GAS TURBINE FIRE DETECTION SYSTEM INCLUDING COOLING SYSTEM UPSTREAM OF ASPIRATING SMOKE DETECTOR, AND RELATED METHOD

Organization Name

GENERAL ELECTRIC COMPANY

Inventor(s)

Rajan Prakash of Bangalore (IN)

Shivani Agarwal of Noida (IN)

GAS TURBINE FIRE DETECTION SYSTEM INCLUDING COOLING SYSTEM UPSTREAM OF ASPIRATING SMOKE DETECTOR, AND RELATED METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18148199 titled 'GAS TURBINE FIRE DETECTION SYSTEM INCLUDING COOLING SYSTEM UPSTREAM OF ASPIRATING SMOKE DETECTOR, AND RELATED METHOD

Simplified Explanation: The patent application describes a fire detection system for a gas turbine system with fire risk zones. The system includes temperature sensors and aspirating smoke detectors to detect potential fires.

• The system includes pipe intake ports near fire risk zones and a manifold connected to these ports.
• A temperature sensor in the manifold monitors gas flow temperature before a cooling system reduces it.
• An aspirating smoke detector downstream of the cooling system detects smoke in the gas flow.
• A controller triggers alarms based on temperature or smoke detection to alert of potential fires.

Key Features and Innovation:

• Integration of temperature sensors and aspirating smoke detectors for fire detection in gas turbine systems.
• Cooling system to reduce gas flow temperature for effective smoke detection.
• Alarm system to alert of potential fires based on temperature or smoke detection.

Potential Applications: The technology can be applied in various industrial settings with gas turbine systems to enhance fire safety measures.

Problems Solved: The system addresses the need for early fire detection in gas turbine systems to prevent potential hazards and damages.

Benefits:

• Early detection of fires in gas turbine systems.
• Enhanced safety measures in industrial settings.
• Prevention of potential damages and hazards.

Commercial Applications: Title: Fire Detection System for Gas Turbine Systems This technology can be utilized in industries such as power generation, aerospace, and manufacturing to improve fire safety protocols and prevent accidents.

Prior Art: Information on prior art related to this technology is not provided in the abstract.

Frequently Updated Research: There is no information on frequently updated research relevant to this technology.

Questions about Fire Detection System for Gas Turbine Systems Question 1: How does the cooling system in the fire detection system work to reduce gas flow temperature? Answer: The cooling system in the fire detection system reduces the temperature of the gas flow in the manifold before it reaches the aspirating smoke detector, allowing for more accurate smoke detection.

Question 2: What industries can benefit the most from implementing the fire detection system for gas turbine systems? Answer: Industries such as power generation, aerospace, and manufacturing can benefit the most from implementing the fire detection system for gas turbine systems to enhance fire safety measures and prevent potential hazards.

Original Abstract Submitted

A fire detection system for a gas turbine system including fire risk zones is provided. The system includes a pipe intake port proximate to each of the fire risk zones within a gas turbine system enclosure, and a manifold in fluid communication with the pipe intake port. A temperature sensor is positioned in the manifold upstream of a cooling system. The cooling system reduces a temperature of a gas flow in the manifold, allowing use of an aspirating smoke detector. An aspirating smoke detector, which is downstream of the cooling system, draws in the gas flow and detects smoke in the gas flow. A controller generates a first alarm in response to the temperature sensor detecting a temperature of the gas flow exceeding a temperature threshold, or a second alarm in response to the aspirating smoke detector detecting smoke in the gas flow.