Using molecular weight and invariant mapping to determine performance of rotating equipment in a petrochemical plant or refinery

What is claimed is: 1. A system comprising: a reactor; a heater; a centrifugal compressor; one or more sensors associated with the centrifugal compressor; a data collection platform comprising: one or more processors of the data collection platform; a communication interface of the data collection platform; and memory storing executable instructions that, when executed, cause the data collection platform to: collect sensor data from the one or more sensors associated with the centrifugal compressor; and send the sensor data from the one or more sensors associated with the centrifugal compressor; and a data analysis platform comprising: one or more processors of the data analysis platform; a communication interface of the data analysis platform; and memory storing executable instructions that, when executed, cause the data analysis platform to: receive sensor data associated with the centrifugal compressor and collected by the one or more sensors associated with the centrifugal compressor; analyze the sensor data associated with the centrifugal compressor to determine a molecular weight of gas flow of gas in the centrifugal compressor; use the molecular weight of the gas flow of the gas in the centrifugal compressor to evaluate a performance of the centrifugal compressor; determine a recommended action to improve the performance of the centrifugal compressor; and send an alert including information regarding the performance of the centrifugal compressor and the recommended action to improve the performance of the centrifugal compressor. 2. The system of claim 1 , comprising: an upstream pressure sensor associated with the centrifugal compressor and configured to collect upstream pressure data associated with a pressure upstream of the centrifugal compressor; a downstream pressure sensor associated with the centrifugal compressor and configured to collect downstream pressure data associated with a pressure downstream of the centrifugal compressor, wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive the upstream pressure data associated with the pressure upstream of the centrifugal compressor; receive the downstream pressure data associated with the pressure downstream of the centrifugal compressor; and use the upstream pressure data and the downstream pressure data to determine the molecular weight of the gas flow of the gas in the centrifugal compressor. 3. The system of claim 1 , comprising: an upstream flow sensor associated with the centrifugal compressor and configured to collect upstream flow data associated with a flow upstream of the centrifugal compressor; a downstream flow sensor associated with the centrifugal compressor and configured to collect downstream flow data associated with a flow downstream of the centrifugal compressor; wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive the upstream flow data associated with the flow upstream of the centrifugal compressor; receive the downstream flow data associated with the flow downstream of the centrifugal compressor; and use the upstream flow data and the downstream flow data to determine the molecular weight of the gas flow of the gas in the centrifugal compressor. 4. The system of claim 1 , comprising: an upstream temperature sensor associated with the centrifugal compressor and configured to collect upstream temperature data associated with a temperature upstream of the centrifugal compressor; a downstream temperature sensor associated with the centrifugal compressor and configured to collect downstream temperature data associated with a temperature downstream of the centrifugal compressor; wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive the upstream temperature data associated with the temperature upstream of the centrifugal compressor; receive the downstream temperature data associated with the temperature downstream of the centrifugal compressor; and use the upstream temperature data and the downstream temperature data to determine the molecular weight of the gas flow of the gas in the centrifugal compressor. 5. The system of claim 1 , comprising: an upstream pressure sensor associated with the centrifugal compressor and configured to collect upstream pressure data associated with a pressure upstream of the centrifugal compressor; a downstream pressure sensor associated with the centrifugal compressor and configured to collect downstream pressure data associated with a pressure downstream of the centrifugal compressor; an upstream flow sensor associated with the centrifugal compressor and configured to collect upstream flow data associated with a flow upstream of the centrifugal compressor; a downstream flow sensor associated with the centrifugal compressor and configured to collect downstream flow data associated with a flow downstream of the centrifugal compressor; an upstream temperature sensor associated with the centrifugal compressor and configured to collect upstream temperature data associated with a temperature upstream of the centrifugal compressor; a downstream temperature sensor associated with the centrifugal compressor and configured to collect downstream temperature data associated with a temperature downstream of the centrifugal compressor; wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive the upstream pressure data associated with the pressure upstream of the centrifugal compressor; receive the downstream pressure data associated with the pressure downstream of the centrifugal compressor; receive the upstream flow data associated with the flow upstream of the centrifugal compressor; receive the downstream flow data associated with the flow downstream of the centrifugal compressor; receive the upstream temperature data associated with the temperature upstream of the centrifugal compressor; receive the downstream temperature data associated with the temperature downstream of the centrifugal compressor; and use the upstream pressure data, the downstream pressure data, the upstream flow data, the downstream flow data, the upstream temperature data, and the downstream temperature data to determine the molecular weight of the gas flow of the gas in the centrifugal compressor. 6. The system of claim 1 , comprising: an inlet guide vane angle sensor associated with the centrifugal compressor, wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive sensor data collected by the inlet guide vane angle sensor associated with the centrifugal compressor; and use the sensor data collected by the inlet guide vane angle sensor associated with the centrifugal compressor to determine the molecular weight of the gas flow of the gas in the centrifugal compressor. 7. The system of claim 1 , comprising: a shaft of the centrifugal compressor; a power sensor associated with the shaft of the centrifugal compressor, wherein the memory of the data analysis platform stores executable instructions that, when executed, cause the data analysis platform to: receive torque data measured by the power sensor associated with the shaft of the centrifugal compressor; use the torque data measured by the power sensor associated with the shaft of the centrifugal compressor to determine power of a motor; and use the power of the motor to determine the molecular weight of the gas