Blocked rotor test: Difference between revisions

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A blocked rotor test is conducted on an induction motor. It is also known as short circuit test, locked rotor test or stalled torque test.^[1] From this test, short circuit current at normal voltage, power factor on short circuit, total leakage reactance, and starting torque of the motor can be found.^[2]^[3] The test is conducted at low voltage because if the applied voltage was normal voltage then the current through the stator windings would be high enough to overheat the windings and damage them.^[4] The blocked rotor torque test is not performed on wound-rotor motors because the starting torque can be varied as desired. However, a blocked rotor current test is conducted on squirrel cage rotor motors.^[5]

Method

In the blocked rotor test, the rotor is locked.^[6] A low voltage is applied on the stator terminals so that there is full load current in the stator winding, and the current, voltage and power input are measured at that point. When the rotor is stationary, the slip, $s=1$ .^[7] The test is conducted at $1/4$ the rated frequency as recommended by IEEE, because the rotor's effective resistance at low frequency may differ at high frequency.^[8]^[9] The test can be repeated for different values of voltage to ensure the values obtained are consistent. As the current through the stator may exceed the rated current, the test should be conducted quickly.^[10] By using the parameters found by this test, the motor circle diagram can be constructed.^[11]

Calculations involved

Short circuit current at normal voltage

$I_{S}$ is the short circuit current at voltage $V_{S}$
$I_{SN}$ is the short circuit current at normal voltage $V$
$I_{SN}=I_{S}\times {\frac {V}{V_{S}}}$

Short circuit power factor

$W_{S}$ is the total input power on short circuit
$V_{SL}$ is the line voltage on short circuit
$I_{SL}$ is the line current on short circuit
$cos\phi _{S}$ is the short circuit power factor
$cos\phi _{S}={\frac {W_{S}}{{\sqrt {3}}{V_{SL}}{I_{SL}}}}$ ^[12]

Leakage reactance

$Z_{01}$ is the short circuit impedance as referred to stator
$X_{01}$ is the leakage reactance per phase as referred to stator
$Z_{01}={\frac {\text{short circuit voltage per phase}}{\text{short circuit current}}}={\frac {V_{S}}{I_{S}}}$

$W_{cu}$ is the total copper loss
$W_{c}$ is the core loss

$W_{cu}=W_{S}-W_{c}$
$W_{cu}={3}\times {{I_{S}}^{2}{R_{01}}}$

$R_{01}={\frac {W_{cu}}{3{I_{S}}^{2}}}$

$X_{01}={\sqrt {{Z_{01}}^{2}-{R_{01}^{2}}}}$

References

^ "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.
^ "Blocked rotor test". Sakshat virtual labs.
^ de Swardt, Henk. "The Locked rotor test explained" (PDF). Marthinusen & Coutts (Pty.) Ltd. Archived from the original (PDF) on 2011-05-16. Retrieved 2012-06-27. {{cite journal}}: Cite journal requires |journal= (help)
^ "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.
^ Industrial Power Engineering and Applications Handbook. Newnes.
^ "Blocked rotor test". Sakshat virtual labs.
^ B.L. Theraja, A.K. Theraja (2010). Electrical Technology volume 2 (Twenty third revised multicolour ed.). S. Chand. p. 1317. ISBN 81-219-2437-5.
^ Knight, Dr Andy. "Electrical Machines". Department of Electrical and Computer engineering, University of Alberta. Archived from the original on 2012-11-29.
^ Pitis, CD. "femco squirrel.doc". Femco mining motors. {{cite journal}}: Cite journal requires |journal= (help)
^ "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.
^ Deshpande, M.V. Electrical Machines. PHI Learning Pvt. Ltd.
^ Deshpande, M.V. Electrical Machines. PHI Learning Pvt. Ltd.

[1] "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.

[2] "Blocked rotor test". Sakshat virtual labs.

[3] Swardt, Henk. "The Locked rotor test explained" (PDF). Marthinusen & Coutts (Pty.) Ltd. Archived from the original (PDF) on 2011-05-16. Retrieved 2012-06-27. {{cite journal}}: Cite journal requires |journal= (help)

[4] "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.

[5] Industrial Power Engineering and Applications Handbook. Newnes.

[6] "Blocked rotor test". Sakshat virtual labs.

[7] B.L. Theraja, A.K. Theraja (2010). Electrical Technology volume 2 (Twenty third revised multicolour ed.). S. Chand. p. 1317. ISBN 81-219-2437-5.

[8] Knight, Dr Andy. "Electrical Machines". Department of Electrical and Computer engineering, University of Alberta. Archived from the original on 2012-11-29.

[9] Pitis, CD. "femco squirrel.doc". Femco mining motors. {{cite journal}}: Cite journal requires |journal= (help)

[10] "Motor testing methods". Electronic Systems of Wisconsin, Inc. Archived from the original on 2012-12-31.

[11] Deshpande, M.V. Electrical Machines. PHI Learning Pvt. Ltd.

[12] Deshpande, M.V. Electrical Machines. PHI Learning Pvt. Ltd.

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-A '''blocked rotor test''' is conducted on an [[induction motor]]. It is also known as [[short circuit test]], locked rotor test or stalled torque test.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|deadurl =yes|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31|df =}}</ref> From this test, [[short circuit current]] at [[Voltage|normal voltage]], [[power factor]] on short circuit, total [[Electrical reactance|leakage reactance]], and [[Torque|starting torque]] of the motor can be found.<ref>{{cite web|url =http://iitg.vlab.co.in/?sub=61&brch=168&sim=916&cnt=1712|title =Blocked rotor test|publisher =Sakshat virtual labs}}</ref><ref>{{cite journal|last=de Swardt|first=Henk|url=http://www.mandc.co.za/pdfs/Locked_rotor_test_explained.pdf|title=The Locked rotor test explained|publisher=Marthinusen & Coutts (Pty.) Ltd|journal=|access-date=2012-06-27|archive-url=https://web.archive.org/web/20110516004026/http://www.mandc.co.za/pdfs/Locked_rotor_test_explained.pdf|archive-date=2011-05-16|dead-url=yes}}</ref> The test is conducted at low voltage because if the applied voltage was normal voltage then the current through the stator windings would be high enough to overheat the windings and damage them.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|deadurl =yes|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31|df =}}</ref> The ''blocked rotor torque test'' is not performed on wound-rotor motors because the starting torque can be varied as desired. However, a ''blocked rotor current test'' is conducted on squirrel cage rotor motors.<ref>{{cite book|url =https://books.google.com/books?id=V1pepm-1m-cC&pg=PA263&dq=Locked+rotor+test&hl=en&sa=X&ei=_vDqT7-NMoizrAfE1uTVBQ&ved=0CFwQuwUwBw#v=onepage&q=Locked%20rotor%20test&f=false|title =Industrial Power Engineering and Applications Handbook|publisher =Newnes}}</ref>
+A '''blocked rotor test''' is conducted on an [[induction motor]]. It is also known as [[short circuit test]], locked rotor test or stalled torque test.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|url-status =dead|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31}}</ref> From this test, [[short circuit current]] at [[Voltage|normal voltage]], [[power factor]] on short circuit, total [[Electrical reactance|leakage reactance]], and [[Torque|starting torque]] of the motor can be found.<ref>{{cite web|url =http://iitg.vlab.co.in/?sub=61&brch=168&sim=916&cnt=1712|title =Blocked rotor test|publisher =Sakshat virtual labs}}</ref><ref>{{cite journal|last=de Swardt|first=Henk|url=http://www.mandc.co.za/pdfs/Locked_rotor_test_explained.pdf|title=The Locked rotor test explained|publisher=Marthinusen & Coutts (Pty.) Ltd|access-date=2012-06-27|archive-url=https://web.archive.org/web/20110516004026/http://www.mandc.co.za/pdfs/Locked_rotor_test_explained.pdf|archive-date=2011-05-16|url-status=dead}}</ref> The test is conducted at low voltage because if the applied voltage was normal voltage then the current through the stator windings would be high enough to overheat the windings and damage them.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|url-status =dead|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31}}</ref> The ''blocked rotor torque test'' is not performed on wound-rotor motors because the starting torque can be varied as desired. However, a ''blocked rotor current test'' is conducted on squirrel cage rotor motors.<ref>{{cite book|url =https://books.google.com/books?id=V1pepm-1m-cC&pg=PA263&dq=Locked+rotor+test&hl=en&sa=X&ei=_vDqT7-NMoizrAfE1uTVBQ&ved=0CFwQuwUwBw#v=onepage&q=Locked%20rotor%20test&f=false|title =Industrial Power Engineering and Applications Handbook|publisher =Newnes}}</ref>
 ==Method==
-In the blocked rotor test, the [[Rotor (electric)|rotor]] is locked.<ref>{{cite web|url =http://iitg.vlab.co.in/?sub=61&brch=168&sim=916&cnt=1712|title =Blocked rotor test|publisher =Sakshat virtual labs}}</ref> A low voltage is applied on the stator terminals so that there is [[full load current]] in the stator winding, and the current, voltage and power input are measured at that point. When the rotor is stationary, the [[slip (motors)|slip]], <math> s = 1 </math>.<ref>{{cite book|last =B.L. Theraja|first=A.K. Theraja| title = Electrical Technology volume 2|publisher= S. Chand|edition=Twenty third revised multicolour|year=2010|page=1317|isbn=81-219-2437-5}}</ref> The test is conducted at <math> 1/4 </math> the rated frequency as recommended by IEEE, because the rotor's effective resistance at low frequency may differ at high frequency.<ref>{{cite web|last =Knight|first =Dr Andy|url =http://www.ece.ualberta.ca/~knight/electrical_machines/induction/parameters/params.html|title =Electrical Machines|publisher =Department of Electrical and Computer engineering, University of Alberta|deadurl =yes|archiveurl =https://archive.is/20121129213048/http://www.ece.ualberta.ca/~knight/electrical_machines/induction/parameters/params.html|archivedate =2012-11-29|df =}}</ref><ref>{{cite journal|last=Pitis|first=CD |url=https://docs.google.com/viewer?a=v&q=cache:dqMYx9A7SR8J:www.eepublishers.co.za/images/upload/femco%2520squirrel.doc+&hl=en&gl=in&pid=bl&srcid=ADGEESg5Rz7fWQUOsorcMSEdx-w1qmBvd52ATrYU2Txc0O4MlIJOxcGYmiX1l6o_Yrwg3LwlChi83gSKgv8iEgHIr7f5mN5cxiXDvpJWo3HJx_ksx1uwqnECdBs_Dib77K8JPqhUu4T2&sig=AHIEtbQMHjRqDCfrS9x7QA8klVs3r2mHEA|title =femco squirrel.doc|publisher =Femco mining motors}}</ref> The test can be repeated for different values of voltage to ensure the values obtained are consistent. As the current through the stator may exceed the rated current, the test should be conducted quickly.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|deadurl =yes|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31|df =}}</ref> By using the parameters found by this test, the motor circle diagram can be constructed.<ref>{{cite book|last =Deshpande|first =M.V.|url =https://books.google.com/books?id=7rwh4cw4C5gC&pg=PA254&dq=Locked+rotor+test&hl=en&sa=X&ei=_vDqT7-NMoizrAfE1uTVBQ&ved=0CEAQuwUwAg#v=onepage&q=Locked%20rotor%20test&f=false|title =Electrical Machines|publisher =PHI Learning Pvt. Ltd}}</ref>
+In the blocked rotor test, the [[Rotor (electric)|rotor]] is locked.<ref>{{cite web|url =http://iitg.vlab.co.in/?sub=61&brch=168&sim=916&cnt=1712|title =Blocked rotor test|publisher =Sakshat virtual labs}}</ref> A low voltage is applied on the stator terminals so that there is [[full load current]] in the stator winding, and the current, voltage and power input are measured at that point. When the rotor is stationary, the [[slip (motors)|slip]], <math> s = 1 </math>.<ref>{{cite book|last =B.L. Theraja|first=A.K. Theraja| title = Electrical Technology volume 2|publisher= S. Chand|edition=Twenty third revised multicolour|year=2010|page=1317|isbn=81-219-2437-5}}</ref> The test is conducted at <math> 1/4 </math> the rated frequency as recommended by IEEE, because the rotor's effective resistance at low frequency may differ at high frequency.<ref>{{cite web|last =Knight|first =Dr Andy|url =http://www.ece.ualberta.ca/~knight/electrical_machines/induction/parameters/params.html|title =Electrical Machines|publisher =Department of Electrical and Computer engineering, University of Alberta|url-status =dead|archiveurl =https://archive.is/20121129213048/http://www.ece.ualberta.ca/~knight/electrical_machines/induction/parameters/params.html|archivedate =2012-11-29}}</ref><ref>{{cite journal|last=Pitis|first=CD |url=https://docs.google.com/viewer?a=v&q=cache:dqMYx9A7SR8J:www.eepublishers.co.za/images/upload/femco%2520squirrel.doc+&hl=en&gl=in&pid=bl&srcid=ADGEESg5Rz7fWQUOsorcMSEdx-w1qmBvd52ATrYU2Txc0O4MlIJOxcGYmiX1l6o_Yrwg3LwlChi83gSKgv8iEgHIr7f5mN5cxiXDvpJWo3HJx_ksx1uwqnECdBs_Dib77K8JPqhUu4T2&sig=AHIEtbQMHjRqDCfrS9x7QA8klVs3r2mHEA|title =femco squirrel.doc|publisher =Femco mining motors}}</ref> The test can be repeated for different values of voltage to ensure the values obtained are consistent. As the current through the stator may exceed the rated current, the test should be conducted quickly.<ref>{{cite web|url =http://www.eswtesters.com/motor_testing_methods.php|title =Motor testing methods|publisher =Electronic Systems of Wisconsin, Inc.|url-status =dead|archiveurl =https://web.archive.org/web/20121231225205/http://www.eswtesters.com/motor_testing_methods.php|archivedate =2012-12-31}}</ref> By using the parameters found by this test, the motor circle diagram can be constructed.<ref>{{cite book|last =Deshpande|first =M.V.|url =https://books.google.com/books?id=7rwh4cw4C5gC&pg=PA254&dq=Locked+rotor+test&hl=en&sa=X&ei=_vDqT7-NMoizrAfE1uTVBQ&ved=0CEAQuwUwAg#v=onepage&q=Locked%20rotor%20test&f=false|title =Electrical Machines|publisher =PHI Learning Pvt. Ltd}}</ref>
 ==Calculations involved==