Energy efficient induction motor
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Oct 29, 2019
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About This Presentation
Energy efficient motors use less electricity, run cooler, and often last longer than NEMA (National Electrical Manufacturers Association) B motors of the same size.This presentation is on ' ENERGY EFFICIENT INDUCTION MOTOR ' which is mostly use in industries.
Slide Content
ENERGY EFFICIENT INDUCTION MOTORS Presented By : Kevin Patel 17BEE060 Electrical-2017 Batch Divison-2
contents Introduction Energy efficient motor Specification of EEM (energy efficient motor) Motor losses & reduction method Benefits of implementing EEM Experimental setup Operating & performance characteristic EEM in Indian scenario Advantages Application Conclusion References
Introduction A large fraction of electrical energy consumed in many facilities is used to run electric motors. Nationally, motor driven systems account for about 57% of all electrical energy use. The electric motor manufacturers are seeking methods for improving the motor efficiencies, which resulted in a new generation of electric motors that are known as energy efficient motors. This paper deals with energy conservation by installing energy efficient motor (EEM) instead of standard efficiency motor.
Energy efficient motors It produces same shaft output power but uses less electrical input power than a standard efficiency motor . Standard motor generally competes on price, not efficiency, but EEM competes on efficiency, not price. In Energy efficient motors Both single phase and three-phase motors are easily available . EEM are higher quality motors with longer warranty and life span (about 20 years)
www.technologyfuturae.com EEM specifications to make it much easier for purchasers to identify energy efficient motors on the market. motor efficiency classification labels – Eff1, Eff2 & Eff3 ..
Motor losses & reduction Techniques
Core loss represents energy required to magnetize the core material (hysteresis) and includes losses due to creation of eddy currents that flow in the core. Windage and friction losses occur due to bearing friction and air resistance . Stator losses appear as heating due to current flow (I) through the resistance (R) of the stator winding. This is commonly referred to as an I2R loss. Rotor losses appear as I2R heating in the rotor winding. Stray load losses are the result of leakage fluxes induced by load currents. Motor losses
High efficiency motor design Improved steel: Thinner laminations: Increasing conductor's volume: Modified slot design: Narrowing air gap : Improved rotor insulation : More efficient fan design :
Benefits of implementing eem systems Electricity savings potential Environmental benefits Micro economical benefits Macro economical benefits
Different tests for analysing the performance a) Temperature test: The motor is loaded and allowed to run until its temperature stabilizes. The temperature and winding resistances are recorded. b) Load test: The motor is loaded at six different loading points ranging from 25%-150% of rated load. The stator and rotor copper losses are calculated from this .
www.technologyfuturae.com c) No-load test: The motor is run at no-load with a varying supply. The friction & windage and core losses are calculated voltage between 125% to 20% of rated voltage from this. Different tests for analysing the performance
Operating and performance characteristics of sm& eem
Operating and performance characteristics of sm& eem
www.technologyfuturae.com Constructional features of eeM rotor design - One major consideration in the design of high efficiency induction motors is to reduce rotor resistance. -efficiency can be achieved by substituting Aluminum with copper.
Energy Efficient Machine Design by Proper Selection of Core Material core loss in a machine is around 30~ 50% of the total losses. reduction of core material thickness and stress relief annealing of the core improved machine efficiency .
Efficiency Improvement by Inserting of Superconducting Materials High temperature superconductors (HTS), which offered the advantage of cooling via liquid nitrogen instead of liquid helium. complete elimination of refrigerator power consumption would only show an improvement in machine efficiency of ~0.02% for a 300 MVA rating. Of more importance than the efficiency improvement is that use of a liquid nitrogen ambient would lead to reduced capital costs for the refrigeration plant and reduce the complexity of the cryogenic design.
Rotor with two end rings
Power factor improvement in I M Installing external capacitor Avoid operation of equipment above its rated speed Replacement of SM with EEM.
How energy efficient motor differ from standard motor ???... Higher quality and thinner steel laminations in the stator More copper in the windings Smaller air gap between the rotor and stator Reduced fan losses Closer machining tolerances Generally, they cost 15 to 30 percent more than standard motors, depending on the specific motor, manufacturer, and market competition
Eem recognition in Indian scenario Siemens India awarded prestigious “BEE Star” rating for their energy-efficient motors Siemens motors help customers minimize their energy consumption in production, thus significantly reducing their operating costs and the cost of ownership and bringing about a significant boost to productivity .
Advantages: The EEM has a greater efficiency than a standard motors; therefore they have less operating costs. EEM has a lower slip so they have a higher speed than standard motors. EEM can reduce maintenance costs and improve operations in industry due to robustness and reliability. Increasing the productivity . Disadvantages : 1) Speed Control 2) Portability 3) Initial cost is more . It is about 15% to 30 % more than the normal motors.
Applications Motors are suitable for wide industrial applications like paper, cement, textiles, cranes, material handling, machine tools and blowers etc. Conclusion most of the industrial loads having motors are consuming 70% of the total electricity.so it is better to replace standard motors with energy efficient motors where ever economical. so that we can Save energy. Save money. Save atmosphere from pollution.
References [1] “Understanding Energy Efficiency Motors”, Electrical Apparatus Service Association (EASA), pp. 12-14. [2] D.G. Walters, I.J. Williams, D.C. Jackson, B. Hansen “The case for a new generation of high efficiency motors – Some problems and solutions”, Electrical Machines and Drives,11-13 Sept. 1995, Conference Publication No. 412, IEE 1995. [3] " Understanding high efficiency motors," Published by copper development centre, 2001 [4] J. Andreas, Energy Efficient Electric Motors: Selection and Application, Marcel Deker, 1992.
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