QUANTUM-LEVEL DISTRIBUTED FEEDBACK LASER MULTI-COMPONENT FLUE GAS ANALYSIS SYSTEM (DFB-QCL)
Technology Research & Development Program
Patent Background
Industrial yard, incinerator, natural gas, gas, waste gas, landfill process control. The exhaust gas monitoring market is growing every year but the traditional NDIR / UV technology (before the prototype used in the infrared technology) sensitivity and selectivity has some limitations such as SO3 detection, the detection limit is low, and its corrosion characteristics are becoming a major problem in the process industry. Traditional analytical tools such as extractable analyzers require sample conditioning and air conditioning analyzers, and the installation costs are high. The market requires a compact, low-cost product that is reliable and will be suitable for a variety of gas species measurements with minimal configuration changes in the product. With regards to on-line monitoring of SO3, the world has not yet considered the low cost and high efficiency of the test method. According to our design, DFB-QCL technology will be the first device on the market to achieve this goal. More gas can be measured by changing the center wavelength of the QCL. Other parameters of the measurement has a qualitative leap. After two years of research and development, scientists have now completed a design and prototype and are currently looking for a suitable partner to commercialize their designs.
Status Highlight
Prototype Design: Completed
Laboratory Testing Optimization: In progress
Main monitoring parameters:?
Product Certification: Not yet started