14




           Variable Speed Electrical Drivers









           14.1 INTRODUCTION
           Due to an increasing concern about conserving energy there has become a requirement for variable
           speed drivers in the oil industry. The most common requirement is for compressors where the gas
           composition may not be well known or it may vary in composition and desire throughout, which is
           often the case in the production industry. Occasionally, benefits may be obtained by driving pumps
           with variable speed motors, especially large oil loading and pipeline pumps.
                 An important area where variable speed is used is in the drilling of wells where accurate control
           of speed and torque is essential. In recent years some attention has been focused on the application
           of variable speed motors in the down-hole pumping of oil, as discussed in sub-section 14.4.2.
                 Speed variation can be obtained by using two alternative types of electric motors.
           • AC motors
           • DC motors

                 AC methods include standard squirrel-cage induction motors, wound rotor induction motors,
           synchronous motors and commutator motors. Speed variation is obtained by the control of applied
           voltage to the stator or the control of current and voltage in the rotor by external circuit connections.
                 Before thyristors and power transistors were introduced for AC to DC and AC to DC to AC
           converter systems, there were a number of special designs of AC motors that gave better performance
           than standard squirrel-cage motors. These motors required connections to the rotor windings. They
           had better speed control, superior torque versus speed characteristics and some methods were energy
           efficient. However, they were more complicated and hence more expensive.
                 Much depends upon the performance required, e.g. accuracy, energy efficiency, standstill and
           low speed torque control. External equipment such as extra switchgear, controllers, instrumentation
           and protection is required and this increases the overall cost of the system. Also required will be
           extra maintenance and stocking of spare parts.
                 DC methods mostly use shunt or compound wound motors. Occasionally series wound motors
           are used when high torque at low speeds is required. These machines are fed with DC voltage derived
           from a three-phase AC source using a thyristor converter. The thyristor converter rectifies the AC
           into DC but with control over the magnitude of the average DC voltage. Thyristors are also called
           ‘silicon controlled rectifiers’.

           Handbook of Electrical Engineering: For Practitioners in the Oil, Gas and Petrochemical Industry.  Alan L. Sheldrake
            2003 John Wiley & Sons, Ltd ISBN: 0-471-49631-6