Rotor Temperature Monitoring with DAQSTATION

Introduction

A major power company in the Southern part of the United States needed a solution for monitoring Generator Field Winding Temperature.

Application

Generator Field Temperature Monitoring
Generator Field Temperature Monitoring

Field temperature monitoring systems use DC to DC isolation amps to present exciter volts and shunts amps to a computing module that in turn sends a voltage or milliamp signal representative of the field temperature to a recording or indicating device.

Generator Field Winding Temperature can be obtained by combining two independent basic measurements consisting of the resistance of a conductor as a function of temperature and the resistance of a conductor as a function of the voltage and current through the conductor. The resistance of the field at the operating temperature can be determined by measuring the voltage impressed on the field by the generator exciter and the resulting DC current through the field as a result of the exciter voltage. Since these relationships independently determine the field winding resistance, by combining the ohms law relation with the properties of the material relation an operating temperature can be determined using the actual field voltage and shunt current.

The generator field is the rotating magnet of the generator. This rotating magnetic field induces a voltage in the stationary stator winding of the field converting the shaft mechanical work from the steam turbine or other prime mover into AC electrical power.

The rotation of the field requires a slip ring and brush assembly to transfer the DX current into the rotation field rotor. The voltage drop across the brushes is a voltage loss and will cause an error in the temperature calculation. The brush drop is subtracted from the measured field voltage to determine the actual applied voltage to the field winding.

The field current is measured using a calibrated shunt. The DC voltage drop across the shunt is proportional to the actual field amperes.

Solution

Generator data plate information

The DXAdvanced paperless recorder computes the Field Temperature based on generator inputs from Juxta DC to DC isolation amps mounted near the generator for the exciter voltage and shunt amps.

Operators can view amps, DC field volts, rotor temperature, rotor resistance and/or load. The DXAdvanced provides:

  • Digital calculations for improved accuracy
  • Alarm indication and output relays
  • Adjustable noise filter
  • Brush drop compensation
  • Easy upgrade from old monitoring system
  • Ability to replace or use existing isolation amps

Generator data plate information supplied by the Generator Manufacturer is used to perform custom calculations specific for each generator. These parameters are:

Brush Drop ________________________________
Shunt Amp Rating ___________________________
Shunt mV _________________________________
Unit Reference Resistance_____________________
Rotor Resistance at Ref. Resistance _____________
Temperature Coefficient of Rotor ________________
Reference Temperature _______________________

Include at least one generator calibration data point.

Yokogawa's DXAdvanced Paperless Recorder solution using field mounted Juxta isolators is a replacement for all manufacturers' generator field temperature units including Leeds & Northrup Generator Field Temperature Measurement models for both the control room recorder and the field mounted unit.

DXAdvanced Paperless recorder

Equipment used for the application:

  • DXAdvanced Paperless recorder with math
    - See Bulletin 04L41B01-01E for more information
  • Juxta Isolation Amplifiers
    Part number VJH1-016-24NO for shunt mV input and part number VJH1-016-44NO/Z (Z=Range of Exciter voltage). Note: If exciter voltage exceeds 300 VDC also use FVDV- 11*B voltage divider and change Juxta part number. See GS77J01H01-01E for more technical information about the Juxta VJH1 series.
  • Cabinet for mounting Juxta Isolation Amps

Industries

  • Power

    In the mid 1970s, Yokogawa entered the power business with the release of the EBS Electric Control System. Since then, Yokogawa has steadfastly continued with the development of our technologies and capabilities for providing the best services and solutions to our customers worldwide.

    Yokogawa has operated the global power solutions network to play a more active role in the dynamic global power market. This has allowed closer teamwork within Yokogawa, bringing together our global resources and industry know-how. Yokogawa's power industry experts work together to bring each customer the solution that best suits their sophisticated requirements.

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