Currently the composition of gas mixtures is identified by extractive gas chromatographs with known disadvantages. Extractive analyzers employing fast detection methods will significantly decrease the maintenance costs and reduce waste and pollution. As laser based analyzers provide very short response times, excellent accuracies, afford minimum maintenance, and are resistant to contaminations of the gas stream, they become the most favourable choice for real time gas analyzers.
The outstanding capabilities of these new analyzers are based on three main developments of the iCspec project: (1) the development of widely tunable laser sources not available before the project, (2) the integration of these sources into industry grade analyzer systems and (3) the development of novel data evaluation algorithms. The technologies developed within the project were combined and incorporated in a demonstrator gas analyzer for the hydrocarbons methane, ethane, propane, n-butane, is-butane, n-pentane and iso-pentane. The new analyzer technology demonstrated its capabilities in a field test at the crude oil distillation stage of the Preem refinery in Lysekil/Sweden. The highlights are the short response time of <3 sec, compliance with specified accuracy, the small form factor (19” housing) allowing for fast installation, no need for consumables and low power consumption. With the performance demonstrated the new analyzer technology marks the leading edge of the technological progress.
The features of the new PAT will a have positive economic effects for the user, increase the safety for workers as well as impact on ecology. The highest impact will have the short response time of the analysis, which will speed up the process control loop, optimize the product quality and minimize waste. It will make it possible to run the process closer to its optimum and reduce the margins for safe operation. The laser analyzer will significantly reduce maintenance costs. Moreover, neither carrier gas (H2 or Helium) nor expensive calibration gas is required any more. It will also lead to decreased installation costs since it will be mounted close to the sample take off point without complex sample gas conditioning. The measurement will also be more robust against contaminants and process upsets resulting in an improved availability of the measurement. Since a refinery can have a large number of analyzers the reduced power consumption can lead to substantial power savings.