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S Patterson - One of the best experts on this subject based on the ideXlab platform.

  • a new thermal governor Modeling Approach in the wecc
    2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Summary form only given. Recordings of large generation trips in the WECC indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system test and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

  • a new thermal governor Modeling Approach in the wecc
    IEEE Transactions on Power Systems, 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Recordings of large generation trips in the Western Electricity Coordinating Council (WECC) indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system tests and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

L Pereira - One of the best experts on this subject based on the ideXlab platform.

  • a new thermal governor Modeling Approach in the wecc
    2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Summary form only given. Recordings of large generation trips in the WECC indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system test and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

  • a new thermal governor Modeling Approach in the wecc
    IEEE Transactions on Power Systems, 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Recordings of large generation trips in the Western Electricity Coordinating Council (WECC) indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system tests and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

John Michael Undrill - One of the best experts on this subject based on the ideXlab platform.

  • a new thermal governor Modeling Approach in the wecc
    2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Summary form only given. Recordings of large generation trips in the WECC indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system test and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

  • a new thermal governor Modeling Approach in the wecc
    IEEE Transactions on Power Systems, 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Recordings of large generation trips in the Western Electricity Coordinating Council (WECC) indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system tests and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

Dmitry Kosterev - One of the best experts on this subject based on the ideXlab platform.

  • a new thermal governor Modeling Approach in the wecc
    2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Summary form only given. Recordings of large generation trips in the WECC indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system test and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

  • a new thermal governor Modeling Approach in the wecc
    IEEE Transactions on Power Systems, 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Recordings of large generation trips in the Western Electricity Coordinating Council (WECC) indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system tests and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

D Davies - One of the best experts on this subject based on the ideXlab platform.

  • a new thermal governor Modeling Approach in the wecc
    2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491), 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Summary form only given. Recordings of large generation trips in the WECC indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system test and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.

  • a new thermal governor Modeling Approach in the wecc
    IEEE Transactions on Power Systems, 2003
    Co-Authors: L Pereira, John Michael Undrill, Dmitry Kosterev, D Davies, S Patterson
    Abstract:

    Recordings of large generation trips in the Western Electricity Coordinating Council (WECC) indicate that only about 40% of the simulated governor response actually occurs. This paper presents the development of a new turbine-governor Modeling Approach that correctly represents thermal units that have demonstrated unresponsive characteristics as "base loaded" units, or as units with load-controllers. The developmental work included the creation of a WECC-wide system database based on disturbance monitoring and SCADA recordings of staged tests. The new Modeling Approach has been extensively validated against recordings from three WECC system tests and several large disturbances and has been recommended for use in all operation and planning studies in the WECC. Current effort is to obtain validated data for the new models from generator owners that will replace the developmental database. The new Modeling results in improved dynamic simulations of thermal and hydro plant responses, of power flows in key interties, and of system oscillations following large generation trips.