sécurité

Entretien et nettoyage du congélateur.

de

Couverture

 

de charnière

Vis de

en matière

Enlèvement de la porte du compartiment congélation

(sur les modèles verticaux sans commande électronique)

Fonctionnement Mesures

plastique

charnière

Charnière

du haut de l’armoire

(sur certains modèles)

1

2

3

Enlevez la couverture de charnière en matière plastique en la soulevant ou en la repliant (selon le modèle).

Enlevez les vis qui tiennent la charnière en haut de l’armoire à l’aide d’un tournevis, d’un tourne-écrou de 5/16 po ou d’une clé (selon le modèle).

Enlevez la charnière du haut de l’armoire et soulevez la porte et enlevez-la de l’axe de charnière du bas. Mettez la porte de côté.

4 Enlevez les deux vis de la charnière du bas.

Pour remettre en place les portes, suivez les instructions ci-dessus en inversant l’ordre.

ATTENTION : Vous devez bien serrer les vis des charnières pour assurer un bon montage et empêcher un déplacement des charnières.

Installation

consommateurSoutien au Conseils de dépannage

Enlèvement de la porte du compartiment congélation

(sur les modèles Verticaux à Commande Electronique)

Les vis de charnières sont inviolables. Veuillez faire enlever la porte par un technicien autorisé.

Enlèvement de la porte (sur les modèles coffre)

Pour retirer le couvercle, veuillez vous référer aux instructions à l’arrière de l’appareil ou sur l’étiquette des charnières.

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GE FUM13 Enlèvement de la porte du compartiment congélation, Sur les modèles verticaux sans commande électronique

FUM13 specifications

The GE FUM13 is a highly advanced and versatile gas turbine that harnesses the latest technologies to deliver exceptional performance and efficiency. Designed for both flexibility and reliability, the FUM13 is a part of GE’s renowned portfolio, catering to a variety of industries including power generation, oil and gas, and industrial processes.

One of the standout features of the GE FUM13 is its ability to operate effectively across different fuel types. The turbine is designed for multi-fuel operation, enabling users to switch between natural gas, oil, and other alternative fuels with ease. This adaptability not only helps in reducing operational costs but also enhances sustainability by allowing facilities to utilize the most economical or available fuel sources.

The FUM13 integrates state-of-the-art aerodynamics and thermodynamics principles, which contribute to its high efficiency ratings. Advanced cooling techniques are employed in the turbine’s design, ensuring that it can withstand high temperatures while maintaining performance. This capability aids in achieving significant efficiency gains, allowing for lower emissions and reduced fuel consumption, which are critical in today’s environmentally conscious landscape.

Furthermore, the GE FUM13 is equipped with digital technologies that leverage data analytics and predictive maintenance. The turbine harnesses real-time operational data, enabling operators to optimize performance and proactively address maintenance needs. This feature not only minimizes downtime but also extends the operational life of the turbine, ultimately resulting in cost savings over time.

A distinguishing characteristic of the FUM13 is its compact and modular design. This configuration facilitates easier installation and maintenance, allowing users to integrate the turbine into their existing infrastructure with minimal disruption. The modular approach also means that the system can be scaled to meet specific power output requirements, making it a suitable choice for both small and large-scale applications.

In summary, the GE FUM13 gas turbine stands out with its multi-fuel capability, advanced thermal efficiency, digital integration, and modular design. These features, combined with GE's commitment to innovation and sustainability, make the FUM13 an ideal solution for businesses looking to enhance their energy production systems while also addressing the challenges of fuel flexibility and emissions reduction. As industries continue to evolve, the GE FUM13 is poised to play a pivotal role in shaping the future of energy generation.