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Power Project

Location:
Jammu, Jammu and Kashmir, India
Salary:
40k-50k per month
Posted:
January 02, 2020

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Resume:

NAME RUSHIL SAGOTRA

Personal Data

Specialization :

M.E(POWER SYSTEM) Gender

: FEMALE

Email ID :

ada626@r.postjobfree.com Skype ID

: ada626@r.postjobfree.com

Mobile No.

:

946-***-****

Date of

Birth : 14-02-1994

Father/Guardian

Name

:

SHAM LAL

Occupation

: LECTURER

Mother’s Name : SUMAN RANI

Occupation : SECTION OFFICER

Address Correspondence Permanent

House Number,

Street:

H NO 41 LANE NO 2 ARJUN VIHAR

KUNJWANI JAMMU

LOWER NARYANA KHARA KHOUR

TEHSIL AKHNOOR

City, PIN: JAMMU, 180010 JAMMU, 181203

State, Country: J&K, INDIA J&K, INDIA

Languages known English Hindi

Academic Record:

Examination

Board/

University

Name of School / College Year

Marks/CGPA

Obtained

CGPA/%age Division

Class X

JKBOSE

ST. PAULS CONVENT HIGH

SCHOOL,GANGYAL,JAMMU

2009 454/500 90.8 1ST

Class XII

JKBOSE

SHIKSHA NIKETAN SENIOR

SEC.SCHOOL,JEEVAN

NAGAR, JAMMU

2011 587/750 78.27 1ST

Degree

HPTU,

HAMIRPUR

VCOE, TEHSIL NURPUR,

DISTT. KANGRA. H.P

2015 7918/10400 76.13 1ST

Masters: M.Tech

Semester Year GPA Obtained CGPA Obtained Division

1

st

2016 8.02 8.02 1ST

2

nd

2017 7.92 7.97 1ST

3

rd

2018 9.00 8.20 1ST

CURRICULUM VITAE

4

th

Latest CGPA till last result declared 8.20

Academic Achievements: Position holder in HPTU HAMIRPUR.

Distinction holder in JKBOSE.

Certifications: IICPE, TIET, Patiala

NSIC certificate

Internship (during Graduation):

Company: JK TRANSFORMERS AND

SWITCHGEARS, JAMMU

Duration(From-To): 1ST JULY 2014 TO 15TH

AUGUST 2014

Project Title: MANUFACTURING AND REPAIRING OF CORE AND SHELL TYPE TRANSFORMERS Company:

GLADNI GRID STATION, JAMMU

Duration (From-

To): 1ST JULY TO 30 JULY 2013

Project Title: To get knowledge about equipments installed at grid station as well as their maintenance and repairing of equipments.

1. Project Title: ANALYSIS OF SINGLE PHASE SPWM INVERTER Platform used: MATLAB/SIMULINK

Description: The basic theory of a sinusoidal pulse width modulated (SPWM) INVERTER, its simulink model, estimating various design parameters and various instabilities. The Sinusoidal Pulse Width Modulation (SPWM) technique has been used for inverter because it can be directly controlled the inverter output voltage and output frequency according to the sine functions and this technique is adopted because voltage pulses can be easily generated by the on and off of the power switches. SPWM finds wide applications in power electronics field. The carrier triangular wave of high frequency (in several KHz). The switching signal is generated by comparing the sinusoidal waves with the triangular wave. The comparator gives out a pulse when sine voltage is greater than the triangular voltage. The comparator gives out a pulse when sine voltage is greater than the triangular voltage. The ratio of carrier and reference gives modulation index (MI) which is used to control harmonics in the output voltage of the system. For MI<1 large harmonics in output voltage are associated with harmonics of order 2N 1 where N is the number of pulses per half cycle. So by increasing the number of pulses per half cycle, the order of dominant harmonic frequency can be raised, which can be filtered out easily. No. of pulse position is so selected to reduce harmonics from output voltage waveform. This technique is used to find out harmonic content which needs to filter. Projects (during Post Graduation):

1. Project Title: FAULT ANALYSIS OVER TRANSMISSION LINES Platform used: MATLAB/SIMULINK

Description: To see effects of different types of faults that take place over transmission lines with the resulting change in voltage and current. There are 2 types of fault in power system that is symmetrical fault and unsymmetrical fault. Both of these faults are studied through simulation. The symmetrical fault includes LLL fault and LLLG fault. But this fault rarely occurs in transmission lines. Next is unsymmetrical fault includes LLG fault, LL fault and LG fault. They affect balanced state of network and also called unbalanced faults. The simulink model is developed and these faults have been created in transmission lines and see results with variations in voltage and current waveform in all adopted cases.

2. Project Title: REACTIVE POWER COMPENSATION AND VOLTAGE CONTROL USING STATCOM

Platform used: MATLAB/SIMULINK

Description: This project illustrates the effect of STATCOM in power system on reactive power control. The STATCOM (static synchronous compensator) is shunt connected FACTS device used for improving voltage profile of transmission system with connected link of DC capacitor. Reactive power compensation using STATCOM have been used for mitigating power loss & improves power factor and voltage profile in transmission system. By using STATCOM, reactive power can be compensated by either absorbing or injecting with constant DC voltage provided by capacitor. Reason to use this fact device because of this system stability increases and transmission loss reduces as well as prevents system from voltage collapse.

3. Project Title: LOAD FLOW ANALYSIS OF IEEE 14 BUS SYSTEM USING GAUSS SIEDAL Platform used: MATLAB/SIMULINK

Description: The matlab program is created using gauss seidal analysis to find load flow in IEEE 14 bus system. The power system analysis and design is generally done by using power flow analysis. They are useful in determining the magnitude and phase angle of load buses, and active and reactive power flows over transmission lines, and active and reactive powers that are injected at the buses. For this work the gauss-seidal method is used for numerical analysis. The objective of this project is to develop a MATLAB program to calculate voltages, active and reactive power at each bus for IEEE 14 bus systems. IEEE 14 bus system MATLAB program is executed with the input data which will be useful to calculate the unknown quantities. It is helpful in determining the best location as well as optimal capacity for any proposed generating station, substation and new lines. These calculated voltage level at the certain buses must be kept within the closed tolerances. System transmission loss minimizes. DISSERTATION TOPIC

Load frequency control in a smart grid environment with the introduction of communication delay. Extracurricular Activities/Volunteer Activities (Social, Philanthropic):

Participated in various cultural activities held at School and College level (TECHNOMENIA).

PUBLICATION

FREQUENCY REGULATION OF INTERCONNECTED POWER SYSTEM IN PERSPECTIVE OF SMART GRID ENVIRONMENT

(INTERNATIONAL JOURNAL OF ELECTRONICS, ELECTRICAL AND COMPUTATIONAL SYSTEMS) vol.7, Issue 5, pp.109−117, May 2018.

ACADEMIC SCIENCE UGC APPROVED

I hereby declare that the particulars given herein are true and complete to the best of my knowledge and belief. Place: PATIALA

Date: 22 June 2018 Signature:



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