The self-checking SAFYR PACKSCAN flame detectors are designed for monitoring solid or liquid fuel burners (oil, pulverised coal, heavy liquid residues). They are adapted for multi-burner installations by facilitating flame discrimination.
A binary safety signal is transmitted in the presence or absence of a flame. The output signal is also available on terminals for recording or remote display purposes.
Operation of the SAFYR PACKSCAN flame detector is based on the characteristic flickering phenomena of flames, generally between 0 to 150HZ. It uses a silicium photodiode cell, adapted to the combustion frequency in the visible light band (320 to 1100nm).
A display indicates all the configured parameters, as well as the detection level.
30 years of experience in the field of flame detection gives the SAFYR PACKSCAN the following advantages :
• An ‘all in one concept’ with an integrated amplifier in the scanner head for easy installation.
• Two microprocessors for increased safety and reliability.
• Approved by APAVE to meet all safety criteria requirements
• Detection level indicator to simplify commissioning
• Various standard confi guration methods by internal switches, by remote and by serial link, to simplify configuration
• Two SPDT output switches to indicate flame presence and proper detector operation
X-Ray Sensors offer a number of advantages over beta and gamma sensors, including greater precision, better streak detection, long-term stability and non-nuclear technology.
Since the X-ray sensor's energy output can be changed via digital power regulation, it can be optimized to run very efficiently over a wide range of product weights and thicknesses.
X-Ray Fluorescence Gauges are used to measure coatings containing quantities of metal or heavy elements, on plastic or paper substrates. The sensor energy level is selected for the application, such that the photons striking the material cause it to fluoresce. The returned fluorescence energy provides the information necessary to precisely calculate the coatweight. This selective technique has significant advantages in simplicity of operation, accuracy, and reduced equipment costs.
