April 2026 — ESEGAS proudly announces the launch of its latest innovation, the LX-2000 Online TDLAS Gas Monitoring System, designed to deliver high-precision, real-time measurement of NH₃, HCl, HF, and other critical gases in industrial flue gas environments.

Advanced TDLAS Technology for Harsh Industrial Applications

The LX-2000 leverages Tunable Diode Laser Absorption Spectroscopy (TDLAS), a cutting-edge laser-based gas analysis technology that determines gas concentration by measuring wavelength-specific light absorption. This method enables high selectivity, fast response, and reliable performance even in high-temperature and high-dust conditions.

By tuning a narrow-linewidth laser across the characteristic absorption lines of target gases, the LX-2000 ensures accurate detection with minimal cross-interference, making it ideal for demanding applications such as SCR/SNCR denitrification systems and emission monitoring.

Key Application Areas

• Coal-fired power plants
• Steel and cement industries
• Waste incineration facilities
• Chemical processing plants

Moreover, the system is specifically engineered for Ammonia slip monitoring (NH₃) in denitrification processes and Acid gas detection (HCl, HF) in combustion and emission control.

TDLAS Spectroscopic Principle – Key Characteristics

The LX-2000 is built on advanced spectroscopic principles, offering superior analytical performance:

• Target Gas Identification
  Each gas exhibits unique absorption lines, acting as a “spectral fingerprint” for precise detection.
• Minimal Interference from Other Gases
  Narrow laser linewidth allows isolation of specific absorption lines, significantly reducing cross-sensitivity.
• Ultra-Narrow Laser Linewidth vs. Traditional Spectroscopy
  Unlike conventional broadband spectroscopy, TDLAS uses highly focused laser beams for high-resolution measurements.
• Laser Frequency Scanning
  The tunable laser scans across gas absorption features to capture detailed spectral information for accurate quantification.
• Absorption-Based Measurement
  Gas concentration is determined by measuring the attenuation of laser intensity as it passes through the gas medium.

Why LX-2000 Stands Out

• High Accuracy & Sensitivity for trace gas detection
• Fast Response Time for real-time process control
• Strong Anti-Interference Capability in complex gas matrices
• Low Maintenance Design with no need for optical alignment
• Robust Performance under high temperature (≤450°C) and high dust conditions

Driving Safer and More Efficient Industrial Operations

With the LX-2000, ESEGAS continues its commitment to delivering advanced gas analysis solutions that help industries:

• Optimize ammonia injection and reduce corrosion risks
• Extend catalyst lifetime
• Improve operational stability
• Reduce maintenance costs
• Ensure environmental compliance

Learn More

For detailed specifications or customized solutions, visit our website or contact with our sales engineer, [email protected].