Entretienet nettoyagedu d#shumidificateur

Eteignez et d#branchez le d#shumidificateur avant tout nettoyage.

Grille et Bo#ier

Pour nettoyerle be#/or:

Utilisezde I'eauet un d6tergent doux. N'utilisezpas d'eaude Javel ou de nettoyants abrasifs.

Sea# Cellecteur

Pour nettoyer /e seau collecteur :

A quelques semuines d'intervulles,nettoyez le seau collecteur pour 6viter la proliferation de la moisissure et des bact_ries. Remplissezpartiellement le seau avec de I'eaupropre et ajoutez une petite quantit6 de d_tergent doux. Faitestourner I'eauet led_tergent duns le seau, puis videz celui-ci et rincez-le.

REMARQUE: Ne nettoyezpas le seaudans un lave-vaissefle.

Pour rotifer/e seau :

Retirez leseau et videz I'eau.

Pourremettrele seau en place:

Faites glissezle seau dans le d6shumidificateur.

REMARQUE: Le seau doit 8tre en place et solidement positionn4pour que le d4shumidificateurfonctionne.

Pour nettoyer la grille avant: Utilisezun uspiruteur ou une brosse.

\

Filtre a Air

Lefiltre 6 air derr@e la grille avant doit _tre v6rifi6 et

REMARQL_: Evitez

fi/tre au

nettoy6 au bout de 250 heures de fonctionnement ou

 

 

plus souvent si n6cessaire.

 

 

Apr_s 250 heures de fonctionnement, levoyant Clean

 

 

theFi/ter(Nettoyerle filtre)s'allumerapour vous

ave-vabsefle, f

 

rappeler de nettoyer votre filtre. Retirezle filtre et

 

 

nettoyez-le. Remettez lefiltre en place puis appuyez

 

 

sur la touche Fi/tertimer(Compteurhoraire du filtre)

 

 

pour 6teindre le voyant CleantheFilter(Nettoyerle

 

 

filtre).

 

 

Pourretirerle filtre

 

 

Retirezleseau collecteur. Attrapez le bord du filtre et

 

 

tirez-le vers le bas pour le sortir.

 

 

Pour nettoyerle filtre:

 

 

Nettoyez le filtre avec de I'eausavonneuse tilde.

 

 

Rincezle filtre et laissez-les6cher avant de le remettre

 

 

dans le d6shumidificateur.

 

 

REMARQUE: NErincez PAS et NElavezPAS le filtre

 

 

dansle lave-vabselle.

 

 

MISEEN GARBE: ai,MSs

fonctionnerle d4shumidificateursansle filtresouspeine

dele boucheravecdela poussiereet de la charpbet de

20r4duiresonefficadt4.

Page 19 Page 21
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GE ADEHSO, ADERSO warranty Miseen Garbe ai,MSs, Entretienet nettoyagedu d#shumidificateur, Grille et Bo#ier, Filtre a Air
Page 19 Page 21

ADERSO, ADEHSO specifications

GE ADEHSO (Advanced Electrical High-Density Switching Optimization) and ADERSO (Advanced Distributed Energy Resource Switching Optimization) are cutting-edge technologies developed by General Electric to address the evolving challenges in energy management and distribution. These systems are specifically designed to enhance the efficiency, reliability, and performance of electrical grids, particularly in a landscape where renewable energy and distributed generation sources are becoming more prevalent.

One of the main features of GE ADEHSO is its ability to optimize the switching operations in high-density electrical networks. It utilizes advanced algorithms and machine learning techniques to analyze real-time load conditions, allowing for dynamic reconfiguration of the network. This capability not only enhances the resilience of the grid but also minimizes downtime and enhances service reliability, thereby reducing operational costs for utilities.

ADERSO complements ADEHSO by focusing on distributed energy resources (DERs). With the increasing integration of solar panels, wind turbines, and battery storage systems, the need for sophisticated management of these resources has never been more critical. ADERSO provides a comprehensive framework for coordinating and optimizing DERs to ensure that they are utilized effectively while maintaining grid stability. It facilitates peer-to-peer energy trading and enhances demand response initiatives, contributing to a greener energy landscape.

Both ADEHSO and ADERSO utilize the Internet of Things (IoT) technologies to create smart grid systems. By leveraging IoT sensors and devices, these systems can gather and process data from various sources, providing utilities with unprecedented insights into grid operations. This data-driven approach allows for proactive maintenance and quicker response to potential outages or system failures.

In terms of characteristics, GE ADEHSO and ADERSO are designed to be scalable and adaptable. They can be integrated into existing grid infrastructures without significant overhauls, making them suitable for a wide range of applications—from urban centers to remote areas. Furthermore, their user-friendly interfaces allow operators to easily interact with the systems, facilitating intuitive management of complex energy networks.

In summary, GE ADEHSO and ADERSO represent a significant advancement in energy distribution and management technologies. By enhancing switching operations and optimizing the integration of distributed energy resources, these systems not only improve grid reliability but also play a crucial role in advancing the global transition towards sustainable energy sources.
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