to play a significant role in providing efficient and safe energy solutions for the future.