Vusumuzi Dlamini scite author profile

Vusumuzi Dlamini

5Publications

23Citation Statements Received

62Citation Statements Given

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Affiliations

University of Pretoria

Publications

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A non-intrusive method for estimating motor efficiency using vibration signature analysis

Dlamini¹,

Naidoo²,

Manyage³

2013

International Journal of Electrical Power & Energy Systems

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An accurate method of estimating the efficiency of in-service motors is needed in order to determine the performance of installed motors without disrupting the motor driven process.. In this paper, the motor efficiency is estimated using a non-intrusive implementation of the compensated slip method. The motor speed is accurately estimated using motor vibration signature analysis. A few other efficiency estimation techniques are implemented and their performance is compared to the proposed method. It was found that the non-intrusive compensated slip method produced relatively accurate results without having an adverse impact on the availability of the motor under test. This method provides an attractive alternative to highly intrusive techniques that offer similar accuracy.

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A non-intrusive compensated slip method for motor efficiency estimation using vibration signature analysis

Dlamini

Naidoo

Manyage³

2011

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An accurate method of estimating the efficiency of in-service motors is needed in order to determine the performance of installed motors without disrupting the motor driven process. In this paper, the motor efficiency is estimated using a non-intrusive implementation of the compensated slip method. The motor speed is accurately estimated using motor vibration signature analysis. A few other efficiency estimation techniques are implemented and their performance is compared to the proposed method. It was found that the non-intrusive compensated slip method produced relatively accurate results without having an adverse impact on the availability of the motor under test. This method provides an attractive alternative to highly intrusive techniques that offer similar accuracy.Index Terms-motor efficiency, speed estimation, online estimation, vibration signature analysis, energy efficiency.

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A Motor Management Strategy for Optimising Energy Use and Reducing Life Cycle Costs

Dlamini¹,

Bansal²,

Naidoo³

2014

JPEE

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With increasing energy costs and renewed focus on using energy in ways that support the environment, a structured approach is required to ensure that energy is used efficiently. A comprehensive motor management strategy to reduce motor life cycle costs while increasing reliability is presented. The application of energy management principles is combined with benefits that can be obtained from using energy-efficiency motors. An economic model for determining the optimal time a motor should be replaced with a higher efficiency motor is proposed. The strategy presented incorporates benefits that can be obtained from using in-situ motor efficiency estimation and condition monitoring techniques as part of a motor management system.

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An improved motor replacement strategy using non-intrusive motor efficiency estimation

Dlamini

Bansal

Naidoo

2014

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With increasing energy costs and a renewed focus on using energy in ways that support the environment, a structured approach is required to ensure that energy is used efficiently. Knowing the efficiency of installed motors is essential for effective motor energy management. The efficiency data can be used in the identification of opportunities for improving energy efficiency by replacing inefficient motors with highefficiency motors and improving the motor-driven processes. In this paper, a non-invasive technique for estimating the efficiency of in-service induction motors without process interruption is presented. The motor efficiency is estimated using the non-intrusive compensated slip method. The accuracy of this technique is verified through experimental data. A comprehensive motor replacement strategy to reduce motor life cycle costs while increasing reliability is proposed. The application of energy management principles is combined with benefits that can be obtained from using energy-efficient motors. Tools for the economic analysis of the potential financial benefits of replacing motors with energy efficient motors are developed. The strategy presented incorporates benefits that can be obtained from using in-situ motor efficiency estimation. The replacement motor can be compared to the installed motor using the actual efficiency across the load profile for the application for which the motor is used. A case study of the application of the strategy is presented.

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An Improved Non-Intrusive Induction Motor Efficiency Estimation Technique for Non-Ideal Supply Voltage Conditions

Dlamini

Bansal

Naidoo

2018

Electric Power Components and Systems

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