FIGURA 1.

ORIFICIO LATERAL (P)

BARRA DE

MONTAJE (A)

TORNILLO

VERDE DE

TIERRA (O)

COLLAR ROSCADO (L)

DOSEL (M)

CABLE DE TIERRA

*CAJA DE

EMBUTIR (B)

CONECTORES

DE ROSCA (N)

*TORNILLOS CAJA

DE EMBUTIR (C)

ARANDELA DE PRESION (F)

TUERCA HEXAGONAL (D)

NIPLE DE

MONTAJE (E)

ENROSQUE EL

RECUADRO

ANILLO DEL COLLAR

 

ROSCADO (K)

PANEL DE

 

VIDRIO (Q)

CADENA (J)

GANCHOS (R)

 

FIJELO AL ASA DEL

 

ARTEFACTO (I)

 

ARMAZON DEL

ARTEFACTO (G)

Los dibujos pueden no coincidir exactamente con el artefacto incluido.

 

*NO INCLUIDO

Sin embargo, las instrucciones de instalación se aplican a este artefacto.

 

9

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Image 9
Westinghouse W-164 owner manual Figura, Recuadro

W-164 specifications

The Westinghouse W-164 is a significant model in the realm of nuclear technology, specifically known for its advancements in pressurized water reactor (PWR) design. Developed during the mid-20th century, the W-164 showcases innovative engineering and safety features that cater to the increasing demand for reliable energy sources.

One of the main features of the W-164 is its efficient heat exchange system. The reactor employs a steam generator that utilizes the pressurized water to transfer heat to a secondary water circuit, thus producing steam for turbine generators. This method enhances the efficiency of thermal energy conversion while allowing for a compact plant design.

The W-164 also emphasizes safety through its robust containment structures. Designed to withstand extreme conditions, including natural disasters and potential accidents, the containment system minimizes the risk of radioactive material release. Additionally, the reactor is equipped with multiple redundant safety systems, including emergency core cooling systems, designed to ensure the reactor core remains cooled even under abnormal conditions.

Another notable technology integrated into the W-164 is its advanced control and instrumentation systems. These systems provide real-time data on reactor performance and conditions, enabling operators to make informed decisions and maintain optimal performance. The control systems are designed for reliability and ease of use, promoting operational safety.

The W-164 utilizes low-enriched uranium fuel, optimizing the fuel cycle and minimizing waste. This feature aligns with the industry's push towards sustainability and environmental considerations. The reactor's design also allows for longer operational cycles, reducing the frequency of refueling and further enhancing its overall efficiency.

In terms of physical characteristics, the W-164 is designed to fit within a compact footprint, making it suitable for a variety of operational environments. Its modular construction allows for easier maintenance and upgrades, ensuring the reactor remains competitive in a rapidly evolving energy landscape.

Overall, the Westinghouse W-164 stands out for its innovative design, efficiency, and safety features. As global energy demands increase and the need for sustainable solutions intensifies, the technologies developed in the W-164 can provide valuable insights and pave the way for future advancements in nuclear energy. Its legacy continues to influence modern reactor designs, highlighting the importance of reliability and safety in energy production.