Install the Cooktop

With the Downdraft in the “Down” position, place the cooktop into the cutout.

Push the cooktop back until the back edge of the cooktop just barely touches the front edge of the downdraft cover.

Using a dime as a thickness gauge, align the cooktop so that there is a minimum uniform gap of 0.05″ (the thickness of a dime) between the cooktop and the downdraft cover.

NOTE: Do not force the downdraft cover to move rearward when aligning the cooktop. This may cause the downdraft cover to impact and damage the cooktop when the vent is raised and lowered.

Adjust the Switch

The downdraft is factory-adjusted for proper operation. However, shipping and handling may affect the positions of the activating switch.

To adjust position of activating switch:

WARNING: To avoid possible electrical shock, personal injury or death— disconnect electrical power.

1.If the downdraft is plugged into the electrical outlet, unplug it.

2.Lift the air vent straight up and cock it slightly so it remains in the UP position.

Switch membrane

Screws

Switch bracket

Switch cover

3.Remove the switch cover from the right end of the air vent.

4.Loosen the 2 screws holding the switch bracket in place. Position the switch bracket so that the activating switch just comes in contact with the underside of the switch membrane. Tighten the screws.

5.Replace the switch cover, gently lower the air vent into the chimney and plug in the power cord. Reconnect the electrical power and check operation.

11

Page 11
Image 11
GE JVB93 warranty Install the Cooktop, Adjust the Switch, To adjust position of activating switch

JVB93 specifications

The GE JVB93 is a sophisticated gas turbine designed for both industrial and utility applications, known for its exceptional efficiency and reliability. As part of GE's lineage of advanced gas turbines, the JVB93 incorporates cutting-edge technology to provide a competitive edge in terms of performance and environmental sustainability.

One of the primary features of the GE JVB93 is its high efficiency. The turbine boasts a thermal efficiency exceeding 45%, which translates to reduced fuel consumption and lower greenhouse gas emissions compared to traditional gas turbines. This efficiency is achieved through the utilization of advanced materials and innovative cooling techniques, enabling the turbine to operate at higher temperatures while maintaining structural integrity.

The JVB93 utilizes advanced aerodynamics in its compressor design, which optimizes airflow and improves overall performance. This state-of-the-art compressor is capable of handling variable operating conditions, ensuring reliable performance across a wide range of loads. The turbine also features a modular design, facilitating easier maintenance and quicker upgrades, ultimately reducing downtime and operational costs for users.

In terms of emissions control, the GE JVB93 is engineered with low NOx combustion technology. This means that the turbine produces significantly lower nitrogen oxides during operation, meeting stringent environmental regulations without compromising on performance. The combination of advanced burner technology and precise fuel management helps deliver clean and efficient power, making it an appealing option for companies focused on sustainability.

Another notable characteristic of the GE JVB93 is its versatility. The turbine can accommodate various fuel types, including natural gas, biogas, and liquid fuels, making it suitable for a range of applications from peaking power plants to continuous baseload operations. This adaptability allows facilities to optimize their fuel procurement strategies and enhance energy security.

Furthermore, the JVB93 is equipped with advanced digital technologies, allowing for real-time monitoring and predictive analytics. These capabilities enable operators to identify potential issues before they escalate, facilitating proactive maintenance strategies that enhance reliability and performance over time.

In summary, the GE JVB93 gas turbine stands out due to its high efficiency, low emissions, and advanced technology. Its modular design, versatile fuel capabilities, and digital integration make it an excellent choice for industries seeking to improve energy efficiency while adhering to environmental standards. This combination of features positions the JVB93 as a key player in the global push for cleaner, more sustainable energy solutions.