http://technology.eurekajournals.com/index.php/IJRAIEEE/issue/feed International Journal on Recent Advances in Industrial Electronics & Electrical Engineering [ISSN: 2581-4060 (online)] 2020-11-20T13:33:11+00:00 Eureka Journals admin@eurekajournals.com Open Journal Systems <p style="text-align: justify;">International Journal on Recent Advances in Industrial Electronics &amp; Electrical Engineering (IJRAIEEE)&nbsp;is an attempt of Eureka Group of Journals to bridge the gap between "Campuses and Corporate" by including both academic research activities as well as the innovation done on industries and corporate professionals. Now a days, it is seen that the operations of today’s world have become knowledge intensive and reliability of system has become the top criterion for selection of a particular system, therefore there is an increase in demand for high quality novel research. Also, from industrial point of view, continuity of Industrial&nbsp;Electronics &amp; Electrical Engineering is a&nbsp;major factor for increasing industrial production of finished goods. Therefore, the objective is to spread research work to mitigate problems of Industrial Electronics &amp; Electrical Engineering arising during day to day operations around the world. The journal focusses on a fast peer review process of submitted paper to ensure accuracy, relevance of article and originality of paper.</p> http://technology.eurekajournals.com/index.php/IJRAIEEE/article/view/574 Performance Analysis of Self-Excited Induction Generator Driven by Wind Turbine 2020-11-20T13:33:11+00:00 Prajjwal Srivastava editor@eurekajournals.com Mohammad Kashif editor@eurekajournals.com Lokesh Varshney editor@eurekajournals.com <p>This thesis presents a details of the output research in accordance with the various forms of wind turbine systems in 3-phase self-exciting induction generator (SEIG). Different considerations are taken into consideration during the study, like performance, reliability and efficiency. In stand-alone mode, a 3-phase connection to resistive load is used to determine the performance and reliability of the SEIG. For evaluation of p.u, simplistic polynomial resolution frequency was considered using steady state equivalent circuit. The resulting excitation capacitance factor is given both at all actual polynomial origins without load and with load. In this article, the overall performance of SEIG induction generator was also mentioned. It analyzes the impact of rpm, magnetized reactive power, reference voltage and apparent power on the values of the frequency per unit, the necessary excitement potential and its inter-dependency between them.</p> http://technology.eurekajournals.com/index.php/IJRAIEEE/article/view/575 Understanding Energy Management Using Fuzzy Logic Controller for PV Module 2020-11-20T13:33:11+00:00 Pawan Yadav editor@eurekajournals.com Harsh Vardhan editor@eurekajournals.com <p>All the conventional source of energy like coal and petroleum products are facing a very heavy pressure to cater the needs of human society. The researchers from the world are therefore working extensively to find a suitable alternatives. The present paper is an attempt to study the researches that are going in this field and to be specific to find out the ways of managing energy that too by using the MPPT using fuzzy logic controller for PV module.</p>