Instructions d’installation

12BRANCHEMENT DE

L’ALIMENTATION D’EAU

Vérifiez que l’interrupteur principal est sur l’arrêt (O).

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Alimentation d‘eau

Alimentation d‘eau

du réfrigérateur

de la maison

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Amenez le tube GE SmartConnectà l’avant de l’armoire.

Ouvrez l’eau pour rincer les débris de la conduite. Faire coulez environ un litre d’eau dans un seau, puis coupez l’eau.

Tube de cuivre

Glissez un écrou de 1/4 po et une bague sur l’extrémité du tube de cuivre. Insérez le tube dans le raccord de l’appareil et serrez l’écrou.

Ouvrez l’eau pour vérifier qu’il n’y a pas de fuite.

Tube GE SmartConnect

Insérez l’extrémité moulée du tube dans le raccord du réfrigérateur. Serrez l’écrou à compression à la main.

Serrez d’un tour de plus avec une clé. Un serrage excessif peut causer des fuites.

Ouvrez l’eau pour vérifier qu’il n’y a pas de fuite.

Note : Vérifiez que l’excès de tube ne gêne pas l’installation de la plinthe.

13MISE SOUS TENSION

Mettez l’interrupteur principal en position de marche (I).

Pour s’assurer que le réfrigérateur est sous tension, ouvrez la porte et vérifiez que la lampe intérieure est allumée.

Levez le panneau de grille

Interrupteur

Filtre à eau

principal

 

Les commandes de température sont réglées en usine à 3 °C (37 °F) pour la section d’aliments frais et -18 °C (0 °F) pour la section congélateur.

Attendre 24 heures que la température se stabilise avant de faire des réglages.

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GE 48, 42 owner manual Branchement DE ’ALIMENTATION D’EAU, Mise Sous Tension

48, 42 specifications

The GE 42 and GE 48 are two state-of-the-art aircraft engines produced by General Electric, renowned within the aerospace sector for their advanced technologies and high-efficiency performance. These engines, designed primarily for commercial and military aviation, exemplify GE's commitment to innovation in the world of jet propulsion.

One of the distinguishing features of the GE 42 is its high bypass ratio, which allows for reduced fuel consumption and lower emissions during operation. This characteristic directly contributes to the engine's environmental efficiency, making it a favorite among airlines looking to minimize their carbon footprint while maximizing fuel economy. The GE 42 is equipped with advanced composite fan blades and fan cases, which contribute to its robust performance while maintaining a lightweight structure.

On the other hand, the GE 48 boasts similar high bypass ratio features but comes with slightly enhanced performance metrics suitable for larger aircraft. The GE 48 utilizes cutting-edge digital technologies, including predictive maintenance systems, enabling real-time monitoring of engine performance. This capability allows operators to make informed decisions about maintenance schedules and operational efficiency.

Both engines employ the latest in additive manufacturing, allowing for complex parts to be produced with a high degree of precision and reduced waste. This not only enhances performance but also lowers production costs, ensuring that GE remains competitive in the market. Additionally, both the GE 42 and GE 48 feature improved aerodynamics, with specially designed turbine blades that optimize airflow, thereby boosting overall efficiency.

The durability of these engines is another notable highlight. They are designed to withstand extreme operational conditions, ensuring reliability whether used for long-haul flights or military missions. Engine life extends through advanced materials that can endure high temperatures and stresses, making them suitable for various applications.

In conclusion, the GE 42 and GE 48 stand out in the aviation industry for their innovative technologies and characteristics. Their high bypass ratios, use of advanced materials, digital monitoring systems, and aerodynamic designs make them exemplary choices for modern aviation needs, catering to both commercial and military sectors while focusing on sustainability and performance. As aviation technology continues to evolve, these engines remain at the forefront, embodying the future of flight.