The FTPA2000-HP360 is a field-mountable process FT-NIR analyzer platform designed for the hydrocarbon and petrochemical applications where installation with limited utilities and / or basic field shelter is required
FT-IR Field-mountable Process Analyzer Platform
The FTPA2000-HP360 system includes an integrated Ex-certified analyzer cabinet designed for field shelter installation, temperature controlled FT-IR analyzer internal sample system with flow cell(s), full connectivity to DCS via MODBUS or OPC connected via Ethernet to a remote PC data-controller.
The FTPA2000-HP360 series analyzers are designed to provide hydrocarbon quality measurements on a wide range of process liquid and vapour steams including naphtha, gasoline, diesel, kerosene, reformate, C4 / LPG streams and similar applications. The analyzer internal sample flow cell system provides precise sample temperature control and allows stream quality measurements to be made with excellent repeatability.
Integrated Ex certified analyzer in IP65 enclosure designed for field shelter installation.
Suitable for light hydrocarbon liquid process streams (up to middle distillate, LGO, Kero) and process vapour streams.
Full DCS connectivity via ModBUS RTU and OPC
Calibration and Validation procedures to ASTM D6122 / E1655
All aspects of system operation, such as sampling system control, referencing, sample analysis, data communication, and data archiving, are controlled by ABB’s FTSW100 Process Software
Certified for hazardous locations:
Class 1 Division 2, T3 temperature rating,
ATEX Category II 2G(EEx pemd [ib] IIC T4 or T3, for hazardous area operation
NIR optics covering the 3800 cm-1 to 12,000 cm-1 range,
Single cell, single fluid switching kit included, upgrade to dual-cell with fully independent process sample inputs available
Multi-stream and multi-property analyses of refinery hydrocarbon streams with fast response (less than 1 minute per stream)
Naphtha conversion applications – CCR / ISOM
Naphtha steam-cracker feed for naphtha cracking furnace real-tine optimization
Gasoline final product quality analysis for blending optimization