M. Anusha scite author profile

M. Anusha

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Fabrication and Investigation on Basalt Fiber and Jute Fiber Reinforced Hybrid Composites

Sivaprasad¹,

Anusha²,

Reddy³

et al. 2022

IJIRCST

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Composite materials are created by carefully combining two or more components to get a beneficial result. a system of materials made up of two or more physically distinct phases that, when combined, create aggregate properties that are distinct from those of their individual components. The fibre’s function is to give the product strength, bind the filaments together into a matrix, and shield the fibres from the elements. On a weight-to-weight ratio, composites are a class of materials that are stronger and more rigid than any other traditional engineering material. We employ in daily life. Other extremely intriguing options for further weight reduction include altering the volume proportion of fibre and resin in the component and aligning the orientation of the fibre along the direction of load. To create the hybrid natural fibre composites, the current experimental investigation intends to. Samples of a variety of jute, basalt, and polyester hybrid natural fibres will be created utilising the hand layup process, where the weight fraction of the fibre matrix is at various percentages and the stacking of the plies is alternated. Composites' void content rises as both the fibre loading and the fibre length increase. Composites with a 25wt% fibre loading demonstrate a better hardness value as far as the influence of fibre loading is concerned. Tensile strength diminishes after 25%, hence tensile modulus is appropriate for average weight percentage of fibre loading, or 25wt%.

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Fault-Tolerant Back-to-Back Converter for Direct-Drive Permanent Magnet Synchronous Generators Wind Turbines Using Direct Torque and Power Control Techniques

Anusha¹

2022

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Fault-tolerance is considered critical in wind turbines to improve their dependability and availability. This the document has a fault-tolerant permanent magnet with direct drive new direct control synchronous generator PMSM methods capable of handling high-power semiconductors OPEN-CIRCUIT failure in back-to-back transmissions. The faults-tolerance scheme is made up of 5 legs. A converter through an interlinked leg linked to an alternator phase and a converter with a shared leg connected with an alternator phase, a converter through a Triode for Alternating Current to its appropriate grid phase. The creation of DTC and DPC techniques for MSC and GSC is the major contribution of this work. A dependable failure diagnostics algorithm is also implemented, which provides the information needed to instantly activate fault-tolerant remedial techniques without the use of extra sensors. To validate the efficacy of the proposed fault-tolerant PERMANENT MAGNET SYNCHRONOUS GENERATORS drive, simulation and experimental data are provided.

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Control Strategy for 5∅ Dual-Stator Winding Induction Starter/Generator Scheme

Anusha¹

2022

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Thisstudypresentsasystematicregulationapproachforastarter/generator(S/G)technologydependingupon a (FPDWIM). The FPDWIM features two sets of stator windings and a cage-type rotor. The first was a 5∅ control winding (CW), while second is a 5∅ power winding (PW). The FPDWIM acts as a motor when it is turned on. The CONTROL WINDING drives the engine by providing both active and reactive power. The CONTROL WINDING handles reactive power in the producing phase, whereas the POWER WINDING delivers active power. To complete the combination of the beginning and producing control, ICWFOC is designed to perform in both starting and generating modes. The CONTROL WINDING current and flux are controlled in beginning mode to produce a consistent starting torque, while the CONTROL WINDING and POWER WINDING Direct Current bus voltages were controlled for producing mode. As a result, these methods' operational concepts and topologies remain equivalent, making implementation and performance easier. Using the suggested control method, this network may complete the starting-generating process having more better transitioning operation.

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M. Anusha

Fabrication and Investigation on Basalt Fiber and Jute Fiber Reinforced Hybrid Composites

Fault-Tolerant Back-to-Back Converter for Direct-Drive Permanent Magnet Synchronous Generators Wind Turbines Using Direct Torque and Power Control Techniques

Control Strategy for 5∅ Dual-Stator Winding Induction Starter/Generator Scheme

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