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A Comparative Experimental Investigation Between the Mineral Oil and Vegetable Oil-Based Mono Nanofluids for Transformer Application

Throughout the process of transmitting the electrical energy, losses continuously tend to occur in the transformer in the form of heat. Therefore, insulating and cooling oil is required to increase to maintain the temperature of power transformers. Coolants are introduced into the transformer to car...

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Bibliographic Details
Main Authors: Syarafi Shuhaimi M., Vicki Wanatasanappan V.
Other Authors: 58549236800
Format: Conference Paper
Published: Springer Science and Business Media Deutschland GmbH 2024
Subjects:
Mineral oil
Mono nanofluid
Transformer cooling
Vegetable oil
Biodegradability
Coolants
Cooling
Insulating oil
Mineral oils
Minerals
Nanofluidics
Oil filled transformers
Oil shale
Palm oil
Power transformers
Viscosity
ZnO nanoparticles
Cooling oil
Cooling process
Electrical energy
Experimental investigations
Nanofluids
Oil based
Transformer applications
ZnO nanofluids
II-VI semiconductors
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Summary:Throughout the process of transmitting the electrical energy, losses continuously tend to occur in the transformer in the form of heat. Therefore, insulating and cooling oil is required to increase to maintain the temperature of power transformers. Coolants are introduced into the transformer to carry out the cooling process. Usually, conventional mineral oil is commonly applied as a cooling liquid for the transformer. However, it is believed that traditional mineral oil is a highly flammable liquid and lacks biodegradability. Thus, palm oil and palm oil/ZnO nanofluid are introduced to overcome the limitations of conventional mineral oil. This research aims to evaluate the effect of nanoparticle volume concentration on the thermal conductivity, dynamic viscosity and dielectric strength of palm oil/ZnO-based nanofluid by an experimental comparison with mineral oil at different temperatures. The samples prepared are conventional mineral oil, pure palm oil and palm oil nanofluid with ZnO at concentrations of 0.05, 0.15 and 0.25%. The breakdown voltage and thermal conductivity results show that pure palm oil and palm oil/ZnO nanofluid give enhanced results compared to conventional mineral oil. However, the viscosity properties, which represent the resistance for the coolant to circulate around the transformer, prove that conventional mineral oil has the lowest viscosity of other samples. Palm oil suspended with ZnO nanoparticles has good potential to be used as insulating oil in transformers. � 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.

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