The lower rack is best used for plates, saucers, and cookware. Large items such as broiler pans and racks should go in the lower rack along the edge. Load platters, pots and bowls along the sides, in corners, or in the back. For best washing results, all items should be positioned with the soiled side of the dish facing the center of the rack.

Keep center area clear in the lower rack.

The wash tower rises through the center of the lower rack during the wash and rinse portions of the cycle. Don’t block it or load tall things next to it. Also, be careful not to let a portion of an item such as a pot or dish handle extend-through the bottom rack. This could block the wash arm and cause poor washing results.

Put flatware in the removable basket with handles up to protect your hands. Mix knives, forks and spoons so they don’t nest together. Distribute evenly.

Small plastic items, such as measuring spoons and lids from small containers are not recommended for automatic dishwashing. If placed in dishwasher, they should go in bottom of silverware basket with silverware on top.

.onltletan”~

item extend’ through bottom

Precaution!

Take out anything that may fall or extend through the bottom of the basket.

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GE GSD980, GSD950 warranty Keep center area clear in the lower rack, Precaution

GSD980, GSD950 specifications

General Electric (GE) has consistently led the way in the innovation of gas turbine technology, and among its notable offerings are the GSD900, GSD950, GSD800, GSD980, and GSD880 models. These turbines are engineered to meet a range of energy production needs and are characterized by their high efficiency, reliability, and adaptability in various operating environments.

The GSD900 model is designed for high-performance applications, featuring advanced aerodynamics and combustion systems that optimize fuel efficiency while minimizing emissions. This model leverages GE's latest developments in material science, allowing for improved thermal performance and durability. With a focus on modular design, the GSD900 offers simplicity in maintenance and enhanced uptime.

The GSD950 takes efficiency further with an enhanced turbine architecture that supports combined cycle applications. This model is renowned for its capacity to operate effectively with both natural gas and alternative fuels. Utilizing advanced digitally controlled combustion technology, it delivers exceptional operational flexibility. This translates into reduced operational costs for users, making it an attractive option for modern power generation facilities.

The GSD800 is built with versatility in mind, suitable for both distributed and centralized power generation systems. Its robust design ensures reliability even under challenging environmental conditions. The GSD800 integrates GE's proprietary digital solutions, which optimize performance and provide real-time monitoring capabilities. This feature allows operators to make data-driven decisions, enhancing operational efficiency.

GE's GSD980 is at the forefront of turbine innovation, incorporating cutting-edge technologies such as additive manufacturing. This allows for lighter components and reduced material waste while achieving higher performance levels. The GSD980 is engineered for maximum efficiency, notably within renewable and hybrid energy systems, greatly supporting the transition to cleaner power generation.

Finally, the GSD880 model merges the benefits of both the GSD800 and GSD950, focusing on high availability and low total lifecycle costs. It incorporates advanced control systems that optimize the balance between performance and emissions, appealing to both utility and industrial operators. Its compatibility with digital monitoring and predictive maintenance tools ensures that it remains a reliable choice for longstanding power generation needs.

In conclusion, the GE GSD900, GSD950, GSD800, GSD980, and GSD880 gas turbines reflect the company's commitment to advancing energy technology. Each model is built with specific applications in mind, providing users with options tailored to their unique operational requirements. With their innovative features and technologies, these turbines signify the future of efficient and sustainable energy production.