Research - Dept. of Electrical Engg.

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Browsing Research - Dept. of Electrical Engg. by Author "Hule, Shraddha"

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    Design of electrical SCADA system for 11KV substation
    (IOSR Journal of Engineering, 2019) Mulla, Rumana (16DEE65); Naikwadi, Nasrin (16DEE66); Pawar, Pranavi (16DEE68); Shaikh, Maseera (16DEE78); Khan, Yakub; Hule, Shraddha
    In Substation it is difficult to monitor and control the different parameters such as voltage, current, power factor etc. which affect the reliability of the power. As the demand for reliable electric power is become important therefore the technology "Supervisory Control and Data Acquisition system "or SCADA is developed. SCADA system provide better monitoring, control and maintain the reliability of power, it can also extend the life of substations and related equipment by providing current data for troubleshooting small problems before they escalate. This paper evaluates the SCADA system has also provide the difference between the "Numerical Relay" and "Electromechanical Relay"
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    Powerformer- A Discontinuous Innovation
    (International Research Journal of Engineering and Technology (IRJET, 2016-11) Amin, Shraddha; Hule, Shraddha
    This paper provides an overview of a technology that offers a direct connection to the power network without a step up transformer. Implementation of powerformer will bring a change in the present scenario of generation. It is also shown that powerformer can act as differential protection scheme for high voltage cable wound generator. Many other applications like stability control, controlling high voltage bus, are mentioned.
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    Study of speed control of ACIM using indirect field oriented control
    (Engineering Research Publication, 2019-03) Siddiqui, Shabbir Ahmed (16DEE84); Mahfuz, Alam (16DEE62); Khan, Hussain I. Pathan (16DEE67); Shaikh, Mohammed Tahir (14EE40); Hule, Shraddha
    This study has been undertaken to investigate the speed control ACIM using field oriented control. The principle of vector control of electric drives is based on the control of both the magnitude and the phase of each phase current and voltage. for thispurpose, the study of available conventional and non-conventional approaches has been presented. This paper also presents a clear study which illustrates introduction of efficient vector control of ACIM.