Projects:2016s1-122 A Complete Model for a Synchronous Machine

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A Dynamic Model for a Synchronous Machine

Supervisor:

Dr Andrew Allison

Co-supervisor:

David Vowles

Project Members:

Leng Wai Kit Teng, Praveen De Silva, Thomas Klopf, Samuel Conlin

Aim:

To find a model for the Dynamic Characteristics of a synchronous machine. Then the model will be validated through a series of tests on an actual machine. The test procedures will be standardized and documents for use with other synchronous machines.

Motivation:

The steady state characteristics of the synchronous machines in the power labs at the University of Adelaide are already well documented, however information about the dynamic characteristics of these machines haven't been documented much. If a model and standardized test procedure to find the synchronous machines dynamic characteristics could be found, more information about the machines could be documented for future use by students and academics who wish to use them.

EES Steady State Testing:

Steady state tests for the synchronous machine involved three different test procedures as directed by the EES practical notes, each procedure determined a different machine operation condition. The tests completed were the open circuit, short circuit and slip test.

Through the use of the EES Synchronous Machine Experiment we were able to accurately find several important steady state synchronous machine parameters including Xd and Xq. It was found that the value for Xd = 33.33 ohms = 1.46 pu and the value for Xq = 10.41 ohms and .456 pu.


Synchronous Machine Saturation Model:

A saturation model is a non-linear model which is required to describe the behavior of a power system. [9] Therefore it was essential that as a part of the project a saturation model of the synchronous machine was found. The open circuit tests from the EES Synchronous Machines experiment was used to find the saturation characteristics of the synchronous machine. By implementing an airgap line on the open circuit saturation curve, the saturation of the synchronous machine was found at the estimated minimum and maximum operating points of the machine.

Saturation Model

Validation of the machine model:

In order to validate the machine, various data points were obtained within the operating region of the machine. The capability figure clearly indicates the operating region of the machine and it also shows the data points which the group calculated.

Capability Figure

In order to obtain the data points, the group used the DC machine as a prime mover which drives power in to the synchronous machine which then drives power into the mains. Adjusting the prime mover by adjusting the rheostat on the DC machine allowed the group to obtain real power measurements and adjusting the field voltage by adjusting the rheostat on the synchronous machine allowed the group to obtain reactive power measurements.

The data points shown in the capability figure represents field current (A). Once these measurements were made, the group compared the measured values with the calculated values of field current. MATLAB code authored by Mr. David Vowles was used for the purpose of comparing measured results with the calculated results.