Seguridad

Operación

Instalación

Soporte al consumidor Solucionar problemas

Los controles del refrigerador.

Inicialmente ajuste los controles del compartimiento del

Si quiere temperaturas más frías o más cálidas, ajuste

refrigerador y del congelador en la graduación 5. Para

primero la temperatura del compartimiento del

el compartimiento de refrigerador y el congelador, la

refrigerador. Cuando esté satisfecho con ésta, ajuste

graduación 5 es la temperatura normal y la 9 es la

la temperatura del congelador.

temperatura más fría. Alinee el número con el punto.

 

 

 

Freezer

3

5

7

6

5

4

Refrigerator

 

El ajuste de los controles

Control del congelador

El control para el congelador mantiene las temperaturas en todas partes del congelador.

Control del compartimiento del refrigerador

El control para el refrigerador mantiene las temperaturas en todas partes del compartamiento del refrigerador.

La colocación del control del compartimiento del refrigerador en OFF (apagado) interrumpe el enfriamiento en ambos compartimientos—del refrigerador y el del congelador—pero no apaga el refrigerador.

Después de cambiar los controles, permita que transcurran 24 horas para que el refrigerador alcance la temperatura deseada.

¡IMPORTANTE!

Cuando coloque los paquetes de alimentos en los compartimentos del congelador o del refrigerador, asegúrese de que esos paquetes no le impidan cerrar completamente las puertas. Si alguna de las puertas quedara parcialmente abierta, las temperaturas serían anormalmente altas, afectando la preservación de los alimentos y aumentando el consumo de manera innecesaria.

82

Page 82
Image 82
GE 49-60111 Los controles del refrigerador, Seguridad, Instalación Soporte al consumidor Solucionar problemas

162D9625P005, 49-60111 specifications

The GE 49-60111, also known as 162D9625P005, is a highly regarded component within the realm of gas turbine engines, specifically engineered for applications in industrial and aerospace sectors. This product exemplifies General Electric's commitment to advancing power generation technologies with outstanding performance, efficiency, and reliability.

One of the main features of the GE 49-60111 is its robust construction, designed to withstand high temperatures and pressures often encountered in gas turbine operations. The component plays a crucial role in enhancing the overall thermal efficiency of the engine, which is a critical factor in fuel consumption and environmental impact.

The technology behind the GE 49-60111 integrates advanced materials and manufacturing techniques. This includes the use of high-performance alloys that provide enhanced durability while minimizing weight. The component is designed to maintain structural integrity under extreme operational conditions, which is vital for sustaining the engine's longevity and ensuring safety.

Another notable characteristic of the GE 49-60111 is its aerodynamic design. The component features optimized geometries that facilitate improved airflow, contributing to higher combustion efficiency. This design not only boosts performance but also contributes to lower emissions, aligning with modern regulatory requirements and environmental standards.

In terms of maintenance, the GE 49-60111 is engineered for ease of serviceability. Its design allows for straightforward inspection and replacement, minimizing downtime and maintenance costs for operators. This focus on maintenance efficiency is particularly valuable in industrial settings where operational reliability is paramount.

The GE 49-60111 also epitomizes the integration of digital technologies in modern gas turbine systems. Advanced sensors and monitoring systems are often incorporated to provide real-time data on component performance. This data-driven approach allows operators to predict maintenance needs, optimize performance, and extend the lifecycle of the turbine.

Overall, the GE 49-60111, 162D9625P005, stands as a testament to General Electric's innovation in gas turbine technology. With its combination of durability, efficiency, aerodynamic design, and advanced maintenance features, it serves as a critical component in the pursuit of enhanced power generation capabilities while navigating the challenges of modern energy demands.