GE ZV850 installation instructions Check Installation Hardware

Page 8

Step2

Remove the Packaging

Step3

Check

Installation

Hardware

Installation

36" Island Vent Hood

The vent hood is packed separate from the required accessory ZX858, ZX859 or ZX8510.

Remove the frame, cover, parts box, side bars and packaging.

Remove junction box cover.

Install strain relief onto junction box cover.

Locate the hardware accessory box packed with the hood and check contents.

4 Flat Washers

 

 

4 Hex head

8 Frame Attachment

 

Screws with Washers

 

wood lag screws

Front of Hood

(attached to

(6mm x 2-1/2")

 

accessory support

 

or

 

frames)

 

(1/4 x 2-1/2")

 

 

 

2 Phillips Head

 

Template

Decorative Screws

4 (10mm) Nuts and Lock Washers

 

2 Side Bars With 4 Machine Screws

 

Check service manual envelope taped

 

to the front on the hood to be sure it

 

contains one stop screw. Leave this

3 Filters

screw in the envelope.

 

Check contents of the required accessory, ZX858, ZX859 or ZX8510.

Mounting Screw Holes

Support Frames with 8 Screws and 8 Washers

Decorative Duct Covers

8

Image 8
Contents GE Monogram Installation Instructions Island Vent Hood Contents Required Accessory Design InformationPower Supply Tools Materials RequiredElectrical supply Grounding InstructionsDuct fittings Flexible ductingCeiling support structure Advance PlanningPlan the location Ductwork Finish the CeilingCheck Installation Hardware InstallationInstall lower support frame Install Support FrameInstall upper support frame Secure Wiring Size Install DuctworkWiring To Find Required Duct LengthInstall Decorative Duct Covers Install Hood Verify that power is turned off at the sourceSlide Duct Cover Down Install Side Utility Bars Install Filters Finalize Installation Island Vent Hood Monogram
Related manuals
Manual 32 pages 47.6 Kb

ZV850 specifications

The GE ZV855, ZV755, ZV850, and ZV750 represent a significant leap in the realm of modern gas turbine technology. These models, primarily used in power generation, have been engineered with an emphasis on efficiency, reliability, and environmental sustainability. Their advanced features and capabilities make them ideal for both utility companies and industrial applications.

The GE ZV855 stands out with its high efficiency and flexibility, capable of generating up to 50 MW of power. One of its main features is the innovative combustion system, which allows for a wide range of fuels, including natural gas and biofuels. The turbine design incorporates advanced aerodynamics for improved performance, while also ensuring reduced emissions of nitrogen oxides (NOx) and carbon dioxide (CO2). This makes the ZV855 an optimal choice for those looking to comply with stringent environmental regulations.

In a similar vein, the ZV755 offers versatility with a slightly lower power output, around 40 MW, while maintaining similar efficiency levels. It is designed for quick starts and operational flexibility, making it ideal for peaking power plants. The ZV755 utilizes state-of-the-art digital control systems, allowing for real-time performance monitoring and predictive maintenance, which enhances reliability and reduces downtime.

The ZV850 model is primarily tailored for combined cycle applications, achieving higher thermal efficiency. This turbine can operate efficiently in tandem with steam turbines, allowing for a significant reduction in fuel consumption. Its advanced heat recovery steam generator (HRSG) technology enables it to capture waste heat and convert it into additional power, further improving the overall efficiency of the power plant.

Lastly, the ZV750 is known for its compact design and modular construction, facilitating easier installation and maintenance. With a power output similar to ZV755, it also emphasizes low emissions and operational efficiency. The turbine includes smart grid capabilities, enabling seamless integration into modern energy management systems.

Collectively, these GE turbine models represent the forefront of gas turbine technology, highlighting a commitment to operational excellence and environmental stewardship. Their unique features and advanced technologies position them well for future energy demands, making them indispensable in the transition towards a more sustainable energy landscape.