GE S4200, WBB5500 About the washer control panel, Model WBSE3120 Model WCSE4160 Model WJSE4150

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About the washer control panel.

GEAppliances.com

Add detergent

Add diluted fabric softener (on models with a fabric softener dispenser)

• Add clothes

• Select load size and

other wash options

 

 

• Select wash cycle

Quick Start Guide

Close lid

Push START

Safety Instructions

Operating

NOTE: When making a selection with any knob, simply point the knob anywhere within the shaded range for that setting.

Model WBSE3120

Model WCSE4160

Model WJSE4150

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Instructions

Troubleshooting Tips

Consumer Support

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Contents Washers Consumer Support Water Heater SafetyModel WBSE3120 Model WCSE4160 Model WJSE4150 About the washer control panelModel WWSE5200 Model S4200 Model WBB5500 Custom Care Wash/Spin Speeds About the control settingsColor Logic on some models Load SizeWash Cycle TemperatureAutoTemp on some models Cleaning the Fabric Softener Dispenser2nd Rinse Option on some models Extended Spin Option on some modelsAgitator Cap or Fabric Softener Dispenser About washer featuresGEAppliances.com Care and Cleaning of the WasherBefore you call for service… Possible Causes What To Do Clothes too wet Possible Causes What To DoDelicates or Casuals Washer won’t operateWrinkling Peel off cleanlyPerformance Possible Causes What To Do Pilling Or excessive wearWe’ll Cover Any Appliance. Anywhere. Anytime Consumer Product Ownership Registration For The Period Of We Will Replace Real Life Design Studio Schedule ServiceParts and Accessories Consumer Support GE Appliances Website
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WBB5500, S4200, WBSE3120 specifications

The GE WBB5500 is a cutting-edge residential wind turbine designed to harness renewable energy efficiently and sustainably. As wind energy becomes an increasingly vital component of global efforts to reduce carbon emissions, technologies like the WBB5500 stand out due to their innovative features and robust performance characteristics.

With a rated capacity of 5.5 kW, the WBB5500 is ideal for both permanent residential use and off-grid applications. One of its standout features is its advanced aerodynamic rotor design, which allows for optimal energy capture even at low wind speeds. The turbine is equipped with a 10.2-meter rotor diameter, consisting of lightweight and durable composite materials, which aids in maximizing energy production while maintaining structural integrity even in harsh weather conditions.

The WBB5500 utilizes a direct-drive generator system that operates without the need for gearbox maintenance, significantly reducing the risk of mechanical failures and minimizing operational costs over time. Additionally, its intelligent control systems ensure that the turbine operates efficiently across varying wind conditions, automatically adjusting blade pitch to optimize performance and protect the turbine from potential damage during high wind events.

Another key characteristic of the WBB5500 is its low noise output, which aligns with residential needs and compliance with strict noise regulations. It incorporates state-of-the-art noise-reduction technologies, ensuring a quiet operation that will not disrupt the tranquility of residential areas.

The turbine's compact design and minimal footprint make it an attractive solution for urban and suburban environments. It can be mounted on a variety of tower heights, allowing for flexibility based on local topography and wind profiles, ensuring access to the best wind resources.

Moreover, the WBB5500 is equipped with integrated monitoring technologies that allow users to track energy production in real-time, facilitating better energy management and consumption decisions. This feature enhances the value proposition for homeowners looking to maximize their return on investment in renewable energy technologies.

In summary, the GE WBB5500 represents a significant advancement in residential wind energy solutions, combining efficient energy production, durable design, and smart technologies. Its ability to blend performance with environmental considerations makes it a critical component in the transition towards sustainable energy systems.