Dipak Kumar Saha is pursuing a Master of Technology in Renewable Energy Science & Technology from Indian Institute of Engineering Science and Technology, Shibpur. He completed a B.Tech in Electrical Engineering from Kalyani Government Engineering College. His objective is to build a career in a leading corporate environment to fully explore his potential. He has experience developing grid-connected inverters, solar charge controllers, and remote monitoring systems for solar plants. He is currently working on projects involving inverters, MPPT systems, and remote monitoring funded by the Ministry of New and Renewable Energy, Govt. of India. He has published papers on solar monitoring systems and inverters.
An Improved Constant Voltage Based MPPT Technique for PMDC MotorIAES-IJPEDS
Stand-alone photovoltaic (SAPV) systems are being used in remote areas
and are being seen as one of the promising solution in this regard. The SAPV
system as presented in the paper consists of solar PV panel, a DC-DC
converter, a controller and a PMDC motor. The current-voltage and powervoltage
characteristics being nonlinear, the SAPV system require maximum
power point techniques (MPPT) control techniques to extract maximum
power available from the PV cell. A voltage based MPPT technique which is
capable of tracking MPP has been selected because of numerous advantages
it offers such as: simple and low cost of implementation. The limitation of
constant voltage method is that its efficiency is low as the PV panel has to be
disconnected from the load for measurement of the open circuit voltage
(Voc). In the presented paper, the authors have removed this limitation by
using a pilot PV panel for measurement of Voc. A proportional-integrator (PI)
based controller is used in implementation of constant voltage MPP
technique and the modeling is done in MATLAB®/SIMULINK simulation
environment. The simulation results are presented and discussed in the paper,
the results shows that the efficiency of the system has increased.
Free Powered Electric Vehicle_Designed by Pranav NavathePranavNavathe
In today’s world the rapid growth in automobile industry requested most accurate and high
performable vehicles, with pollution free and low cost in operation. The project free powered electric
vehicle is an automobile which works on the principle of generating electricity with the help of
synchronous electric motor and generator with attached fly wheel, boosting circuit which acts as a
free powering machine by restoring waste mechanical energy into useful electric work. This device
consists of one electric motor and generator with attached fly wheel in centre so that it connected
with motor and generator with belt pulleys. When an mechanical input is given to the generator with
help of stator its produces electricity later which is passed to motor as input so, motor rotates the
attached flywheel then the stored kinetic energy in the flywheel is utilized to multiply the rotations of
generator shaft to produce electricity with little effort on motor in this way cycle repeated and from
produced electricity some amount of electricity taken as output which is used for charging batteries,
accessories of the electric vehicle. Such that vehicle is propelled.
An Improved Constant Voltage Based MPPT Technique for PMDC MotorIAES-IJPEDS
Stand-alone photovoltaic (SAPV) systems are being used in remote areas
and are being seen as one of the promising solution in this regard. The SAPV
system as presented in the paper consists of solar PV panel, a DC-DC
converter, a controller and a PMDC motor. The current-voltage and powervoltage
characteristics being nonlinear, the SAPV system require maximum
power point techniques (MPPT) control techniques to extract maximum
power available from the PV cell. A voltage based MPPT technique which is
capable of tracking MPP has been selected because of numerous advantages
it offers such as: simple and low cost of implementation. The limitation of
constant voltage method is that its efficiency is low as the PV panel has to be
disconnected from the load for measurement of the open circuit voltage
(Voc). In the presented paper, the authors have removed this limitation by
using a pilot PV panel for measurement of Voc. A proportional-integrator (PI)
based controller is used in implementation of constant voltage MPP
technique and the modeling is done in MATLAB®/SIMULINK simulation
environment. The simulation results are presented and discussed in the paper,
the results shows that the efficiency of the system has increased.
Free Powered Electric Vehicle_Designed by Pranav NavathePranavNavathe
In today’s world the rapid growth in automobile industry requested most accurate and high
performable vehicles, with pollution free and low cost in operation. The project free powered electric
vehicle is an automobile which works on the principle of generating electricity with the help of
synchronous electric motor and generator with attached fly wheel, boosting circuit which acts as a
free powering machine by restoring waste mechanical energy into useful electric work. This device
consists of one electric motor and generator with attached fly wheel in centre so that it connected
with motor and generator with belt pulleys. When an mechanical input is given to the generator with
help of stator its produces electricity later which is passed to motor as input so, motor rotates the
attached flywheel then the stored kinetic energy in the flywheel is utilized to multiply the rotations of
generator shaft to produce electricity with little effort on motor in this way cycle repeated and from
produced electricity some amount of electricity taken as output which is used for charging batteries,
accessories of the electric vehicle. Such that vehicle is propelled.
Abhisek Pal received the B.Tech degree in Electrical Engineering from BIET, WB, India in 2010, and the M.Tech degree in Electrical Engineering (sp. Power Electronics & Drives) from Jalpaiguri Govt. Engg. College,WB, India in 2012. He was an Assistant Professor for two years at BCETW, Durgapur, WB and currently pursuing the Ph.D. degree at Indian School of Mines, Dhanbad, India.
His current research interests include Electrical Machines, Drives & Power Electronics, Electric Vehicles, Sensorless speed control, Hybrid FOC-DTC technique, Artificial Intelligence and Energy Efficiency Improvements in Electric Drives.
Mppt vs pwm charge controller - which one to take?NeelHope
MPPT vs PWM Solar charge controller ultimate comparison to help you choose the right solar charge controller for the renewable energy power system.
https://zhcsolar.com/mppt-vs-pwm/
Fabrication and Performance Analysis of Solar Tracking System by Using By-Pas...IJMREMJournal
Energy is a burning issue that almost every person experience now a days. Energy demand increases exponentially
since a decade. Due to the global warming and it’s threatening impacts on human life. Therefore, to overcome
such disastrous impacts on the planet, renewable energy resources play vital role now a days. Solar energy is one
of the vastest available renewable energy resources around the globe, but the main issue is its poor efficiency.
Pakistan is facing energy shortage that can be compensated through solar power and the need is to design a project
that maximizes its efficiency. So, the research is mainly focused on improving efficiency of solar panels against
shading loss by using different techniques. In this research, different results will be obtained and compared with
different techniques which are LDR based solar tracking system, by-pass diodes technology and super capacitors.
Fabrication of solar tracker is based on Microcontroller that drives L298N driver to operate stepper motor.
Development of 30 Watt Solar Bag with Wireless Power Transmission UnitIJERA Editor
The development of 30 watt Solar bag with wireless power transmission unit using photo voltaic cells to charge
tablets, mobile phones, smart phones, digital cameras and all types of batteries (Including 12 volt acid and dry
cell for emergency situations) using in such kind of appliances. The phenomenon that we have implanted in our
project to transmit wireless power is resonant coupling. The Battery backup of the solar bag would be around 2
hours with load estimation of around 30 watts. Our product is very user friendly as it allows us the power
transmission in the range of 12 inches, whereas we have also implemented the overall logic by using PIC
Microcontroller based model 16F877A to enhance its versatility.
we have established solar MPPT, Inverter and auto-switching and used the device to generate output power efficiently using solar energy. we powered a 5W bulb using this model. This model includes MPPT circuit, charging and discharging circuit, inverter circuit, and sensing circuit.
An open source intelligent auto wakeup solar energy harvesting system for sup...LeMeniz Infotech
An Open Source Intelligent Auto-Wakeup Solar Energy Harvesting System for Supercapacitor-Based Energy Buffering
Energy harvesting systems that couple solar panels with supercapacitor buffers offer an attractive option for powering computational systems deployed in field settings, where power infrastructure is inaccessible. Supercapacitors offer a particularly compelling advantage over electrochemical batteries for such settings because of their ability to survive many more charge–discharge cycles. We share a versatile open source design for such a harvesting system that targets embedded system applications requiring power in the 1–10 W range. Our system is designed for high efficiency and controllability and, importantly, supports auto-wakeup from a state of complete energy depletion.
Web : http://www.lemenizinfotech.com
web : http://www.lemenizinfotech.com/embedded-ieee-projects-2016-2017/
Web : http://ieeemaster.com
Web : http://ieeemaster.com/embedded-ieee-projects-2016-2017/
Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005
Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444
Mail : projects@lemenizinfotech.com
Mobile : 9566355386 / 9962588976
Dual – MPPT Control of a Photovoltaic SystemIJTET Journal
Abstract - This paper proposes an efficient solar tracker system using a dual MPPT controller. It consists of three step DC to DC converter, which has been controlled by a microcontroller based unit. MPPT (Maximum Power Point Tracking) is used in photovoltaic system to maximize the PV array output power, irrespective of temperature, irradiation conditions and electrical characteristics of the load. The first MPPT controller is a dual axis solar tracker, which ensures optimization of the conversion of solar energy into electricity by properly orienting the PV panel in accordance with the real position of the sun to track azimuth and elevation angles. The second MPPT controller controls the duty cycle of the converter using modified Incremental Conductance algorithm to enable the PV array operate at maximum operating power at all conditions. The proposed control scheme eliminates oscillations and tracks the global maximum power point (GMPP) accurately. The simulation has been accomplished in MATLAB software.
A MPPT solar charge controller is the charge controller embedded with MPPT (Maximum Power Point Tracking) algorithm to maximize the amount of current going into the battery from PV module.
1. Coordenadas y vectores
2. Revisión de estática
3. Dinámica y ondas
4. Ondas y medios materiales
5. Reflexión y refracción de ondas
6. Ondas y rayos. Óptica
7. Interacción con la materia
8. Las ecuaciones de maxwell
Abhisek Pal received the B.Tech degree in Electrical Engineering from BIET, WB, India in 2010, and the M.Tech degree in Electrical Engineering (sp. Power Electronics & Drives) from Jalpaiguri Govt. Engg. College,WB, India in 2012. He was an Assistant Professor for two years at BCETW, Durgapur, WB and currently pursuing the Ph.D. degree at Indian School of Mines, Dhanbad, India.
His current research interests include Electrical Machines, Drives & Power Electronics, Electric Vehicles, Sensorless speed control, Hybrid FOC-DTC technique, Artificial Intelligence and Energy Efficiency Improvements in Electric Drives.
Mppt vs pwm charge controller - which one to take?NeelHope
MPPT vs PWM Solar charge controller ultimate comparison to help you choose the right solar charge controller for the renewable energy power system.
https://zhcsolar.com/mppt-vs-pwm/
Fabrication and Performance Analysis of Solar Tracking System by Using By-Pas...IJMREMJournal
Energy is a burning issue that almost every person experience now a days. Energy demand increases exponentially
since a decade. Due to the global warming and it’s threatening impacts on human life. Therefore, to overcome
such disastrous impacts on the planet, renewable energy resources play vital role now a days. Solar energy is one
of the vastest available renewable energy resources around the globe, but the main issue is its poor efficiency.
Pakistan is facing energy shortage that can be compensated through solar power and the need is to design a project
that maximizes its efficiency. So, the research is mainly focused on improving efficiency of solar panels against
shading loss by using different techniques. In this research, different results will be obtained and compared with
different techniques which are LDR based solar tracking system, by-pass diodes technology and super capacitors.
Fabrication of solar tracker is based on Microcontroller that drives L298N driver to operate stepper motor.
Development of 30 Watt Solar Bag with Wireless Power Transmission UnitIJERA Editor
The development of 30 watt Solar bag with wireless power transmission unit using photo voltaic cells to charge
tablets, mobile phones, smart phones, digital cameras and all types of batteries (Including 12 volt acid and dry
cell for emergency situations) using in such kind of appliances. The phenomenon that we have implanted in our
project to transmit wireless power is resonant coupling. The Battery backup of the solar bag would be around 2
hours with load estimation of around 30 watts. Our product is very user friendly as it allows us the power
transmission in the range of 12 inches, whereas we have also implemented the overall logic by using PIC
Microcontroller based model 16F877A to enhance its versatility.
we have established solar MPPT, Inverter and auto-switching and used the device to generate output power efficiently using solar energy. we powered a 5W bulb using this model. This model includes MPPT circuit, charging and discharging circuit, inverter circuit, and sensing circuit.
An open source intelligent auto wakeup solar energy harvesting system for sup...LeMeniz Infotech
An Open Source Intelligent Auto-Wakeup Solar Energy Harvesting System for Supercapacitor-Based Energy Buffering
Energy harvesting systems that couple solar panels with supercapacitor buffers offer an attractive option for powering computational systems deployed in field settings, where power infrastructure is inaccessible. Supercapacitors offer a particularly compelling advantage over electrochemical batteries for such settings because of their ability to survive many more charge–discharge cycles. We share a versatile open source design for such a harvesting system that targets embedded system applications requiring power in the 1–10 W range. Our system is designed for high efficiency and controllability and, importantly, supports auto-wakeup from a state of complete energy depletion.
Web : http://www.lemenizinfotech.com
web : http://www.lemenizinfotech.com/embedded-ieee-projects-2016-2017/
Web : http://ieeemaster.com
Web : http://ieeemaster.com/embedded-ieee-projects-2016-2017/
Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005
Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444
Mail : projects@lemenizinfotech.com
Mobile : 9566355386 / 9962588976
Dual – MPPT Control of a Photovoltaic SystemIJTET Journal
Abstract - This paper proposes an efficient solar tracker system using a dual MPPT controller. It consists of three step DC to DC converter, which has been controlled by a microcontroller based unit. MPPT (Maximum Power Point Tracking) is used in photovoltaic system to maximize the PV array output power, irrespective of temperature, irradiation conditions and electrical characteristics of the load. The first MPPT controller is a dual axis solar tracker, which ensures optimization of the conversion of solar energy into electricity by properly orienting the PV panel in accordance with the real position of the sun to track azimuth and elevation angles. The second MPPT controller controls the duty cycle of the converter using modified Incremental Conductance algorithm to enable the PV array operate at maximum operating power at all conditions. The proposed control scheme eliminates oscillations and tracks the global maximum power point (GMPP) accurately. The simulation has been accomplished in MATLAB software.
A MPPT solar charge controller is the charge controller embedded with MPPT (Maximum Power Point Tracking) algorithm to maximize the amount of current going into the battery from PV module.
1. Coordenadas y vectores
2. Revisión de estática
3. Dinámica y ondas
4. Ondas y medios materiales
5. Reflexión y refracción de ondas
6. Ondas y rayos. Óptica
7. Interacción con la materia
8. Las ecuaciones de maxwell
The nārāyaṇīyam (pronounced naaraayaneeyam or IPA: [nɑːrɑːjəɳiːjəm]) condenses the Bhagavata Purana into 1034 verses, divided into one hundred dasakam, or cantos. The work occupies a very high place in Sanskrit literature, both because of the intense devotional fervour of the verses, and because of their extraordinary literary merit. Thenārāyanīyam is one of the most popular religious texts in Kerala and Tamil Nadu, and devout Hindus often recite it together in festivals and groups.
Nārāyanīyam is the story of Lord Narayana. It is a work consisting of 1034 slokas or verses, divided into 100 dasakams or chapters, each dasakam consisting of approximately 10 slokas. It is a condensed version of Bhagavata Purana, which consists of 18,000 slokas authored by Veda Vyasa. It is said that the work has the blessings of Lord Krishna or Guruvayoorappan, the presiding Deity of Guruvayur.
Narayaneeyam narrates a series of episodes from the Bhagavata Purana, choosing the most pious of the lot. The incarnations of Vishnu are traced with piety, Bhattathiri transforms the episodes into solemn prayers, pouring out his soul in total supplication before the Lord. The final dasaka, Kesadipaada Varnanam, embodies top-to-toe picture of little Krishna in all grace and glory .
Both as a poem and as a devotional hymn, Narayaneeyam occupies a very high place in Sanskrit literature.
Narayaneeyam is the master piece of Melpathur and is the most widely read of all his works.The poet depicts the image of Lord Guruvayurappan, in exemplary terms - "Sammohanam Mohanal Kantham Kanthinidhanathopi, Madhuram Madhurya Dhuryadapi, Soundaryotharathopi Sundaratharam"
The ‘Parayana' of Narayaneeyam is believed to possess the wonderful power of healing afflictions, both mental and physical, of the devotees. The "Nithyaparayana” of Narayaneeyam will enable the devotees to attain " Ayurarogyasoukhyam”.
Narayaneeya Sapthaham ( the recitation of Narayaneeyam and explaining the meaning to the public) is conducted in Guruvayur temple by Devaswom on the Narayaneeya Dinam and by others as offerings. It is done for seven consecutive days from early morning till 6.10 pm in the evening. Narayaneeya Sapthaham has started in Guruvayur in the early 50's. It takes about 5 hours to read the slokas and about 45 hours for explaining the slokas.
The day on which Narayaneeyam was completed, 28th Vrichikam, is celebrated by the Devaswom as Narayaneeyam day. Discourses and debates on Narayaneeyam written by Melpathur take place. Special functions are held at Melpathur Illapparambu also.
Joydip Jana is a Renewable Energy Researcher & presently working in the field of Grid Integration of Renewable Energy, Smart Microgrid, Storage Systems including Super Capacitor and Vanadium Redox Battery etc. with Indian Institute of Engineering Science & Technology (IIEST), Shibpur. Currently he is involved in a project “Advanced Research on Thin Film Silicon Solar Cell & PV Systems” funded by Ministry of New and Renewable Energy (MNRE) of Govt. of India and implemented by IIEST, Shibpur. The project includes design, development and field testing of MPPT based high efficiency inverters and grid synchronizing system components used in grid interactive roof top PV systems and design, field-testing and performance evaluation of BIPV system in Indian Institute of Engineering Science & Technology (IIEST), Shibpur, West Bengal, India. He has worked with RRCAT, a centre of Bhaba Atomic Research Centre (BARC), Govt. of India for setting up a Digital Fast Feedback Control System using FPGA for RF Signals in the particle accelerator installed in RRCAT, Indore. He published several papers in different national & international conferences and journal and wrote a book chapter on “Solar PV Power Generation” in “Advances in Solar Energy Science & Engineering, Vol.1” published by National Institute of Solar Energy (NISE), Govt. of India. He was involved in a project for set up 100kW Grid-Tied solar power plant at State Bank of India, Sammridhhi Bhavan, Local Head Office, Kolkata for providing consultancy services for preparation of synopsis of tenders (Technical & Commercial), pre-bid design, drawing & BOQ preparation, vendor selection, site visit, site layout, Engineering drawing preparation, system design with PVSyst software, making mechanical, electrical and structural drawing using AutoCAD software, design, selection of SPV modules and BOS, site supervision and commissioning of the project. He successfully designed, developed & installed solar system in Electric Vehicle application in the year 2015.
This is Janardhan pursued Master of Engineering in Power Electronics. Currently working as a part time project engineer in Maxine Tec Research and Development Institute with having industry experience in Bharat Heavy Plate and Vessels Ltd. Published and Presented an IEEE paper on control of DFIG connected to variable speed wind turbine.
(Actively Seeking for Job Opportunity in Core Domain)
1. CURRICULUM VITAE
DIPAK KUMAR SAHA
MOBILE: - +91-9477760414
Email: mail2dipaksaha@gmail.com
saha.dipu555@gmail.com
Objective:
Intend to build a career with leading corporate of hi-tech environment with committed &
dedicated people, which will help me to explore myself fully, realize my potential and also to work
hard with full determination and dedication to achieve organizational as well as personal goals.
Profile Summary:
Pursuing Master of Technology in Renewable Energy Science & Technology from Indian
Institute of Engineering Science and Technology, Shibpur.
B.Tech in Electrical Engineering from Kalyani Government Engineering College.
Currently working in a project at Indian Institute of Engineering Science and Technology,
Shibpur, funded by Ministry of New and Renewable Energy, Govt. of India.
Developed a Grid connected string inverter, MPPT based solar charge controller,
Developed a Remote monitoring and controlling of solar photovoltaic power plant,
Worked with storage system, Application of super-capacitor,
Installation & Commissioning of 1KW, 6 hr. Vanadium Redox Flow Battery system.
Worked as a trainee of Micro-grid project at Indian Institute of Engineering Science and
Technology, Shibpur which includes installation of 10KW Grid tied Solar PV power plant,
1KW wind turbine and 15KW bio-gas plant.
Having industrial training & visit at 400/220/132 kV WBSETCL substation, 1400 MW DVC
Mejia Thermal Power Station, Railway workshop.
Educational Qualifications (General):
Name of the
Examination
Name of the
Board
Name of the
Institution
Year of
passing
Percentage of Marks
obtained
Madhyamik (10th
standard)
W.B.B.S.E. Memari V. M.
Institution (Unit-I)
2008 91.5
Higher Secondary
(12th
Standard)
W.B.C.H.S.E Memari V. M.
Institution (Unit-II)
2010 81.20
2. Educational Qualifications (Technical):
B.Tech in Electrical Engineering (2010-2014)
Institution : Kalyani Government Engineering College
Name of the Semester Year of passing SGPA
1st
Semester 2010 7.26
2nd
Semester 2011 7.59
3rd
Semester 2011 6.78
4th
Semester 2012 6.82
5th
Semester 2012 7.75
6th
Semester 2013 8.43
7th
Semester 2013 9.22
8th
Semester 2014 9.24
OVERALL - 8.04 (DGPA)
M.Tech in Renewable Energy Science & Technology (2014-2016)
Institution: Indian Institute of Engineering Science & Technology, Shibpur
Name of the Semester Year of passing Percentage of Marks
1st
Semester 2014 81.67
2nd
Semester 2015 84.80
3rd
Semester 2016 93.33
OVERALL – 86.60 % (upto 3rd Semester)
Knowledge Gathered:
Core Subject:
Electrical Engineering (Graduation)
Power System, Measurement, Instrumentation & Control system, Microprocessor &
Microcontroller, Power Electronics, Energy, Electrical Machines.
Renewable Energy Science & Technology (Post Graduation)
Photovoltaic cell, Manufacturing, Photovoltaic Systems, Installation, Components,
Wind Energy, Bio-gas system, Hydro-power, Solar Thermal power, Energy efficient
devices, Instrumentation & measurements.
Computer knowledge:
C Programing, Application of MATLAB, P-SIM,
Web Designing, Adobe Dreamweaver, PHP scripts, Linux scripts, networking.
Working knowledge of other professional multimedia software – Adobe Photoshop, Adobe
Audition, Soundtracks, Pinnacle Video Editor etc.
Professional Software Skills:
Microcontroller programming, PVSYST, AUTOCAD, PSCAD, Proteus Professional.
3. Academic Projects:
During Master Degree (Ongoing):
1. Design & Development of Grid-tied and Standalone Inverter for Solar PV application:
Study of various topologies of inverter, Maximum Power Point Tracking (MPPT)
system incorporation, Battery Charge controller designing, Buck-Boost converter
topology, SPWM and PLL control using microcontroller, grid integration, Automatic
Voltage Regulation (AVR) control, Protection and fault analysis.
2. Remote Monitoring & Data logging system of SPV plant and control:
Measurement of various parameters of SPV system, Local data processing, handling,
display & data-storing system, Remote communication establishment over IP using
GPRS MODEM, Remote web-server run & management, data processing, showing
real time data & graphs over IoT, IoT based remote controlling, fault detection.
During Bachelor Degree:
Designing of Recurrent Surge Generator:
Study of HV impulse generator, determining values of system components using
simulation and real-time implementation using microcontroller.
Involvement of other Projects:
1. Study of charging characteristics & application of Super-capacitor in storage system.
2. Vanadium-Redox Flow Battery system – commissioning, charging and application.
3. Development of Switched-Boost inverter.
4. Commissioning of 26KW Microgrid system at IIEST, Shibpur.
5. Designing of speed controller of DC motor & Real time implementation.
Academic Publications:
1. An IoT Based Smart Solar Photovoltaic Remote Monitoring and Control Unit
IEEE Conference CIEC-16 "2ND International Conference on Control, Instrumentation, Energy
and Communication"-Dept. of Applied Physics, Univ. of Calcutta, 2016
Author: Soham Adhya, Dipak Kr. Saha, Abhijit Das, Joydip Jana, Hiranmay Saha.
2. Design and Development of FPGA based Grid-Tied Inverter with/without battery
back-up for Solar Photovoltaic System under Unreliable Grid Condition
“India’s Energy Challenges & it’s Perspective”, GAABESU Seminar 2015, Indian Institute of
Engineering Science & Technology, Shibpur.
Author: Joydip Jana, Dipak Kr. Saha, Hiranmay Samanta, Hiranmay Saha.
3. Design and real-time implementation of a novel MPPT approach by using
synchronous buck-boost converter for standalone PV application.
International Conference on Recent Trends in Engineering and Material Sciences (March 17-19,
2016) (ICEMS-2016), Jaipur National University, Jaipur
Author: Hiranmay Samanta, Dipak Kr. Saha, Joydip Jana, Hiranmay Saha.
4. Industrial & Vocational training:
West Bengal State Electricity Transmission Company Limited
(15 days Jeerat 400KV Substation visiting):
Electrical High Voltage Transmission system, Substation SLD, Transformers, different
Breakers, Isolators, PLCC, Communication system, Feeders, Bus-bars, Protection &
Switchgear system, Fault detection system, Operation & maintenance.
Mejia Thermal Power Station, Damodar Valley Corporation
(21 days Thermal Power Station visiting):
Thermal Power station overview, Mechanical operations, CH Plant, DM Plant, Furnace,
Boiler feeding, Turbine operation, Synchronizing system, AVR control, PLC system, Control
unit, Switchgear operations.
Barasat (BT) carshed workshop, EASTERN RAILWAY
(15 days Railway workshop visiting):
EMU train overview, Motor operation, Electrical & Mechanical transmission, tap-changing of
transformers, Overhauling, Running, braking operations, Air compression system, MR, BP,
Measurement units, Pantograph, driving, data logging system, protections.
Scholastic Achievements:
Got a Scholarship from Ministry of Human Resource Development for securing 81.20%
Marks on Higher-Secondary Examination through West Bengal Council of Higher Secondary
Education.
Academic Participations:
NATIONAL WORKSHOP ON PHOTOVOLTAICS, IIESTPV 2015, IIEST, Shibpur
India’s Energy Challenges & it’s Perspective, GAABESU Seminar 2015, IIEST, Shibpur
Personal Details:
Name: Dipak Kumar Saha
Father’s Name: Sushil Kumar Saha
Date of Birth: 09/12/1992
Sex: Male.
Marital Status: Single.
Nationality: Indian.
Languages Known: English, Bengali & Hindi.
Hobbies: Listening Music, Photography, Playing Tabla, Web development,
Multimedia project.
Interests: PV system installing, Power system, IoT communications.
Declaration: I hereby declare that the information furnished above is true to the best
of my knowledge.
Date: 29-03-2016
Place: IIEST, Shibpur (Signature)