GE美国RS-FS-9009-03火焰传感器是一款高性能的火焰检测设备，专为工业应用设计，尤其在燃气轮机、石油、天然气等行业中具有重要应用。

产品特点

高灵敏度

采用碳化硅（SiC）光电二极管，对火焰产生的紫外线（UV）辐射具有高灵敏度，尤其对较长波长的紫外线（>260nm）敏感。

能够穿透燃料雾和蒸汽，检测火焰的微弱信号，确保火焰状态的实时监测。

宽动态范围与快速响应

具备宽动态范围，可适应不同火焰强度和背景辐射条件。

响应时间极短（<25毫秒），能够快速报告火焰状态，确保系统的安全性和可靠性。

高可靠性

设计适用于恶劣的工业环境，具备高耐用性和抗干扰能力。

传感器材料和结构经过优化，能够在高温、高压等极端条件下稳定运行。

易于安装与维护

配备快速断开连接器，便于传感器的更换和维护，减少停机时间。

模块化设计，支持与现有系统的机械和电气互换，降低升级成本。

技术参数

传感器类型：紫外线（UV）火焰传感器

检测原理：基于碳化硅光电二极管的光电效应

响应波长：对较长波长紫外线敏感（>260nm）

响应时间：<25毫秒

工作温度范围：根据具体型号和应用环境，通常支持宽温度范围

输出信号：模拟输出信号，支持实时火焰状态监测

应用领域

燃气轮机

实时监测燃烧室火焰状态，防止熄火或燃烧不稳定，确保燃气轮机的安全运行。

石油与天然气

用于炼油厂、天然气处理厂等场所的火焰检测，预防火灾和爆炸事故。

工业加热系统

监测锅炉、熔炉等设备的火焰状态，优化燃烧效率，降低能耗。

航空航天

用于发动机燃烧室和火箭推进系统的火焰检测，确保飞行安全。

优势

高安全性：通过实时火焰监测，及时发现火焰异常，避免潜在的安全风险。

降低维护成本：快速断开连接器和模块化设计减少了维护时间和成本。

提高系统可靠性：宽动态范围和快速响应时间确保系统在各种工况下稳定运行。

注意事项

安装与调试：需按照制造商提供的指南进行安装和调试，确保传感器与系统的兼容性。

环境适应性：尽管传感器具备高耐用性，但在极端环境下（如高温、高湿度）仍需采取适当的防护措施。

定期校准：为确保检测精度，建议定期对传感器进行校准和维护。

The GE US RS-FS-9009-03 flame sensor is a high-performance flame detection device designed specifically for industrial applications, particularly in industries such as gas turbines, oil, and natural gas.

Product Features

high sensitivity

Using silicon carbide (SiC) photodiodes, it has high sensitivity to ultraviolet (UV) radiation generated by flames, especially to longer wavelengths of UV radiation (>260nm).

It can penetrate fuel mist and steam, detect weak signals of flames, and ensure real-time monitoring of flame status.

Wide dynamic range and fast response

It has a wide dynamic range and can adapt to different flame intensities and background radiation conditions.

The response time is extremely short (<25 milliseconds), which can quickly report the flame status, ensuring the safety and reliability of the system.

high reliability

Designed for harsh industrial environments, with high durability and anti-interference capabilities.

The sensor material and structure have been optimized to operate stably under extreme conditions such as high temperature and high pressure.

Easy to install and maintain

Equipped with quick disconnect connectors for easy replacement and maintenance of sensors, reducing downtime.

Modular design supports mechanical and electrical interchangeability with existing systems, reducing upgrade costs.

Technical Parameter

Sensor type: Ultraviolet (UV) flame sensor

Detection principle: photoelectric effect based on silicon carbide photodiode

Response wavelength: sensitive to longer wavelength ultraviolet radiation (>260nm)

Response time:<25 milliseconds

Working temperature range: Depending on the specific model and application environment, it usually supports a wide temperature range

Output signal: Analog output signal, supporting real-time flame state monitoring

application area 

gas turbine

Real time monitoring of combustion chamber flame status to prevent stalling or unstable combustion, ensuring the safe operation of gas turbines.

oil and gas

Used for flame detection in refineries, natural gas processing plants, and other places to prevent fire and explosion accidents.

Industrial heating system

Monitor the flame status of equipment such as boilers and furnaces, optimize combustion efficiency, and reduce energy consumption.

EADS

Used for flame detection in engine combustion chambers and rocket propulsion systems to ensure flight safety.

advantage

High security: Through real-time flame monitoring, abnormal flames can be detected in a timely manner to avoid potential safety risks.

Reduce maintenance costs: Quick disconnect connectors and modular design reduce maintenance time and costs.

Improve system reliability: Wide dynamic range and fast response time ensure stable operation of the system under various working conditions.

precautions

Installation and commissioning: Installation and commissioning should be carried out according to the manufacturer's guidelines to ensure compatibility between the sensor and the system.

Environmental adaptability: Although sensors have high durability, appropriate protective measures still need to be taken in extreme environments such as high temperature and high humidity.

Regular calibration: To ensure detection accuracy, it is recommended to calibrate and maintain the sensor regularly.