Monday, June 3, 2019
Energy Efficient Operation of Three Phase Induction Motor
sinew Efficient Operation of Three Phase Induction Motor might Efficient Operation of Three Phase Induction Motor Using DEL magician Converter for Machine ToolsAbstractDEL mastermind convertor is an electronic system to be interfaced with the torpedosisting STAR DELTA newbie for instrument tools. Induction motor consumes more billet while it is operated at DELTA mode for a long time to a lower place no laden condition. The proposed system gives the solution for the above stated problem. When the committal on the motor is less than 40% of sufficient clog, it switches the motor to operate in STAR mode to save energy. When the lading increases beyond 40%, it automatically switches the motor to operate in DELTA mode. The whizzting regimen is not disturbed. The proposed converter is recommended for applications where load changes are not too fast (not more than 120 times/hour). This can be used with any capacity motor by choosing appropriate underway transformers (C.Ts) a nd setting the watercourse level using the potentiometer built in.Keywords DELSTAR converter, machine tools, energy saving, current transformersIntroductionLathes will perform as many another(prenominal) operations like face, turn, neck, taper, drill, bore, spin, file, polish, hone, buff, knurl, cut internal and external threads and cut off work. Relatively hard materials are handled by a metal lathe. For repetitive sidetrack signal of parts, turret lathes and capstan lathes are used. Induction motor of several HP is coupled with turret lathe and CNC machines too.Induction motors draw higher currents during their leadting operations than is the case under full load running conditions. In the early days Direct-on-Line have been used. The short duration inrush currents, greatly exceeds the Starting currents. Complex starting methods to pore Starting currents is compromised by other inrush currents 1, 4.Induction motors are started normally with direct on line, but when strikin g motors are started with D.O.L. starter, due to starting plenty current, the supply line voltage is disturbed. To limit the starting surge current, reduce voltage is give to summoning motors at start and then have full supply voltage when they run up to near rated speed. Comparison between the different starting methods of consequence motor in terms of power look is to figure out the reliable starting method which has the less power quality problems 5. Efficient torque/current characteristics are provided by STAR-DELTA, industries prefer STAR-DELTA starters for their application. The large amounts of losses which occur at low speeds determine the users given by the wound rotor only for starting. The losses specific to the additional rotor immunity are quite important 3 while analyzing the performance of the induction motor.Industries will operate three phase induction motors at delta connection mode since machine runs very efficiently when the machine under in full loaded c ondition. When the motor is loaded less than 40% of the full load, it runs under inefficient energy zone. So, the induction motor will consume more power from the supply side during partially loaded condition. In order to compensate the power consumption, the motor load is virtually added by connecting stator wander from delta mode to star mode. If the load on the motor is increased above 40% of full load current, winding connection automatically changes from star to delta for efficient operation.Figure 1 Block draw of proposed systemSystem AnalysisExisting SystemMotor draws more current than the full load at the time of starting, resulting in burnout of motor winding and / or starter. When DOL starter is used, because of high starting current, there is a big voltage dip in the electrical installation and therefore DOL starter is not suitable for higher rating squirrel cage induction motors. Significant energy wastage results reduced motor life. The system which exists is starting current reduction and the starters at the time of start of motor is star-delta starter. The STAR-DELTA starter is used at the time of starting only, not under running condition. The starter may be operated semi-automatically or fully-automatically. The semi-automatic operation is done by the push button switch. Fully-automatic starter is built with the timer which is used to change the STAR to DELTA connection after some predefined time. The both types of STAR-DELTA starter changes the winding connection from STAR to DELTA, and it is not thinkable to change the winding connection from the DELTA to STAR during running of induction motor. This problem is overcome by employing proposed starter with induction motor which changes the winding connection during both starting and running condition. 2.2 Explored TechnologyThe proposed converter (refer figure 1) is to change the winding connection from STAR to DELTA and vice versa at the running condition of the induction motor. The faulti ng process is done according to the load variation of the motor at particular instant. The construction of the converter is also similar to the starter with the small qualifying in the circuit. It is an automatic converter and the automatic process is made by the microcontroller. In the ancient system, there is no microcontroller available. Any one of the phase is taken for the current sensing using current sensor. The sensor circuit continuously senses the load variation in the motor and the output is produced according to the variation of load. When the load on the motor is less than 40% of the full load rated current, the controller activates the STAR connected contactors, so that the motor can run at STAR connection. When the load on the motor is above 40% of full load rated current, the controller activates the DELTA connected contactors, so that the motor can run at DELTA connection. The converter accurately operates for the pre-setting value of the current sensor. If the mo tor load current reaches to 41% of the full load rated current the converter switches the motor from STAR to DELTA. And, if the motor load current comes 39% of the full load current, the converter switches the motor from DELTA to STAR. The converter can sense the current continuously so that the losses are reduced by maximum amount. Moreover, the converter can also be used as the starter.System SpecificationHardware units are split into many sub units and each unit requires power supply to energize the circuit.Figure 2 queen supply circuit for relay races and microcontroller+12V SPDT relay and +5V SPDT relay were used here. So that relay requires +12V supply and +5V also for microcontroller unit. The LM7812 and LM7805 are the voltage regulators which is used to regulate the output voltage of the bridge rectifier in Figure 2. Then the output is again filtered with the capacitor. +24V power supply is used to energize the sensor unit. The current is sensed with the dish out current transformer with buffer unit to adjust the current setting. This circuit is intentional with the help of LM317k voltage regulator in figure 3.Figure 3 circumference diagram for sensor unit motorAbove the preset value, the transistor operates and relay gets energized so that microcontroller switches the operation into DELTA mode. Microcontroller switches the operation into DELTA mode. The conversion process takes minimal time in milli seconds and give accurate change over from STAR to DELTA and vice versa.ULN2003 is a driver which drive the signal input from current sensor to the microcontroller and also the STAR and DELTA contactor. The analog output from the microcontroller is not suitable to operate the +12V relay. So the analog output of the microcontroller is changed from the +5V to +12V with the help of driver unit (refer Figure 4).The microcontroller is to control the switching of STAR or DELTA relay while the motor is under the running condition. When the load is current is below the predefined value, the controller will energize the STAR contactor and if the controller input is high, it will activate the DELTA contactor. The input and output are enabled in the resembling port of the microcontroller. The pin 2 is enabled for STAR and the pin 3 is enabled for DELTA. The mode of operation is ostentationed in the Liquid Crystal Display. XTAL1 and XTAL2 are the input and output severally of an inverting amplifier which is used as a crystal oscillator in the frequency range of 1.2 MHz to 12 MHz. The RESET circuit is connected with the microcontroller in pin 9 (refer Figure 5).Figure 4 ULN2003 driver circuitFigure 5 Circuit diagram of controller unitThe output of the relay driver is given to the relay coil for energizing. The output of the relay driver unit is either 0V or 5V. The relay is connected in 15th pin of the driver IC. So, whenever the output of the relay is +5V then the star contactors will be activated. The delta unit is also used to connec t the motor with the converter part.Figure 6 Circuit diagram of star contactorThe output of the delta relay driver unit is either 0V or 5V. So, whenever the output of the relay is +5V then the delta contactor will be activated.Figure 7 Circuit diagram of delta contactorWith the help of the above arrangements, the contactors change the winding connection from STAR to DELTA and DELTA to STAR simultaneously while the motor is under running condition. The LCD display unit will display the motor running condition and also the load current. LEDs are used to indicate the status of the relays.Experimental ResultsThe converter is tried and true with 5HP squirrel cage induction motor by conducting simple brake test in laboratory. The power factor is fairly good in delta mode equation to the star for the same current values of the motor. The performance of the induction motor is good in delta connection but only when the motor is under fully loaded condition. Under no load or partially loade d condition, the motor operated in inefficient zone since machine consumes more energy than star mode.The table given below proves that the converter can improve the efficiency of the motor at the same time it can reduce the energy consumed by the motor significantly.TABLE IEnergy Saving Data For A 5 HP MotorLoad Current in Amps.Power divisorOutput Power in WattsVolt AmpsDeltaStarDeltaStarDeltaStarDeltaStar18.104.22.168.2336712821405324.40.950.150.2447616530256414.710.150.3454523331776722.214.171.1240.65866606296188752.10.430.8012409862922123126.96.36.1990.8517411493329817356.350.710.862691255936612918The tests conducted on a 5 HP motor with a full load current of 7.9 amps, the energy savings on no load is 65.3%, reduction in operating current is upto 79.4%, reduction in demand 78.8% and improvement in power factor 60%.Figure 8 Characteristics of Motor (Star Delta)Discussions And Future DevelopmentsThis work concluded that the star delta converter is very useful for all the kind of three phase induction motors from smaller rating to the larger rating, the converter can be designed accordingly. In the present days, the starters only used and it has low sensitivity. If the automatic star delta star converter is replaces the starter, the performance and life time of the motors will be increased. Since the converter can be operatable at the running time of the motor it reduces the losses in switching and during operation. The converter is designed with the small hardware units and it is very at large(p) to install with the motors. Cost wise also the converters is very economical. This converter will reach the market with cheaper cost soon and reduces the energy consumption.ReferencesP. C. Krause, O. Wasynczuk, and S. D. Sudhoff, Analysis of Electric Machinery and impel Systems, 2nd ed. Piscataway, NJ IEEE Press, 2002.D. Gritter, D. Wang, and T. G. Habetler, Soft starter inside delta motor modeling and its control, in Proc. IEEE-IAS Annu.Meeting, Oct. 8-12, 2000, vol. 2, pp. 1137-1141.Williams, A. Jack., Griffith, M. Shan, Evaluating the Effects of Motor Starting on industrial and Commercial Power Systems, IEEE Transactions on Industry Applications, 1978, Vol. IA-14, No. 4, pp. 292-305.Larabee, J., Pellegrino, B., Flick, B. Induction motor starting methods and issues, Industry Applications Society 52nd Annual Petroleum and Chemical Industry Conference, 2005, pp.217-222.Phillip W. Rowland, Low concern Motor Control with Star-Delta Starting, IEEE Annual Textile, Fiber and Film Industry Technical Conference, 1998, pp. 10/1 10/9.Austin H. Bonnett, The Benefits of Allowing for Increased Starting Current in AC Squirrel Cage Induction Motors, IEEE Transactions on Industrial Applications, 1991, Vol. 27, No.6, pp. 1169-1174.Chapman S.J., Electric Machinery Fundamentals, 4th ed., Australia Mc Graw-Hill, 2005, pp. 380-472.AUTHORS BIOGRAPHYPREMKUMAR Mcompleted his Bachelor of Engineering in Electrical electronic Engineering in Sri Ramakrishna Institute o f Technology, (SRIT), Coimbatore -641010, India. He also completed his Master degree in Applied Electronics in Anna University of Technology, Coimbatore, India. Currently, pursuing his Ph.D. in Anna University, Chennai. The author has presented many Technical Papers in various National International Conferences. Currently, he is working as an Assistant Professor in Electrical Electronics Engineering. His field of busy is Electrical machines, embedded systems, renewable energy resources, Robotics, Electrical drives Control and Power electronics.SOWMYA R received her B.E. in Electrical and Electronics Engineering from Saranathan College of Engineering, Tiruchirappalli, India in 2013 and M.Tech. in Energy Engineering from National Institute of Technology, Tiruchirappalli , India, in 2015. She worked as an Assistant Professor/ Dept. of Electrical and Electronics Engineering in KPR Institute of Engineering and Technology, Coimbatore, India for the academic year 2015-2016. She is soo n working as an Assistant Professor/Dept. of Power Engineering in GMR Institute of Engineering and Technology, Rajam, India. Her research interest includes control systems, Electric vehicle and Renewable Energy.