Testing a differential-algebraic equation solver in long-term voltage stability simulation
This work evaluates the performance of a particular differential-algebraic equation solver, referred to as DASSL, in power system voltage stability computer applications. The solver is tested for a time domain long-term voltage stability scenario, including transient disturbances, using a real power...
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Hindawi Limited
2006-01-01
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| Series: | Mathematical Problems in Engineering |
| Online Access: | http://dx.doi.org/10.1155/MPE/2006/52315 |
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doaj-c7f59408f7c941d3a908d8e68d4d50f72020-11-25T01:05:56ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472006-01-01200610.1155/MPE/2006/5231552315Testing a differential-algebraic equation solver in long-term voltage stability simulationJosé E. O. Pessanha0Alex A. Paz1Departamento de Engenharia de Electricidade, CCET, Universidade Federal do Maranhão, Campus do Bacanga, Maranhão, São Luís 65080-040, BrazilDepartamento de Engenharia de Electricidade, CCET, Universidade Federal do Maranhão, Campus do Bacanga, Maranhão, São Luís 65080-040, BrazilThis work evaluates the performance of a particular differential-algebraic equation solver, referred to as DASSL, in power system voltage stability computer applications. The solver is tested for a time domain long-term voltage stability scenario, including transient disturbances, using a real power system model. Important insights into the mechanisms of the DASSL solver are obtained through the use of this real model, including control devices relevant to the simulated phenomena. The results indicate that if properly used, the solver can be a powerful numerical tool in time domain assessment of long-term power system stability since it comprises, among several important features, suitable and very efficient variable order and variable step-size numerical techniques. These characteristics are very important when CPU time is a great concern, which is the case when the power system operator needs reliable results in a short period of time. Prior to the present work, this solver has never been applied in power system stability computer analysis in time domain considering slow and fast phenomena.http://dx.doi.org/10.1155/MPE/2006/52315 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
José E. O. Pessanha Alex A. Paz |
| spellingShingle |
José E. O. Pessanha Alex A. Paz Testing a differential-algebraic equation solver in long-term voltage stability simulation Mathematical Problems in Engineering |
| author_facet |
José E. O. Pessanha Alex A. Paz |
| author_sort |
José E. O. Pessanha |
| title |
Testing a differential-algebraic equation solver in long-term voltage stability simulation |
| title_short |
Testing a differential-algebraic equation solver in long-term voltage stability simulation |
| title_full |
Testing a differential-algebraic equation solver in long-term voltage stability simulation |
| title_fullStr |
Testing a differential-algebraic equation solver in long-term voltage stability simulation |
| title_full_unstemmed |
Testing a differential-algebraic equation solver in long-term voltage stability simulation |
| title_sort |
testing a differential-algebraic equation solver in long-term voltage stability simulation |
| publisher |
Hindawi Limited |
| series |
Mathematical Problems in Engineering |
| issn |
1024-123X 1563-5147 |
| publishDate |
2006-01-01 |
| description |
This work evaluates the performance of a particular
differential-algebraic equation solver, referred to as DASSL, in
power system voltage stability computer applications. The solver
is tested for a time domain long-term voltage stability scenario,
including transient disturbances, using a real power system model.
Important insights into the mechanisms of the DASSL solver are
obtained through the use of this real model, including control
devices relevant to the simulated phenomena. The results indicate
that if properly used, the solver can be a powerful numerical tool
in time domain assessment of long-term power system stability
since it comprises, among several important features, suitable and
very efficient variable order and variable step-size numerical
techniques. These characteristics are very important when CPU time
is a great concern, which is the case when the power system
operator needs reliable results in a short period of time. Prior
to the present work, this solver has never been applied in power
system stability computer analysis in time domain considering slow
and fast phenomena. |
| url |
http://dx.doi.org/10.1155/MPE/2006/52315 |
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AT joseeopessanha testingadifferentialalgebraicequationsolverinlongtermvoltagestabilitysimulation AT alexapaz testingadifferentialalgebraicequationsolverinlongtermvoltagestabilitysimulation |
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