Installation Instructions

Disposer

If you have questions, call 1-800-GECARES or visit our Website at: www.GEAppliances.com

BEFORE YOU BEGIN

Read these instructions completely and carefully.

IMPORTANT – Save these

instructions for local inspector’s use.

IMPORTANT – Observe all

governing codes and ordinances.

Note to Installer Be sure to leave these instructions with the Consumer.

Note to Consumer Keep these instructions for future reference.

Skill level – Installation of this appliance requires basic mechanical skills.

Completion time – 1 hour

Proper installation is the responsibility of the installer.

Product failure due to improper installation is not covered under the Warranty.

PREPARATION

1.Disconnect electrical power supply to disposer.

2.Remove old disposer or sink flange assembly.

3.Inspect drain line. If it is heavily coated with hardened grease and accumulations, rout out with a plumber’s snake.

4.Remove old sealing materials and gasketing from sink opening, both top and bottom.

NOTE: Top and bottom of sink surfaces must be free of any materials to prevent leaks.

WHAT YOU WILL NEED

Phillips and flat blade screwdrivers

Channel lock pliers, slip joint

Hammer

Nut driver

ADDITIONAL MATERIALS YOU MAY NEED

Steel punch or wooden dowel

Petroleum jelly or liquid soap

Hose clamp

Dishwasher drain connector

Adjustable pipe wrench

Plumber’s putty (for cast sinks)

Stepped rubber drain adapter

Wire nuts

Cable connector

Flexible drain pipe

Power cord kit (Part Number PM3X215GDS)

4

Page 4
Image 4
GE GFB700F, GFB1000F, GFC700F, GFC500F Before YOU Begin, Preparation, What YOU will Need, Additional Materials YOU MAY Need

GFB700F, GFC1000F, GFC500F, GFC700F, GFB1000F specifications

General Electric (GE) has established itself as a leader in the aviation and energy sectors, offering an impressive array of high-performance gas turbines. Models like the GE GFB1000F, GFC700F, GFC500F, GFC1000F, and GFB700F stand as testaments to the company’s commitment to innovative engineering and advanced technology. These turbines are designed to deliver exceptional efficiency, reliability, and flexibility, catering to various industrial applications.

The GE GFB1000F turbine is characterized by its efficiency and power output, making it suitable for both base load and peak load applications. It features advanced aerodynamics and materials technology that allow it to operate at high temperatures, resulting in increased performance. The turbine also incorporates digital controls for enhanced operational efficiency and reliability.

The GFC700F model is known for its adaptability in various operational environments. It boasts a robust design that can handle fluctuating load demands without compromising efficiency. The GFC700F integrates advanced combustion technology, which minimizes emissions and ensures compliance with stringent environmental regulations.

For lower output needs, the GFC500F turbine offers a highly efficient solution with a compact footprint. Its design emphasizes ease of maintenance and operational flexibility, making it an ideal choice for smaller power plants and industrial applications. The GFC500F utilizes a simple cycle configuration, allowing for quick start-up times and operational adaptability.

The GFC1000F serves as a middle ground, delivering a balanced mix of efficiency and power for medium to large-scale applications. It features advanced sensor technology and digital controls that optimize performance in real-time, ensuring maximum output while minimizing fuel consumption.

Finally, the GFB700F represents a versatile option with a focus on flexibility and investment protection. This turbine supports a wide range of fuels and operational modes, enhancing its appeal to customers seeking a versatile energy solution. Its advanced monitoring systems allow for proactive maintenance strategies, further reducing downtime and operational costs.

Collectively, these gas turbines from GE reflect the company’s forward-thinking approach, harnessing cutting-edge technology to meet the ever-evolving demands of the energy sector. Their shared focus on efficiency, reduced emissions, and operational flexibility positions them as frontrunners in sustainable energy generation.