Turbomachinery Package Specification

Taurus 60 Compressor Set and Mechanical Drive

 

 

14 Exhaust System

14.1General Description

The exhaust system typically consists of all components installed downstream of the engine exhaust bellows expansion joint, including silencers, expansion joints and ducting, that are necessary to ensure a smooth flow of exhaust gas from the engine. The exhaust duct system must be terminated in a manner that precludes recirculation of exhaust products through the engine air inlet or oil cooler. Exhaust considerations include the relative height of the exhaust duct above the air inlet, building roof design, direction of prevailing winds, and the proximity of adjacent structures. The importance of having an exhaust system properly designed cannot be overemphasized. When exhaust silencing is required, provisions must be made to adequately mount and support the equipment and limit the exhaust silencer pressure loss, with no loads transmitted to the turbine exhaust. Exhaust systems should be designed to meet the following requirements:

Where two or more units exhaust into a common header, such as used for heat recovery equipment, provisions must be made to prevent hot gas from flowing into the non-operating unit (common exhaust ducting is not recommended).

Final termination of ducting must not allow exhaust gas to be drawn into the gas turbine inlet.

Capability to purge the complete exhaust system prior to gas turbine lightoff. For short simple exhaust systems, purging should be designed to accomplish three air volume changes. For large complex exhaust systems, purging should be designed to accomplish five air volume changes either through gas turbine cranking or supplementary exhaust blowers.

14.1.1Exhaust Silencer

This exhaust silencer is designed for use with radial exhaust gas turbines. A support structure and ducting can be provided to support the exhaust silencer assembly. Brackets are available for mounting the silencer in a vertical or horizontal position. Figure 24 shows a typical Taurus 60 mechanical drive with a radial exhaust silencer.

14.2Turbine Exhaust Heat Recovery System

High thermal efficiencies can be obtained by using the gas turbine exhaust heat energy. There are several methods for using the exhaust heat and attaining greater than 80% fuel utilization. The methods used and the efficiencies achieved are primarily dependent on the type of application. The most common uses are:

1.Producing steam with a heat recovery steam generator (HRSG) or heating a process fluid with a heat recovery fluid heater.

2.Using the gas turbine exhaust as a source of preheated combustion air in a boiler or furnace (the gas turbine exhaust contains 15-18% oxygen).

3.Using the gas turbine exhaust directly for a drying or heating process in which high temperature air is necessary. A mixture of gas turbine exhaust and fresh air can be used in a reduced air temperature process. An air-to-air heat exchanger is required when the process involves any products in the human food chain.

Solar can design and provide a complete exhaust heat recovery system to meet specific application requirements. The system must be designed to minimize the backpressure imposed on the gas turbine exhaust and provide a smooth flow transition into the exhaust heat recovery device.

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TPS60CSMD/309

60