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3 phase Induction Motor frequency of induced emf current and power factor - problems

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Three Phase Induction Motors Contents : Frequency of Rotor Rotor EMF Rotor Current and Power Factor Related Problems Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Frequency of Rotor • Assume rotor is stationary – Relative speed between the rotor winding and rotating magnetic field is Ns • When the rotor speeds up – Relative speed is (Ns – N) • Rotor Frequency Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Rotor EMF • Under Standstill condition slip s=1 – Relative speed is maximum and maximum emf induced in the rotor – E2 = rotor induced emf under standstill condition • When the motor speed increases (running condition) – Relative speed increases, then induced emf in the rotor decreases – E2r = rotor induced emf under running condition Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Rotor Current and Power Factor • R2 = Rotor resistance per ph under standstill condition • X2 = Rotor reactance per ph under standstill condition In running condition Rotor impedance per phase Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 1 • A 3-phase induction motor is suppied at 50Hz and is wound for 4 poles. Calculate (i) Synchronous speed, (ii). Apeed when slip is 3%, (iii). Frequency of the rotor emf when it runs at 1200 rpm • Key: • Answer: Ns=1500rpm; N=1455rpm; fr=10Hz Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 2 • The frequency of emf in the stator of a 4-pole, 3- phase induction motor is 50Hz and that in the rotor is 1.5Hz. Determine: i). The Slip, ii). Speed of the motor. • Key: • Answer: (i). Ns=1500rpm & s=0.03, (ii). N=1455rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 3 • For a 4pole, 3phase, 50Hz induction motor ratio of stator to rotor turns is 3. On a certain load, its speed is observed to be 1450rpm, when connected to 415V supply. Calculate: – i). Frequency of rotor emf in running condition, (fr) – ii). Magnitude of induced emf in the rotor at standstill, (E2ph) – iii) Magnitude of induced emf in the rotor under running condition.(E2r) Assume star connected stator. • Key: • Answer: Fr=1.66Hz; E2ph=79.78V; E2r=2.63V • Given: P=4, f=50Hz, EIL=415V=stator side line voltage ; K=rotor turns / stator turns = 1/3 = 0.333; N=1450 rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 4 • A 4-pole three phase, 50Hz, induction motor has a star connected rotor. The rotor has a resistance of 0.1 ohm per phase and standstill reactance of 2ohm per phase. The induced emf between the slip rings is 100V. If full load speed is 1460rpm, find i) Slip, ii). Rotor frequency, iii). Rotor current, iv). Power factor on full load condition. Assume slip rings are shorted. • Key: • Answer: S=2.66%; fr=1.33Hz; I2r=13.15A; PF=0.887lagging • Given: P=4, f=50Hz, R2=0.1ohm; X2=2ohm; E2=100V, N=1460rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 5 • A 8-pole, 3-phase induction motor is supplied from 50Hz AC supply. On full load, the frequency of induced emf in rotor is 2Hz. Find the full load slip and corresponding speed(N). • Key: • Answer: S=0.04; Ns=750rpm; N=720rpm; • Given: P=8, f=50Hz, fr=2Hz Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 6 • A 3ph, 6pole, 50Hz induction motor has a slip of 1% at no load and 3% at full load. Find (1) Synchronous speed(Ns). (2). No load speed(Nnl). (3). Full load Speed(Nfl). (4). Frequency of rotor current at standstill(frs). (5) Frequency of rotor current at full load(frfl). • Key: • Answer: Ns=1000rpm; Nnl=990rpm; Nfl=970rpm; frs=50Hz; frfl=1.5Hz • Given: P=6, f=50Hz, slip at no load snl=1% or 0.01; slip at full load sfl=3% or0.03; at standstill slip s=1; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 7 • If the emf in the stator winding of a 6 pole induction motor has a frequency of 50c/s and emf in the rotor has a frequency of 2c/s, find the speed at which the motor is runing(N) and percentage slip(s). • Key: • Answer: S=4%; Ns=1000rpm; N=960rpm; • Given: P=6, supply frequency f=50 c/s, rotor frequency fr = 2c/s Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 8 • A 3-phase induction motor is wound for 4poles and is supplied from a 50Hz supply. Calculate the synchronous speed(Ns), the speed of the motor(N) when the slip is 3% and the rotor frequency(fr). • Key: • Answer: Ns=1500rpm; N=1455rpm; fr=1.5Hz; • Given: P=4, supply frequency f=50Hz, Slip=3% or 0.03 Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 9 • The induced emf between the slip ring terminals of a three phase induction motor when the rotor is standstill is 100V. The rotor winding is star connected and has resistance and standstill reactance of 0.05ohms and 0.1 ohms per phase respectively. Calculate the voltage and rotor current at (1) 4% slip and (2) 100% slip(Standstill Condition). • Key: • Answer: (1). For s=0.04, E2r=2.308V, Z2r=0.05ohm; (2). E2=57.7V; Z2=0.111ohms; I2=519.8A ; • Given: R2=0.05ohms; X2=0.1ohms; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 10 • A 3-ph, 50Hz, induction motor runs almost at 960rpm on full load, when supplied with three-phase supply. Calculate the following, (i).Number of poles(P), (ii). Full load slip(s), (iii). Frequency of rotor emf(fr), (iv). Speed of the motor at 8 percent slip(N). • Key: • Answer: (i).P=6; (ii). S=0.04; (iii).fr=2Hz; (iv).N=920rpm; • Given: Supply frequency f=50Hz; Speed N =960rpm; therefore Ns=1000rpm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 11 A 1100V, 50Hz delta connected induction motor has a star connected slip ring rotor with a phase transformation ratio of 3.8. The rotor resistance and stand still leakage reactance are 0.012ohm and 0.25ohms per phase respectively. Neglecting stator impedance and magnetising current, determine: (i). Rotor current at start with slip ring shorted. (ii). The rotor PF at start with slip ring shorted. (iii). The rotor current at 4% slip with slip ring shorted. (iv). The rotor power factor at 4% slip with slip ring shorted. (v). The external rotor resistance per phase required to obtain a starting current of 100A in the stator supply lines. • Key: • Answer: (i).I2=1157.2A; (ii). PF=0.048(lagging); (Starting) (iii).I2r=742A; (iv).PF =0.77(lagging); (running s=4%) (v). Ext Resistance r=0.707ohms • Given: Supply voltage V =E1ph(due to delta connection in stator)= 1100V; f=50Hz; Phase transformation ratio K = 1/3.8=0.263; R2=0.012ohms, X2=0.25ohms; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 12 • A 3-phase, 4-pole induction motor operates from a supply whose frequency is 50Hz. Calculate the frequncy of rotor current at standstill and the speed at which the magnetic field of the stator is rotating(Ns). • Key: • Answer: Fr=50Hz; Ns=1500rpm; • Given: P=4; f=50Hz; at standstill condition s=1; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 13 • A 4pole three phase squirrel cage induction motor operates at supply frequency of 50Hz at a speed at 1440rpm at full load. Find the frequency of the EMF induced in the rotor(fr). • Key: • Answer: Ns=1500rpm; s=0.04; Fr=2Hz; • Given: P=4; f=50Hz; N=1440rpm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
Problem - 14 • A3phase 50Hz, 4pole induction motor has a slip of 4%. Calculate (i) Speed of the motor(N) (ii). Frequency of rotor emf(fr). If the motor has a resistance of 1ohm and standstill reactance of 4ohm, calculate(iii) power factor at (a) standstill and (b) a speed of 1400rpm. • Key: • Answer: (i).N=1440rpm; (ii).Fr=2Hz; (iii). (a).PF=0.242 (lagging); (b).s=0.066; & PF=0.966(lagging) • Given: P=4; f=50Hz; s=4% or 0.04; R2=1ohm; X2=4ohm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
S.No Book s / Web Sources 1 A.E. Fitzgerald, Charles Kingsley, Stephen. D. Umans, ‘Electric Machinery’, Tata Mc Graw Hill publishing Company Ltd, 2003. 2 D.P. Kothari and I.J. Nagrath, ‘Electric Machines’, Tata McGraw Hill Publishing Company Ltd, 2002. 3 P.S. Bhimbhra, ‘Electrical Machinery’, Khanna Publishers, 2003. 4 M.N.Bandyopadhyay, Electrical Machines Theory and Practice, PHI Learning PVT LTD., New Delhi, 2009. 5 K. Murugesh Kumar, ‘Electric Machines’, Vikas Publishing House Pvt. Ltd, 2002. 6 Syed A. Nasar, Electric Machines and Power Systems: Volume I, Mcgraw -Hill College; International ed Edition, January 1995. 7 J. Ganavadivel, ‘Electrical Machines II’, Anuradha publications, Fourth edition, 2015. 8 U.A.Bakshi &M.V.Bakshi, ”Electrical Machines II,” Technical Publications, Second revised edition, 2016. 9 Google and Wikipedia REFERENCES Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems

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3 phase Induction Motor frequency of induced emf current and power factor - problems

  • 1. Three Phase Induction Motors Contents : Frequency of Rotor Rotor EMF Rotor Current and Power Factor Related Problems Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 2. Frequency of Rotor • Assume rotor is stationary – Relative speed between the rotor winding and rotating magnetic field is Ns • When the rotor speeds up – Relative speed is (Ns – N) • Rotor Frequency Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 3. Rotor EMF • Under Standstill condition slip s=1 – Relative speed is maximum and maximum emf induced in the rotor – E2 = rotor induced emf under standstill condition • When the motor speed increases (running condition) – Relative speed increases, then induced emf in the rotor decreases – E2r = rotor induced emf under running condition Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 4. Rotor Current and Power Factor • R2 = Rotor resistance per ph under standstill condition • X2 = Rotor reactance per ph under standstill condition In running condition Rotor impedance per phase Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 5. Problem - 1 • A 3-phase induction motor is suppied at 50Hz and is wound for 4 poles. Calculate (i) Synchronous speed, (ii). Apeed when slip is 3%, (iii). Frequency of the rotor emf when it runs at 1200 rpm • Key: • Answer: Ns=1500rpm; N=1455rpm; fr=10Hz Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 6. Problem - 2 • The frequency of emf in the stator of a 4-pole, 3- phase induction motor is 50Hz and that in the rotor is 1.5Hz. Determine: i). The Slip, ii). Speed of the motor. • Key: • Answer: (i). Ns=1500rpm & s=0.03, (ii). N=1455rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 7. Problem - 3 • For a 4pole, 3phase, 50Hz induction motor ratio of stator to rotor turns is 3. On a certain load, its speed is observed to be 1450rpm, when connected to 415V supply. Calculate: – i). Frequency of rotor emf in running condition, (fr) – ii). Magnitude of induced emf in the rotor at standstill, (E2ph) – iii) Magnitude of induced emf in the rotor under running condition.(E2r) Assume star connected stator. • Key: • Answer: Fr=1.66Hz; E2ph=79.78V; E2r=2.63V • Given: P=4, f=50Hz, EIL=415V=stator side line voltage ; K=rotor turns / stator turns = 1/3 = 0.333; N=1450 rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 8. Problem - 4 • A 4-pole three phase, 50Hz, induction motor has a star connected rotor. The rotor has a resistance of 0.1 ohm per phase and standstill reactance of 2ohm per phase. The induced emf between the slip rings is 100V. If full load speed is 1460rpm, find i) Slip, ii). Rotor frequency, iii). Rotor current, iv). Power factor on full load condition. Assume slip rings are shorted. • Key: • Answer: S=2.66%; fr=1.33Hz; I2r=13.15A; PF=0.887lagging • Given: P=4, f=50Hz, R2=0.1ohm; X2=2ohm; E2=100V, N=1460rpm Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 9. Problem - 5 • A 8-pole, 3-phase induction motor is supplied from 50Hz AC supply. On full load, the frequency of induced emf in rotor is 2Hz. Find the full load slip and corresponding speed(N). • Key: • Answer: S=0.04; Ns=750rpm; N=720rpm; • Given: P=8, f=50Hz, fr=2Hz Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 10. Problem - 6 • A 3ph, 6pole, 50Hz induction motor has a slip of 1% at no load and 3% at full load. Find (1) Synchronous speed(Ns). (2). No load speed(Nnl). (3). Full load Speed(Nfl). (4). Frequency of rotor current at standstill(frs). (5) Frequency of rotor current at full load(frfl). • Key: • Answer: Ns=1000rpm; Nnl=990rpm; Nfl=970rpm; frs=50Hz; frfl=1.5Hz • Given: P=6, f=50Hz, slip at no load snl=1% or 0.01; slip at full load sfl=3% or0.03; at standstill slip s=1; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 11. Problem - 7 • If the emf in the stator winding of a 6 pole induction motor has a frequency of 50c/s and emf in the rotor has a frequency of 2c/s, find the speed at which the motor is runing(N) and percentage slip(s). • Key: • Answer: S=4%; Ns=1000rpm; N=960rpm; • Given: P=6, supply frequency f=50 c/s, rotor frequency fr = 2c/s Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 12. Problem - 8 • A 3-phase induction motor is wound for 4poles and is supplied from a 50Hz supply. Calculate the synchronous speed(Ns), the speed of the motor(N) when the slip is 3% and the rotor frequency(fr). • Key: • Answer: Ns=1500rpm; N=1455rpm; fr=1.5Hz; • Given: P=4, supply frequency f=50Hz, Slip=3% or 0.03 Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 13. Problem - 9 • The induced emf between the slip ring terminals of a three phase induction motor when the rotor is standstill is 100V. The rotor winding is star connected and has resistance and standstill reactance of 0.05ohms and 0.1 ohms per phase respectively. Calculate the voltage and rotor current at (1) 4% slip and (2) 100% slip(Standstill Condition). • Key: • Answer: (1). For s=0.04, E2r=2.308V, Z2r=0.05ohm; (2). E2=57.7V; Z2=0.111ohms; I2=519.8A ; • Given: R2=0.05ohms; X2=0.1ohms; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 14. Problem - 10 • A 3-ph, 50Hz, induction motor runs almost at 960rpm on full load, when supplied with three-phase supply. Calculate the following, (i).Number of poles(P), (ii). Full load slip(s), (iii). Frequency of rotor emf(fr), (iv). Speed of the motor at 8 percent slip(N). • Key: • Answer: (i).P=6; (ii). S=0.04; (iii).fr=2Hz; (iv).N=920rpm; • Given: Supply frequency f=50Hz; Speed N =960rpm; therefore Ns=1000rpm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 15. Problem - 11 A 1100V, 50Hz delta connected induction motor has a star connected slip ring rotor with a phase transformation ratio of 3.8. The rotor resistance and stand still leakage reactance are 0.012ohm and 0.25ohms per phase respectively. Neglecting stator impedance and magnetising current, determine: (i). Rotor current at start with slip ring shorted. (ii). The rotor PF at start with slip ring shorted. (iii). The rotor current at 4% slip with slip ring shorted. (iv). The rotor power factor at 4% slip with slip ring shorted. (v). The external rotor resistance per phase required to obtain a starting current of 100A in the stator supply lines. • Key: • Answer: (i).I2=1157.2A; (ii). PF=0.048(lagging); (Starting) (iii).I2r=742A; (iv).PF =0.77(lagging); (running s=4%) (v). Ext Resistance r=0.707ohms • Given: Supply voltage V =E1ph(due to delta connection in stator)= 1100V; f=50Hz; Phase transformation ratio K = 1/3.8=0.263; R2=0.012ohms, X2=0.25ohms; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 16. Problem - 12 • A 3-phase, 4-pole induction motor operates from a supply whose frequency is 50Hz. Calculate the frequncy of rotor current at standstill and the speed at which the magnetic field of the stator is rotating(Ns). • Key: • Answer: Fr=50Hz; Ns=1500rpm; • Given: P=4; f=50Hz; at standstill condition s=1; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 17. Problem - 13 • A 4pole three phase squirrel cage induction motor operates at supply frequency of 50Hz at a speed at 1440rpm at full load. Find the frequency of the EMF induced in the rotor(fr). • Key: • Answer: Ns=1500rpm; s=0.04; Fr=2Hz; • Given: P=4; f=50Hz; N=1440rpm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 18. Problem - 14 • A3phase 50Hz, 4pole induction motor has a slip of 4%. Calculate (i) Speed of the motor(N) (ii). Frequency of rotor emf(fr). If the motor has a resistance of 1ohm and standstill reactance of 4ohm, calculate(iii) power factor at (a) standstill and (b) a speed of 1400rpm. • Key: • Answer: (i).N=1440rpm; (ii).Fr=2Hz; (iii). (a).PF=0.242 (lagging); (b).s=0.066; & PF=0.966(lagging) • Given: P=4; f=50Hz; s=4% or 0.04; R2=1ohm; X2=4ohm; Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems
  • 19. S.No Book s / Web Sources 1 A.E. Fitzgerald, Charles Kingsley, Stephen. D. Umans, ‘Electric Machinery’, Tata Mc Graw Hill publishing Company Ltd, 2003. 2 D.P. Kothari and I.J. Nagrath, ‘Electric Machines’, Tata McGraw Hill Publishing Company Ltd, 2002. 3 P.S. Bhimbhra, ‘Electrical Machinery’, Khanna Publishers, 2003. 4 M.N.Bandyopadhyay, Electrical Machines Theory and Practice, PHI Learning PVT LTD., New Delhi, 2009. 5 K. Murugesh Kumar, ‘Electric Machines’, Vikas Publishing House Pvt. Ltd, 2002. 6 Syed A. Nasar, Electric Machines and Power Systems: Volume I, Mcgraw -Hill College; International ed Edition, January 1995. 7 J. Ganavadivel, ‘Electrical Machines II’, Anuradha publications, Fourth edition, 2015. 8 U.A.Bakshi &M.V.Bakshi, ”Electrical Machines II,” Technical Publications, Second revised edition, 2016. 9 Google and Wikipedia REFERENCES Kongunadu college of Engineering & Technology Three phase Induction – Frequency, Rotor EMF, Current and Power factor related Problems