Window Installation Instructions

6INSTALL THE CASE

IN THE WINDOW (cont.)

DUse a wood block (obtained locally) between the leveling bolts and the wall if the wall is weak or if the weight of the air conditioner falls between the studs in the wall.

EAdjust the leveling bolts and nuts against the outside wall so that the case has a slight tilt to the outside. Tighten nuts with an adjustable wrench. Use a level; no more than a 1/2 bubble will be the correct case slant to the outside.

FExtend the left and right accordion panels to the vertical window sashes. Drill pilot holes and attach the top and bottom corners with 4 type D screws.

 

Top mounting rail

Type D

 

screw

Type D

 

screw

Type D

 

screw

 

 

Type D

 

screw

7INSTALL SUPPORT BRACKETS AND THE FOAM TOP WINDOW GASKET

ADrill pilot holes and attach the support brackets with two type D screws, one on each side.

BCut the foam top window gasket to the window width.

CStuff the foam between the glass and the window to prevent air and insects from getting into the room.

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GE AEH25*, AEM25*, AEM18*, AEH18* Install the Case, Install Support Brackets and the Foam TOP Window Gasket

AEH18*, AEM18*, AEH25*, AEM25* specifications

General Electric (GE) has made significant strides in the evolution of its gas turbine technology with the introduction of the AEM18*, AEM25*, AEH25*, and AEH18* series. These models are engineered to meet the growing demands for efficient, reliable, and environmentally responsible energy generation.

The AEM18* and AEM25* models focus on advanced aerodynamics and materials science to deliver high efficiency and performance. These turbines utilize a state-of-the-art combustion system that enables low emissions operation while maintaining operational flexibility. The AEM series is renowned for its capabilities in combined cycle applications, offering a high power-to-weight ratio which enhances overall system efficiency.

The AEH25* and AEH18* models build upon the advanced technology established in the AEM series but introduce enhancements aimed at heavy-duty and industrial applications. With innovative design modifications, including improved rotor dynamics and robust cooling techniques, these turbines achieve excellent reliability and availability. The AEH series is designed with high operational flexibility, capable of handling high load variations while providing consistent performance.

All four turbine models share GE's commitment to utilizing advanced digital technologies, including the Predix platform, which harnesses the power of analytics. This technology allows operators to monitor performance in real time, predict maintenance needs, and optimize operational parameters, resulting in reduced downtime and improved efficiency.

In terms of characteristics, the AEM and AEH series turbines are characterized by their modular design, which simplifies installation and maintenance processes. This design allows for easier upgrades and retrofits, ensuring that customers can adapt their systems to future technological advancements.

The environmental impact of these gas turbines cannot be understated. Both the AEM and AEH series are designed to meet rigorous emissions standards, showcasing GE's commitment to sustainability. With reduced greenhouse gas emissions and the capacity to integrate with renewable energy sources, these turbines serve as a key component in the transition to cleaner energy systems.

In summary, the GE AEM18*, AEM25*, AEH25*, and AEH18* turbines represent a culmination of innovative engineering, advanced technology, and a focus on environmental sustainability, making them suitable choices for a variety of energy generation applications in today's dynamic energy landscape.