Care and Cleaning

Induction Cooktop

Burned-on residue

WARNING: DAMAGE to your glass surface may occur if you use scrub pads other than the pad included with your cooktop.

1Allow the cooktop to cool.

2Spread a few drops of CERAMA BRYTE® Ceramic Cooktop Cleaner on the entire burned residue area.

3Using the included CERAMA BRYTE® Cleaning Pad for Ceramic Cooktops, rub the residue area, applying pressure as needed.

4If any residue remains, repeat the steps listed above as needed.

5For additional protection, after all residue has been removed, polish the entire surface with CERAMA BRYTE® Ceramic Cooktop Cleaner and a paper towel.

Use a CERAMA BRYTE® Cleaning Pad for Ceramic Cooktops or a Scotch-Brite®Multi-Purpose No Scratch blue scrub pad.

Heavy burned-on residue

1Allow the cooktop to cool.

2Use a single-edge razor blade scraper at approximately a 45° angle against the glass surface and scrape the soil. It will be necessary to apply pressure to the razor scraper in order to remove the residue.

3After scraping with the razor scraper, spread a few drops of CERAMA BRYTE® Ceramic Cooktop Cleaner on the entire burned residue area. Use the CERAMA BRYTE® Cleaning Pad to remove any remaining residue.

4For additional protection, after all residue has been removed, polish the entire surface with CERAMA BRYTE® Ceramic Cooktop Cleaner and a paper towel.

The CERAMA BRYTE® Ceramic Cooktop Scraper and all recommended supplies are available through our Parts Center. See instructions under “To Order Parts” section on next page.

NOTE: Do not use a dull or nicked blade.

20

Page 20
Image 20
GE ZHU36, ZHU30 manual Burned-on residue, Heavy burned-on residue

ZHU30, ZHU36 specifications

The GE ZHU36 and ZHU30 are part of General Electric's extensive range of locomotive models that cater to various operational requirements in freight and passenger transportation. These locomotives symbolize innovation in rail technology and efficiency, making them essential components of contemporary rail systems.

Starting with the GE ZHU36, this model is well-known for its impressive power output, typically around 3,600 horsepower. It is engineered to operate effectively on both passenger and freight services, showcasing its versatility. One distinct feature of the ZHU36 is its advanced traction control system, which enhances traction and provides better performance on diverse track conditions. This technology ensures that the locomotive can handle challenging gradients and adverse weather conditions, making it suitable for regions with varying geographies.

In addition to its robust power, the ZHU36 employs an environmentally conscious approach, adhering to strict emissions regulations. It utilizes low-emission engines that reduce the carbon footprint associated with locomotive operations. Coupled with a sophisticated braking system, it guarantees safe and efficient stopping capabilities, enhancing overall operational safety.

On the other hand, the GE ZHU30 serves as a lighter alternative, typically generating around 3,000 horsepower. This locomotive is particularly effective for medium-haul freight services, where flexibility is paramount. The ZHU30 features similar traction control technology as its counterpart, optimized for its lighter design, which allows for efficient fuel consumption without compromising on performance.

Both models are equipped with advanced diagnostic systems that provide real-time data about their operational status. This technology enables operators to monitor performance metrics, identify potential issues, and optimize maintenance schedules, thereby reducing downtime and enhancing productivity.

The ZHU locomotives are built with modularity in mind, allowing for various configurations to suit different rail operations. They are designed for ease of maintenance, featuring accessible components that minimize service time and labor costs. This adaptability and focus on maintainability underscore GE's commitment to providing reliable and efficient rail solutions.

In summary, the GE ZHU36 and ZHU30 bring advanced technologies and powerful performance to the rail industry. Their combination of eco-friendly features, robust capabilities, and easy maintenance positions them as leading options for operators seeking to enhance their rail services in a competitive landscape.