T. K. Sindhu scite author profile

A wire explosion process (WEP) has been used to produce nano aluminium powder in nitrogen, argon and helium atmospheres. The impact of energy deposited into the exploding conductor on the size and shape of the particles was analysed using TEM analysis, which forms the first part of the study. It is observed that the higher the energy deposited, the smaller the particles formed. In the second part, modelling studies were carried out by solving the general dynamic equation through the nodal approach, and the particle size distributions were predicted. It is realized that, at the point of high saturation ratio and nucleation rate, the size of the critical nucleus formed is low. The particle size distribution predicted by the model correlates well with the experimental results. Time-series analysis of particle formation indicates that particles of lower dimensions form and, in the process of coagulation, larger particles are formed. It is realized that the plasma formed during the explosion plays a major role in the particle formation, and the modelling studies confirm that particle formation is not an instantaneous process but requires a certain time period to form stable sizes and shapes.

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Optimal fractional order PID controller for automatic generation control of two-area power systems

Chathoth

Kumar

Sindhu

2014

Int. Trans. Electr. Energ. Syst.

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Summary This paper proposes a fractional order PID (FOPID) controller for the supplementary automatic generation control (AGC) of two area thermal power systems. To establish the effectiveness of the proposed controller, its dynamic performance is compared with integral/PI controllers. The parameters of the PI controllers are determined using genetic algorithm (GA) and fuzzy logic‐based approaches. These comparisons are performed in terms of two time domain performance indices viz., settling time and maximum overshoot/undershoot of the dynamic response and three error indices, viz., Integral of Time multiplied Absolute Error (ITAE), Integral of the Absolute Error (IAE) and Integral of the square error (ISE). Copyright © 2014 John Wiley & Sons, Ltd.

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Review on natural ester and nanofluids as an environmental friendly alternative to transformer mineral oil

Jacob

Preetha

Sindhu

2020

IET Nanodielectrics

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The development of reliable, environmentally safe and economic insulating oil for the transformer is an endless effort of the electrical industry. Recent research is based on natural ester fluid, the green insulating oil which exhibits excellent dielectric performance and environment friendly characteristics. Nanofluids are also emerging as potential replacement for the conventional mineral oil used in transformers. Characterisation of nanoparticle filled mineral oil and natural esters have validated their improved dielectric behaviour in comparison to the unfilled oil. Although the applications are wide, the state of the art technology requires a deeper understanding of the underlying phenomenon. Much work is expected to be done in the application of nanofluids prepared with mineral oil and natural ester, particularly its effect on the cellulose insulation. The study provides an overview of the different materials that have been used as alternatives to the conventional transformer mineral oil, with special emphasis on natural esters and natural ester nanofluids, their advantages and challenges.

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Impact of permittivity and concentration of filler nanoparticles on dielectricpropertiesof polymer nanocomposites

Kavitha

Sindhu

Nambiar

2017

IET Science, Measurement & Technology

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T. K. Sindhu

Generation of nano aluminium powder through wire explosion process and its characterization

Understanding nanoparticle formation by a wire explosion process through experimental and modelling studies

Optimal fractional order PID controller for automatic generation control of two-area power systems

Review on natural ester and nanofluids as an environmental friendly alternative to transformer mineral oil

Impact of permittivity and concentration of filler nanoparticles on dielectricpropertiesof polymer nanocomposites

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