Development of a Real-Time Web-Based Power Monitoring system for the substation of petrochemical facilities

Abstract

Petrochemical industry not only consumes large amount of electricity every year but also requires high quality power supplies. Any unexpected power failure could shut down the entire production line and cause significant financial loss. Meanwhile, due to the large electricity consumption and intensive power demand, in-house cogeneration plants have been equipped for most petrochemical facilities. Thus, any power interruption or disturbance between petrochemical facility and interconnected power grids could affect both sides of the power systems. Therefore, having high power quality becomes one of the most critical parts for petrochemical facilities. To avoid unexpected power failure and to provide better understanding of the power system at petrochemical facilities, a fast, precise and reliable power monitoring system is required. A novel Real-Time Web-Based Power Monitoring system on field-programmable gate array (FPGA) platform is proposed in this paper for a power substation at the petrochemical facility. Besides the data collecting with event triggering mechanism and measurement data recording functions, Subsynchronous Oscillation (SSO) detection application is also developed in this system. This proposed monitoring system could provide precise data to help engineers with insightful analysis of the electric system to prevent power failure, and it also could help system operators to have a better understanding of the system operation characteristics.