Email: sales@runshengdcs.com
WhatsApp / Wechat:+86 15383419322
Phone:+86 15383419322Description
The GE IS200TTURH1CFD is a specialized Turbine Turbulence Monitoring module designed for the advanced Mark VIe turbine control system. This module is a key component of the combustion monitoring and control system, specifically tasked with analyzing dynamic pressure oscillations within the gas turbine combustor. Its core function is to process high-frequency signals from dynamic pressure transducers installed in the combustion chamber to detect and quantify the intensity of combustion dynamics, also known as “humming” or “pulsations.” The IS200TTURH1CFD converts these analog pressure signals into digital data, performing real-time spectral analysis (Fast Fourier Transform) to identify the amplitude and frequency of pulsations that could potentially damage the combustor hardware.
Operating within the Mark VIe architecture, the IS200TTURH1CFD provides critical data that enables the control system to take proactive measures to suppress dangerous combustion dynamics. By continuously monitoring the frequency spectrum, the module can distinguish between normal combustion noise and problematic resonant frequencies. The real-time analysis performed by the GE IS200TTURH1CFD is essential for implementing active combustion control strategies, such as modulating fuel splits between different fuel nozzles to disrupt the formation of standing pressure waves. This capability is crucial for maintaining low emissions levels, particularly NOx, while operating in lean, premixed combustion modes that are inherently more susceptible to dynamics.
IS200TTURH1CFD GE
Technical Specifications
| Parameter Name | Parameter Value |
| Product Model | IS200TTURH1CFD |
| Manufacturer | GE Industrial Systems (Mark VIe System) |
| Product Type | Turbulence (Combustion Dynamics) Monitoring Module |
| Compatible System | Mark VIe Turbine Control System |
| Primary Function | High-frequency dynamic pressure signal acquisition and analysis |
| Input Signal | AC-coupled signal from dynamic pressure transducers (e.g., 0-500 psi dynamic range) |
| Input Channels | Typically 4 or 8 channels for monitoring multiple combustion cans |
| Signal Processing | Real-time Fast Fourier Transform (FFT) for frequency domain analysis |
| Frequency Range | Monitors a spectrum relevant to combustion dynamics (e.g., 0-1000 Hz) |
| Sampling Rate | High-speed sampling to accurately capture pressure oscillations |
| Output Data | Pulsation amplitudes at specific frequencies, overall magnitude |
| Alarm Function | Configurable alarms for pulsation amplitude thresholds |
| Communication | Integrates with Mark VIe controllers via backplane communication |
| Power Supply | Powered by the Mark VIe I/O pack |
Main Features and Advantages
The GE IS200TTURH1CFD is distinguished by its high-speed signal processing and specialized analytical capabilities. A critical feature is its ability to perform real-time FFT analysis on multiple input channels simultaneously. This allows operators and the control logic to see not just the overall noise level, but the specific frequencies at which dangerous pulsations are occurring. This frequency-domain information is vital because different pulsation modes require different mitigation strategies. The module provides configurable alarm setpoints for specific frequency bands, enabling precise targeting of control actions rather than a broad-brush response.
Proactive protection and optimization are the primary advantages of this module. The data from the IS200TTURH1CFD is used by the turbine controller to automatically adjust fuel distribution, often through a specialized software algorithm called Dynamic Temperature Control (DTC), to “detune” the combustion process and suppress pulsations before they reach damaging amplitudes. This proactive approach protects the combustor liner, transition pieces, and fuel nozzles from acoustic-induced vibration and fatigue, significantly extending their service life. Furthermore, by allowing the turbine to operate stably closer to its emissions-optimized point, the IS200TTURH1CFD contributes directly to lower NOx emissions and improved fuel flexibility, providing both operational and economic benefits.
Application Field
The application of the GE IS200TTURH1CFD is critical in modern heavy-duty gas turbines, particularly those designed for low emissions using Dry Low NOx (DLN) combustion systems. These systems operate with lean fuel-air mixtures that are highly susceptible to combustion instability. The module is deployed to monitor the dynamic pressure in each combustion can or a representative sample of cans. The real-time data is essential for protecting the turbine during startup, load changes, and base-load operation, as pulsations can intensify rapidly during these transient conditions.
The IS200TTURH1CFD is a cornerstone of condition-based maintenance for the hot gas path. By tracking pulsation levels over time, it can provide early warning of combustion system degradation, such as clogged fuel nozzles or wear in the combustor, allowing maintenance to be planned before a forced outage occurs. This module is indispensable in power plants that must comply with strict emissions regulations while maintaining high reliability and availability. Its functionality is a key differentiator for turbines operating in demanding cycling duty, where combustion stability is constantly challenged.
IS200TTURH1CFD GE
Related Products
IS200TTURH1C: The base model of this turbulence monitoring module family.
IS200DPIBH1A: A Dynamic Pressure Interface Board that may condition signals before they are sent to the IS200TTURH1CFD.
IS200TREAH1B: A TMR Ethernet Adapter for transmitting pulsation data to plant historians and monitoring systems.
Dynamic Pressure Transducers: The sensors (e.g., piezoelectric sensors) that provide the high-frequency signal to the IS200TTURH1CFD.
Mark VIe Controller: The main controller that executes combustion control algorithms using data from the IS200TTURH1CFD.
