Large adjustable speed and soft-started drives with long cable lengths

The popularity of large Voltage Source Inverters (VSIs) has increased for a wide range of applications. An overview is given on how cable length challenges associated with VSIs can be overcome. Load Commutated Inverters (LCIs) are however in many cases still more suitable for pure soft-start applications and for very large drives. Very limited literature does however exist describing how to overcome long cable-length problems in LCI applications. The associated overvoltage phenomenon due to resonance and voltage distortion is explained. Case studies and simulation results are presented based on actual configurations in large petrochemical plants with motor ratings ranging from 17 MW to 55 MW with cable distances up to 3 km. An evaluation is performed to determine when additional electrical filter and rotor position detection equipment are required. It is shown that with correctly designed systems the applicable motors can be started without the presence of unacceptable overvoltages, pulsating air-gap torques or shaft resonances. A general design approach is described to determine the requirements for VSIs and LCIs. Ultimately it is shown that effective, safe, reliable and low cost solutions exist to extend the capabilities and application of VSI and LCI systems.

[1]  M.K.W. Stranges,et al.  Progress on IEC 60034-18-42 for Qualification of Stator Insulation for Medium-Voltage Inverter Duty Applications , 2007, 2007 IEEE Petroleum and Chemical Industry Technical Conference.

[2]  Richard H. Osman,et al.  Analysis Guide For Variable Frequency Drive Operated Centrifugal Pumps , 2008 .

[3]  P. Pillay,et al.  Resonance Overvoltages in Medium Voltage Multilevel Drive System , 2007, 2007 IEEE International Electric Machines & Drives Conference.

[4]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[5]  A. Sapin,et al.  12-pulse LCI synchronous drive for a 20 MW compressor modeling, simulation and measurements , 2005, Fourtieth IAS Annual Meeting. Conference Record of the 2005 Industry Applications Conference, 2005..

[6]  J. C. Rama,et al.  High-speed electric drives: technology and opportunity , 1997 .

[7]  F. Endrejat,et al.  Experience with new large adjustable speed drive technology for multiple synchronous motors , 2008, 2008 5th Petroleum and Chemical Industry Conference Europe - Electrical and Instrumentation Applications.

[8]  P. Pillay,et al.  Soft Start/Adjustable Speed Systems for Multiple MW Rated Motors , 2006, 2006 Record of Conference Papers - IEEE Industry Applications Society 53rd Annual Petroleum and Chemical Industry Conference.

[9]  L. Terens,et al.  Reliability, availability and maintainability (RAM) of high power variable speed drive systems (VSDS) , 1998, Record of Conference Papers. IEEE Industry Applications Society 45th Annual Petroleum and Chemical Industry Conference (Cat. No.98CH36234).

[10]  Robert Perret,et al.  Operation of a Self-Controlled Synchronous Motor Without a Shaft Position Sensor , 1983, IEEE Transactions on Industry Applications.

[11]  David E. Rice A detailed analysis of six-pulse converter harmonic currents , 1992, [1992] Record of Conference Papers Industry Applications Society 39th Annual Petroleum and Chemical Industry Conference.

[12]  Bin Wu,et al.  High-Power Converters and AC Drives , 2006 .

[13]  P. Pillay,et al.  Multilevel selective harmonic elimination PWM technique in series-connected voltage inverters , 1998, Conference Record of 1998 IEEE Industry Applications Conference. Thirty-Third IAS Annual Meeting (Cat. No.98CH36242).

[14]  J. Pontt,et al.  Resonances and overvoltages in a medium voltage fan motor drive with long cables in an underground mine , 2004, Conference Record of the 2004 IEEE Industry Applications Conference, 2004. 39th IAS Annual Meeting..

[15]  T. Henriksen,et al.  Converter-fed subsea motor drives , 1996 .