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Experimental Analysis of Thermal Withstanding Capacity and Efficiency of Single Phase Induction Motor Coated with SiO2 Nano Filler Mixed Enamel

S. Balamurugan1, A. Mariya Anthoni Pravin1, S. Krishna kumar1, S. Ahamed NishaKhan1, D.Edison Selvaraj2, S.Geethadevi3 and Lieutenant.J.Ganesan4
  1. B.E- IV Year EEE, Sree Sowdambika College of Engineering, Aruppukottai, Tamilnadu, India
  2. Assistant Professor (Part time Faculty), Department of EEE, Guindy, Anna University, Chennai, Tamilnadu, India
  3. Senior Assistant Professor, Department of EEE, Aurora Scientific and Technological Institute, Uppal, Hyderabad, India
  4. Assistant Professor, Department of EEE, Sree Sowdambika College of Engineering, Aruppukottai, Tamilnadu, India
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Abstract

It has been observed addition of nano fillers to the enamel can greatly improve the thermal, mechanical and electrical properties of enamel. In this research work SiO2 has been used as nano filler. The micro particles of SiO2 were converted into nano particles with the help of ball mill. Scanning electron microscope (SEM) has been used to augment the particle size of the nano powder. The nano filler was mixed with enamel by using ultrasonic vibrator. The enamel filled with nano filler was coated on the windings of the single phase induction motor. The performance analysis of the single phase induction motor was carried out by no load test, blocked rotor test and load test. Based on the calculations and result obtained by the above tests, the efficiency of the induction motor coated with enamel filled with nano filler of SiO2 was increased by 5% when compared to that of induction motor coated with pure enamel.

Keywords

Single Phase Induction motor, Enamel, Coating, Nano Filler, Load Test, SiO2.

INTRODUCTION

In recent days, a great deal of attention has been given to the applications of nano fillers in the field of electrical insulating materials. It has been noted that the use of nano fillers to the enamel can greatly improve the thermal, mechanical and electrical properties of it [1-3]. Single phase Induction motors are widely used in fans, centrifugal pumps, blowers, lifts, washing machines, hair driers, toys and so on. The efficiency of the induction motor depends upon the enamel used [4-5]. For motors, the enamel was used for three purposes: impregnation, coating and adhesion. The efficiency of the induction motor could be increased by adding the nano fillers with the enamel which was used as coating for the windings of the motor [2-6]. In this paper, the efficiency of the normal single phase induction motor and SiO2 nano filler added enamel coated with the single phase induction motor was analysed and the results were compared with each other [7]. Heat run tests were performed on electric machines to determine the total loss of energy dissipated as heat. It was a well-known fact that the operating temperature of an electric machine has a very strong relationship with the life duration of the insulation [14-15]. The enamel used for coating the machine windings were organic in nature and were adversely affected by thermal decomposition.

COATING OF THE NANO FILLER ADDED ENAMEL TO THE WINDINGS OF THE MOTOR

Five percentage of nano powder of SiO2 was taken and it was mixed with the enamel by using ultrasonic vibrator. Then this enamel was coated on the windings of the single phase induction motor [12]. The specifications of the single phase induction motor were shown below in the Table 1.
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A. SEM ANALYSIS BEFORE SYNTHESISATION
The particle size of SiO2 before ball mill method was shown in Figure 1.
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B. SEM ANALYSIS AFTER SYNTHESISATION
From the analyzed SEM image the particles were in the form of nano metric range varies for one area to other [13]. The sizes of the particles as shown in Figure 2 were in the range from 10 to 100 nm size.
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EXPERIMENTAL ANALYSIS

A. DIRECT LOADING METHOD
The load test was conducted as per the circuit diagram shown in the Figure 3 and the output power ,current, efficiency, powerfactor and speed of the induction induction was measured [8-9]. The maximum efficiency obtained from an ordinary induction motor was 69%. The maximum efficiency obtained from nano coated induction motor was 75%. Figure shows the 4 circuit arrangement for load test on single phase induction motor.
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The following Table 2 shows the efficiency compariosn of normal as well as nano coated induction motor. The efficiency of the induction motor was increased by 5 % by adding nano filler of SiO2 to the enamel used as the coating for the windings of the single phase induction motor. Figure 5 shows the efficiency comparison of various single phase induction motor.
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B. TEMPERATURE TEST
Heat run test was performed on electric machines to determine the total loss of energy dissipated as heat. It was a well-known fact that the operating temperature of an electric machine has a very strong relationship with the life duration of the insulation [10-11]. Heat run tests were conducted on this motor as per IEC 60851. The temperature of the motor was measured under different conditions and the readings were shown in the table 3. Figure 6 shows the Temperature Comparison of the various Single Phase Induction motor.
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CONCLUSIONS

The following observations were clear as per this study:
1. The efficiency of the induction motor was increased by 5 % by adding nano filler of SiO2 to the enamel used as the coating for the windings of the single phase induction motor.
2. The addition of nano fillers to the enamel has increased the temperature withstanding capacity of the induction motor. Hence the life time of the motor will be increased.

ACKNOWLEDGEMENT

Thank God and His almighty power to finish His research work by using me, my project guide and my students for His ultimate work.

References

  1. Selvaraj, D. Edison, et al. "Analysis of Efficiency, Thermal Withstanding Capacity and Electromagnetic Interference of Three Phase Squirrel Cage Induction Motor Coated with SiO2 & TiO2 nano composite Filled Enamel." International Journal of Science and Engineering Applications 1.1 (2012): 17- 21.
  2. Edison Selvaraj, D., C. Pugazhendhi Sugumaran, and A. Sivaprakash."Characterization of Electrical and Thermal Properties of Enamel Filled with Carbon Nanotubes." Proceedings of the Third International Conference on Trends in Information, Telecommunication and Computing. Springer New York, 2013.
  3. Selvaraj, D. Edison. "Partial discharge characteristics of enamel filled with micro and nano composite of SiO2 and TiO2." International Journal of Science and Engineering Applications 1.2 (2012): 95-101.
  4. Selvaraj, D. Edison. "Characterization of dielectric properties of the enamel filled with carbon nano tubes for the frequency range of 50 Hz-5 MHz" International Journal of Science and Engineering Applications 1.2 (2012): 102- 106.
  5. Selvaraj, D. Edison, and C. Pugazhendhi Sugumaran. "Comparative Analysis of Dielectric Properties of Enamel Filled with Various Nanofillers such as ZrO2, Al2O3, CNT and ZnO." International Journal of Science and Engineering Applications 1.1 (2012): 51-55.
  6. Babu, B. Gurukarthik, D. Edison Selvaraj, R. Srinivas, B. Guru Prakash, and R. Vishnu. "Analysis of Relative Permittivity and Tan Delta Characteristics of Silicone Rubber Based Nano-composites." International Journal of Scientific Engineering and Technology , pp.2201-206, 2012.
  7. D. Edison Selvaraj, J. Ganesan. "Experimental Analysis of Efficiency and Thermal Withstanding Capacity of Three Phase Squirrel Cage Induction Motor Coated with SiO2 & TiO2 Nano Composite Filled Enamel", International Journal of Engineering Sciences, Vol (2), No (4), 2013. pp. 115-118.
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  9. Edison Selvaraj. D, Pugazhendhi Sugumaran. C, Lieutenant Ganesan. J, Ramathilagam. J, “Analysis of Dielectric and Thermal Properties of Polyamide Enamel Filled with Carbon Nano tubes” International Journal of Nano science,Vol.12, Issue 3, June 2013.
  10. Lieutenant Ganesan. J, Edison Selvaraj. D, and Ramathilagam. J,“Experimental analysis of Thermal conductivity of enamel filled with micro and nano composite of SiO2 and TiO2” International journal of Advanced Research in Electrical,Electronics and Instrumentation Engineering, Vol.2, Issue 7,pp. 2907-2912 , 2013.
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