IMPORTANT SAFETY INFORMATION.

READ ALL INSTRUCTIONS BEFORE USING.

WARNING!

For your safety, the information in this manual must be followed to minimize the risk of fire, electric shock or personal injury.

SAFETY PRECAUTIONS

nUse this appliance only for its intended purpose as described in this Owner’s Manual.

nThis air conditioner must be properly installed in accordance with the Installation Instructions before it is used.

nNever unplug your air conditioner by pulling on the power cord. Always grip plug firmly and pull straight out from the receptacle.

nReplace immediately all electric service cords that have become frayed or otherwise damaged. A damaged power supply cord must be replaced with a new power supply cord obtained from the manufacturer and not repaired. Do not use a cord that shows cracks or abrasion damage along its length or at either the plug or connector end.

nTurn the unit OFF and unplug your air conditioner before cleaning.

ngE does not support any servicing of the air conditioner. We strongly recommend that you do not attempt to service the air conditioner yourself.

nFor your safety…do not store or use combustible materials, gasoline or other flammable vapors or liquids in the vicinity of this or any other appliance.

nAll air conditioners contain refrigerants, which under federal law must be removed prior to product disposal. If you are getting rid of an old product with refrigerants, check with the company handling disposal about what to do.

nIf the receptacle does not match the plug, the receptacle must be changed out by a qualified electrician.

nThese R410A air conditioning systems require contractors and technicians to use tools, equipment and safety standards approved for use with this refrigerant.

DO NOT use equipment certified for R22 refrigerant only.

HOW TO CONNECT ELECTRICITY

Do not, under any circumstances, cut or remove the third (ground) prong from the power cord.

For personal safety, this appliance must be properly grounded.

DO NOT use an adapter plug with this appliance.

The power cord of this appliance is equipped with a 3-prong (grounding) plug which mates with a standard 3-prong (grounding) wall outlet to minimize the possibility of electric shock hazard from this appliance.

Power cord includes a current interrupter device. A test and reset button is provided on the plug case. The device should be tested on a periodic basis by first pressing the TEST button and then the RESET button while plugged into the outlet. If the TEST button does not trip or if the RESET button will not stay engaged, discontinue use of the air conditioner and contact a qualified

2service technician.

Have the wall outlet and circuit checked by a qualified electrician to make sure the outlet is properly grounded.

Where a 2-prong wall outlet is encountered,

it is your personal responsibility and obligation to have it replaced with a properly grounded 3-prong wall outlet.

The air conditioner should always be plugged into its own individual electrical outlet which has a voltage rating that matches the rating plate.

This provides the best performance and also prevents overloading house wiring circuits which could cause a fire hazard from overheated wires.

See the Installation Instructions, Electrical Requirements section for specific electrical connection requirements.

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GE AEQ25, AEM25 operating instructions Safety Precautions, Do not use an adapter plug with this appliance

AEM25, AEQ25 specifications

The GE AEQ25 and AEM25 are advanced aircraft engines that exemplify General Electric's commitment to innovation and efficiency in aviation technology. These engines are designed to power a range of medium-range aircraft, with a focus on providing superior performance, reliability, and sustainability.

One of the standout features of the AEQ25 and AEM25 engines is their state-of-the-art turbofan design. The engines incorporate advanced aerodynamics that enhance fuel efficiency while delivering powerful thrust. This turbofan architecture allows for a significant reduction in fuel consumption compared to older engine models, aligning with global efforts to lower carbon emissions in the aviation industry.

The AEQ25 and AEM25 engines utilize cutting-edge materials and manufacturing techniques. Timeless superalloys and composite materials are strategically employed to endure high temperatures and reduce weight. This combination not only enhances performance but also contributes to overall maintenance efficiency. The engines' design includes modular components, allowing for easy inspection and repairs, which minimizes downtime for aircraft operators and enhances the operational readiness of fleets.

A noteworthy technological advancement in these engine models is the introduction of digital monitoring and analytics capabilities. With integrated sensors, the AEQ25 and AEM25 engines provide real-time data on performance metrics, allowing for predictive maintenance. This technology helps operators anticipate potential issues before they become significant problems, ensuring that aircraft remain in optimal operating condition.

In terms of noise reduction, the AEQ25 and AEM25 engines are engineered to comply with stringent regulatory standards. Acoustic liners and optimized fan designs contribute to significantly lower noise levels during takeoff and landing, minimizing the impact on surrounding communities. This focus on noise abatement is increasingly essential as airports strive to balance growth with community concerns.

The AEQ25 and AEM25 engines are also designed with future sustainability in mind. They are compatible with sustainable aviation fuels (SAFs), further enhancing their environmental credentials. These bio-derived fuels can significantly reduce lifecycle greenhouse gas emissions, making these engines a preferred choice for environmentally conscious airlines.

Overall, the GE AEQ25 and AEM25 engines represent a blend of innovative technology, efficiency, and sustainability, poised to meet the demands of modern air travel while paving the way for a greener future in aviation. With their reliable performance, reduced operational costs, and commitment to environmental stewardship, these engines are set to play a crucial role in the evolving landscape of the aerospace industry.