
Heat Exchanger Condition Monitor
This plugin performs thermodynamic calculations on the heat exchanger tubes/fins/coils, calculating the real-time duty, heat exchanger effectiveness, heat transfer coefficient, and fluid flows, as appropriate.
This plugin performs thermodynamic calculations on the heat exchanger tubes/fins/coils, calculating the real-time duty, heat exchanger effectiveness, heat transfer coefficient, and fluid flows, as appropriate.
This plugin delivers substantial insight into auxiliary boiler performance. It calculates boiler losses in real time in accordance with ASME PTC 4.1 then compares them to expected losses and overall efficiency.
This plugin simplifies early identification of problems with turbine driven compressors. It calculates compressor discharge pressure, work (brake horsepower, and both include isentropic efficiency and polytropic efficiency then plots them plots them in real time against scalable, dynamic reference curves that adjust with compressor speed.
This plugin helps quickly identify potential problems with rotating equipment. It uses gas inlet and outlet conditions to calculate the power extracted by the turbo-expander, applicable efficiencies, and shaft losses.
This plugin helps identify liquid ring compressor issues early. It calculates compressor stages, overall pressure ratios, free air delivery (FAD), brake horsepower and both isothermal efficiency and volumetric efficiency metrics in real time then plots the values against reference curves.
This plugin helps identify reciprocating compressor issues early. It calculates compressor stages, overall pressure ratios, free air delivery (FAD) and both isothermal efficiency and volumetric efficiency metrics in real time then plots the values against expected curves.
This variation of the Centrifugal Compression Condition Monitor (PPI-GNL-CCR-PRF) allows users to customize the plugin with their own existing KPI tags.
This tool helps identify pump problems early. It calculates pump efficiency, driver/pump set efficiency, performance factors, suction head, NPSH, discharge head, and total head metrics and plots them against scalable, dynamic reference curves that adjust with pump speed.
This PI System plugin, based upon American Gas Association (AGA) report numbers 3 & 8, calculates gas compressibility (Z) and real time fuel gas flow.
This PI System plugin provides useful information for identifying problems with cooling tower operation or physical conditions.
Copyright © 2020-2021 Brandenburg Holdings, LLC – All Rights Reserved.