Solar technologies use photovoltaic (PV) panels or
mirrors to concentrate solar radiation to convert sunlight into electrical
energy. This energy can be converted into electricity or stored in
batteries or thermal storage.
Solar radiation is light emitted by the sun, also
known as electromagnetic radiation. Although every location on Earth
receives some sunlight during the year, the amount of solar radiation that
reaches any given location on Earth`s surface varies. Solar technology
captures this radiation and converts it into usable energy.
Photovoltaics (PV) and concentrated solar-thermal
power (CSP) are the two main types of solar energy technologies.
PV stands for photovoltaics and is used in solar
panels. When the sun shines on a solar panel, the energy is absorbed by
the panel`s PV cells. This energy creates electrical charges that move in
response to the cell`s internal electric field, causing current to flow.
CSP systems use mirrors to reflect and concentrate
sunlight onto receivers, which collect solar energy and convert it into heat,
which can then be used to generate electricity or be stored for later use.
Solar energy technology does not end with the
generation of electricity by PV or CSP systems.
These solar energy systems must be integrated into homes, businesses, and existing electrical grids using a variety of traditional and renewable energy sources.
You can find information on the basics of solar
radiation, photovoltaic technologies, electrical grid systems integration, and
the non-hardware aspects (soft costs) of solar energy. You can also learn more
about how to go solar and the solar energy industry.
The objective of the course is:
·
To
develop a comprehensive technical understanding of solar PV system
components.
· To provide an in-depth understanding of design parameters to help design and simulate the performance of a solar PV power plant.
· To pertain knowledge about planning, project implementation, and operation of solar PV power generation.
Roles from beginners to Senior Level as Solar Engineer, Solar Technical
Support Engineer, Energy Efficiency Officer, Solar PV Designer, Solar Sales
Manager, Senior Sales Manager (Solar), Tender Quotation Specialist - Solar,
Quality manager(FMEA), Solar Site Engineer, Solar O M Engineers, Solar
Installation Engineer, and many more jobs are available for qualified Solar
System persons.
Key Learning
1. Solar System Technology
·
Introduction
to Renewable energy
·
Basics of
Electricity
·
Solar
Radiation Basics and Measurement
·
Working on
Solar Cells
·
Solar PV
Modules
·
Solar PV
Module Arrays
·
Basics of
Charge Controller
·
Inverter
Basics
·
Solar
Batteries
·
How to
audit an electricity bill
·
Site
survey & assessment & Load calculations
·
Balance of
Systems Components
·
Components
Selection
·
Safety in the Installation of Solar PV Systems
·
Introduction
to Renewable energy
·
Basics of
Electricity
·
Solar
Radiation Basics and Measurement
·
Working on
Solar Cells
·
Solar PV
Modules
·
Solar PV
Module Arrays
·
Basics of
Charge Controller
·
Inverter
Basics
·
Solar
Batteries
·
How to
audit an electricity bill
·
Site
survey & assessment & Load calculations
·
Balance of
Systems Components
·
Components
Selection
·
Safety in the Installation of Solar PV Systems
· Solar PV Systems Design and integration
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
Solar System Technology |
1 year (DIPLOMA) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE
/ DEGREE IN ANY STREAM |
NSDC-EXIN |
80,000.00 |
Constructions consist of both public and private
constructions. Public construction includes the construction of
government projects such as office buildings, bridges, railways, highways,
dams, and megaprojects. Private construction includes the construction of
houses, apartments, and complexes as well as private building projects.
Construction begins with the planning of a building or infrastructure to be
constructed, the design of a construction layout, and the financing or
expenditure required for construction. Houses, residential apartments,
and buildings are examples of small-scale construction. Residential
projects, bridges, dams and infrastructure, and other large-scale construction
projects are examples of large-scale construction. Construction
technology refers to the technical processes and methods used in
construction. As constructions have evolved from standard-type evolutions
to one-off prototypes, construction performance requirements have become more
demanding, and the number of products and specialist suppliers has increased,
it has become an increasingly important aspect of the construction industry.
Building Construction Technology (Master Diploma)
• The
student will be able to gain knowledge of basic building concepts.
• The
student gains knowledge of the type of buildings and their usage aims.
• The
student understands the stages of construction.
• The
student will be able to understand the properties of building elements as well
as drawings.
• The
student understands how building elements work.
• The
student gains knowledge of various types and properties of foundations.
• The
student understands the properties of various structure walls.
• The student understands the properties of various structure floors.
• The student understands the foundation, walls, and floors.
• The
student will be able to gain knowledge of construction principles in mass
buildings and technical knowledge in project drawings.
B.Voc Courses in construction science are offered
in the heavy civil, commercial, and residential fields through the Bachelor of
Vocation program in Construction Technology.
Readings, 3-D models, hands-on laboratory
exercises, and site visits will all be used to teach students about building
materials and green building practices. Courses in construction
management are also offered in scheduling, BIM, job site management, safety,
and soil testing. Students will gain a solid foundation in business,
computer technology, mathematics, and other general education subjects.
Development after its completion.
Master of Technology in Construction Technology is
a postgraduate civil engineering course.
The M.Voc in Construction Technology program covers both fundamental and advanced subjects. In addition to the basics of estimating, scheduling, contracting, and project management, advanced courses cover risk analysis, decision-making, computer applications in construction, sustainability and green building, quality management, and Six Sigma. The course focuses on the fundamentals of construction technology, such as project scheduling, estimating, and control; legal and developmental aspects of the design process; and managing problems with quality in residential projects.
The role from Beginners to Senior Level is available as
Execution (Construction and MEP), Project Supervisor, Commercial &
Contracts Management, Billing Engineer, Project Coordination, QA/QC Engineer,
Health & Safety Engineer, Quantity Estimation and Budgeting, Project
Monitoring & Control, Procurement Engineer, Executive Channel Sales,
Production Planning, Dispute Management, Claims Management, Consulting &
Valuation, Project Marketing, Corporate Real Estate Management, Project
Valuation - Bank and many more.
B.Voc (Construction Technology) (Construction
Technology) Employers include Academic Institutions, Construction Project
Management Firms, Civil Consultancy Firms, Dam Building Firms, and Design and
Build Firms.
B.Voc (Construction Technology) specialist may work
as Draftsman, Mix Designer, Design Engineer, Project Manager, Site Engineer,
Supervisor / Surveyor, Technical Report Writer, etc.
M.Tech (Construction Technology) Airports, bridges,
colleges, universities, highways, roads, hydroelectric dams, tunnels, quality
systems, research and development (related to construction), and structural
engineering are all areas of employment.
M.Tech (Construction Technology) Career Types
Assistant Professor,
Business Development Executive, Formwork Technology Manager, Lecturer /
Professor, Project Manager, Technology Specialist, Construction Manager,
etc.
Key Learning
1. Building Construction Technology (Master Diploma)
·
Building
Construction -Introduction
Design And
Construction Of Foundations
·
Introduction
To Sustainable Construction
·
Introduction
To Building Construction
·
Advanced
Building Construction
· Concrete Building ConstructionSteel Building Construction
· Introduction To Building Services
·
Introduction
To Construction Project Management
·
Building
Design
· Software Related To Design
2. Construction Technology Engineering--3-year B.Voc
· · Applied Mathematics for Construction Technology
· · Environmental Science
· · Building Construction
· · Surveying I
· · Estimating & Costing
· · Practical (Environmental Science Lab / Fieldwork & Surveying-I Lab)
· · Practical (Building Construction Lab & Basic Information Technology Lab)
· · Personality Development & Behavioural Science
· · Basic Electrical Engineering
· · Elective-III (Applied Physics, Applied Mechanics,
· · Applied Physics Lab, Applied Mechanics Lab)
· · Engineering Graphics
· · Estimating & Costing
· · Project
· · Elective I (Human Values and Professional Ethics & Life Skills)
· · Industrial Training
· · Building Construction II
· · Estimating & Costing II
3. Construction Technology Engineering--2-year M.Voc
·
Management
of Quality and Safety in Construction
·
Construction
& Contract Management
·
Power
System Protection
·
Computational
Laboratory for Construction Management
·
Project
Planning and Control
·
Elective-II
• Building Science
• Construction Methods in Geotechnical Engineering
•
Functional
Planning, Building Services, and Maintenance Management
•
Quantitative
Methods in Construction Management
·
Elective-III
• Bulk Solids Handling
• Mechanical Engineering Courses
• Materials Management and Principles of Management
• Elective-I
• Civil Engineering Materials
• Recent Advances in Construction Materials
• Systems Design and Value Analysis
• Elective-IV
• Operations Planning and Control
• Quality Assurance
• Refrigeration and Air-conditioning Technology
• Major Project
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
Building Construction Technology |
2 year (Master Diploma) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DEGREE IN
ANY STREAM |
NSDC-EXIN |
1,60,000.00 |
Construction Technology Engineering |
3-year B.Voc |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DEGREE IN
ANY STREAM |
University |
37,000.00 per Semester Total Payment 2,22,000.00 --------------------- 66,600.00 per Year Total Payment 1,99,800.00 (10% discount) --------------------- 1,77,600.00 One Time Payment (20% discount) --------------------- 7,000.00 per month Total Payment 2,52,000.00 |
Note for B.Voc :
Students need to pay Rs.5,150.00 as registration charges including the prospectus
during the admission form fill-up. This would be collected only once. -3-days weekly classes will be organized at the campus (Offline/Online/Hybrid mode) 1 Year=Diploma Certificate 2 Years=Advance Diploma Certificate 3 Years= B.Voc Degree |
||||
Construction Technology Engineering |
2-year M.Voc |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DRGREE in
Construction Technology |
University |
1,90,000.00 |
Electrical engineering is a field of engineering
that generally deals with the study and application of electricity, electronics,
and electromagnetism. This field at the outset became an identifiable
occupation in the later half of the 19th century after the commercialization of
the electric telegraph, the telephone, and electric power distribution and use.
Subsequently, broadcasting and recording media made electronics part of
everyday life. The invention of the transistor, and later the integrated
circuit, brought down the cost of electronics to such a level that they can be
used in almost any household object. Electrical engineering has now been
subdivided into a wide range of subfields including electronics, digital
computers, power engineering, telecommunications, control systems,
radio-frequency engineering, signal processing, instrumentation, and
microelectronics. Many of these subdisciplines overlap and also overlap with
other engineering branches, spanning a huge number of specializations such as
hardware engineering, power electronics, electro magnetics & waves,
microwave engineering, electrochemistry, renewable energies, mechatronics,
electrical materials science, and many more.
Electronics engineering, or electronic engineering, is an electrical engineering discipline that utilizes non-linear and active electrical components (such as semiconductor devices, especially transistors, diodes, and integrated circuits)in order to design electronic circuits, devices, microprocessors, microcontrollers, and other systems. The discipline typically also designs passive electrical components, based on printed circuit boards. Electronics is a subfield within the wider electrical engineering academic subject but denotes a broad engineering field that covers subfields such as analog electronics, digital electronics, consumer electronics, embedded systems, and power electronics. Electronics engineering deals with the implementation of applications, principles, and algorithms developed within many related fields, for example, solid-state physics, radio engineering, telecommunications, control systems, signal processing, systems engineering, computer engineering, instrumentation engineering, electric power control, robotics, and many more.
Electrical and electronic engineering covers a wide
range of general principles and concepts. There is a definite crossover
between aeronautical and mechanical engineering. Doing EEE makes one an
all-rounder in engineering. Special emphasis is placed on providing practical
experience that will be useful to students for their future careers. The
course is made interesting and useful with live demonstrations, practical
experience, and training on various topics. Assessment consists of tests,
coursework, laboratories, presentations, and project reports. The
following topics are covered in this program-
·
Finding
new ways of powering our world from renewable energy sources (wind, solar,
hydro).
·
Creation
of electronic, and nano/micro–scale devices.
· Power electronics to drive robots, electric vehicles, and industrial machines, and enable efficient and sustainable power flow.
Job role from beginner to senior level is available as Aerospace
Engineer, Broadcast Engineer, Control and Instrumentation Engineer, Electrical
Engineer, Electronics Engineer, IT Consultant, Network Engineer, Nuclear
Engineer, Systems Analyst, Management Consultant, Multimedia Programmer,
Project Manager, Technical Author, Technical Sales Engineer and many more.
Key Learning
1. Electrical & Electronics Technology
·
Sustainable
Design
·
Engineering
in Society
·
Applied
Algebra and Statistics
·
Electrical
Systems Engineering Project
·
Programming
and Visualisation
·
Analogue
and Digital Electronics
·
Embedded
Systems Design
·
Power
Electronics
·
Engineering
Physics
·
Academic
Integrity
·
Introduction
to Mathematical Modelling
·
Machine
Design
· Engineering Modelling
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
Electrical & Electronics Technology |
2 year
(Master Diploma ) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DEGREE IN
ANY STREAM |
NSDC-EXIN |
1,60,000.00 |
Heating, ventilation, and
air-conditioning (HVAC) is an indoor and vehicle environmental comfort
technology. Its aim is to provide thermal comfort and acceptable indoor
air quality. HVAC system design is a sub-discipline of mechanical
engineering, based on the principles of thermodynamics, fluid mechanics, and
heat transfer. Refrigeration is sometimes added to the field
abbreviations as HVACR or HVACR, or ventilation is omitted as in HACR (such as
the designation of HACR-rated circuit breakers).
HVAC is an important part of
residential structures such as single-family homes, apartment buildings,
hotels, and senior living facilities, medium to large industrial and office
buildings such as skyscrapers and hospitals, on ships, and in marine
environments, where it is safe and healthy. Building conditions are
controlled in terms of temperature and humidity using fresh outside air.
Ventilation or ventilation (V in HVAC)
is the process of exchanging or replacing air in any space to provide high
indoor air quality including temperature control, replenishment of oxygen, and
removal of moisture, odors, smoke, heat, dust, airborne bacteria, carbon
dioxide, and other gases. Ventilation removes unpleasant odors and excess
moisture, introduces outside air, circulates indoor building air, and prevents
indoor air stagnation.
Ventilation includes both the exchange
of outside air as well as the circulation of air inside the building. It
is one of the most important factors in maintaining acceptable indoor air
quality in buildings. Methods of ventilating a building can be divided
into mechanical/forced and natural types.
The three central functions of heating, ventilation, and air conditioning are interrelated, particularly with the need to provide thermal comfort and acceptable indoor air quality within reasonable installation, operation, and maintenance costs. HVAC systems can be used in both domestic and commercial environments. HVAC systems can provide ventilation, reduce air infiltration, and maintain pressure relationships between spaces. The means of air supply and removal from spaces is known as room air distribution.
Once you are enrolled in the HVAC
education program at EXIN, you will begin to study many areas. These
areas include the theory and applications of air conditioning and
refrigeration, thermodynamic cycles, accessories, devices, and
refrigerants. A will also cover advanced topics related to commercial
units including installation, heat load calculations, low-temperature systems,
and multiple system installs.
During HVAC classes at EXIN, one will discover the basics of electrical control work and learn the skills to use ladder diagrams, test meters, wiring diagrams, and thermostats. Our advanced courses review pneumatic and electronic controls and both service and maintenance procedures.
On the heating side of things, one will
learn the principles of heating technology and appliances, including forced-air
fuel gas, electric, oil, combustion processes, and heat pumps. Both
residential and commercial applications are covered, as well as codes, venting,
and piping practices.
Also included in heating and
ventilation training are steam and hot water systems commonly used in both
residential and commercial installations. This training covers boilers,
circulators, pipes, traps, heat exchangers, and controls. Fundamentals of
fabrication and sheet metal as applied to HVAC ductwork are also a part of your
education.
Job role from beginner to senior level
is available as AC Technician, Automotive HVAC Technician, HVAC Engineer, HVAC
Installer, HVAC Mechanic, HVAC Refrigeration Technician, Solar Technician, Wind
Turbine technician, and many more
Jobs for HVAC personnel are available in
the following fields
Design & Manufacturing.
Sales & Marketing.
Operations & Maintenance
Service & Repair.
Consulting, Project Management &
Contracting
Sales and Marketing.
Automated Controls.
Design & engineering.
Key Learning
1. HVAC & Refrigeration Technology
·
Forced Air Furnace Systems
·
Hydraulic Boilers
·
Heat Pumps
·
HVAC Piping & Venting Methods
·
HVAC Safety Regulations, Protocols & Practice
·
Motors and Motor Controls
·
Automated HVAC controls
·
HVAC Unit Maintenance
·
Domestic Appliances and Cold-Water Air Conditioners
·
Basics of Electricity
·
HVAC System Installation
·
Problem-Solving Of Air Quality Issues
· Commercial and Industrial Refrigeration Units
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
HVAC & Refrigeration Technology |
2 years (Master`s Diploma) |
CLASS 10/10+2 /ITI POLYTECHNIQUE
/ DEGREE IN ANY STREAM |
NSDC-EXIN |
1,60,000.00 |
Automotive Technology/Engineering is concerned with vehicle life-cycle support (design, manufacture, performance, and durability
testing), ranging from road and off-road vehicles to race cars, vans, trucks, etc. Students enrolled in this course will learn how to apply
Mechanical, Thermodynamic, Pneumatic, Hydraulic, and Electrical principles to
solve engineering problems. They will learn how to design and produce visual
interpretations of automobiles and their components during their studies. They
would also be involved in the development of test procedures and the execution
of tests using physical testing methods and software packages.
Students will be introduced to various aspects of
future vehicle design, technology, and management as part of this study module.
The course will also cover the design, analysis,
control, calibration, and operational characteristics of Vehicles.
Automobile Technology/Engineering is a very vast subject describing various automobile systems in an automobile like chassis system, suspension, transmission, cooling, lubrication, steering, etc. Special emphasis is laid on various fundamentals of engineering like fluid mechanics, the strength of materials, CAD/CAM/CAE, electrical and electronic systems, and so on. They are trained in how to design the systems and mechanisms of cars. These professionals have to ensure that automotive designs and systems conform to the quality of the systems and cost specifications. These engineers are trained in how to analyze potential problems in design and work to solve those problems, design, and retest prototypes of cars and car parts, and oversee the
manufacturing of automobiles. Computers are a big
part of how automotive engineers do their jobs.
As part of the specialization, students will have
the opportunity to put theory into practice through industry training.
Industry visit will assist students in integrating knowledge with relevant
automobile OEMs, IT and Design firms, or component manufacturing
Job for Automotive Engineers varies in different
roles in Service stations of automobile companies,
R&D, Production plants, Motor vehicle
departments, Insurance company experts, Transport companies, and State transport
corporations.
Jobs in the automobile
sector in various roles Automobile Technicians, Bike Mechanics, Diesel
Mechanics, Car Mechanics, Automobile Designers, Executive and Managerial
Positions, Automobile Engineer, Automobile Designer, Vehicle/Car Designer,
Executive & Managerial Positions, Automotive Design Engineer, Automotive
Engineering Technician, etc.
Key Learning
1. Automotive Technology -(Masters Diploma 2 years)
·
Technical
English
·
Mathematics
·
Mobility
design and aesthetics,
·
Automotive
materials,
·
Automotive
electrical and electronics,
·
Computer-aided
vehicle design,
·
Vehicle
maintenance,
·
Electric
mobility,
·
Thermodynamics,
·
Engineering
mechanics,
·
Manufacturing
Technology,
·
Fuels and
Lubricants
·
Strength
of Materials IC Engines and Gas Turbine, Automotive Chassis,
·
Two-Wheeler
Technology Lab,
·
Vehicle
Dynamics,
·
Automotive
Components Design,
·
Off-road
Vehicles,
·
Auto
Refrigeration and Air Conditioning,
·
Vehicle
Maintenance,
·
Automotive
pollution and control,
·
Vehicle
Body Engineering and Emerging Automotive Technologies
·
Mechanics
of Machines,
· Automotive Electrical Systems.
2. Automobile Engineering (B.Voc) 3 years
·
Mathematics
·
Physics
·
Chemistry
·
Graphics
·
Computer
and programming
·
Electrical
Engineering Fundamental
·
Thermodynamics
·
Fluid
mechanics
·
Automotive
Engines
·
Automotive
Electronics
·
Automotive
Transmission
·
Robotics
·
Applied
Modern Physics
·
Applied
Chemistry
·
Statistics,
Calculus, and Numerical Methods
·
Graphic
Design and Drawing
·
Communication
Abilities
·
Engineering
Physics
·
Fundamental
and Advanced Computer-Aided Design
·
Suspension
Chassis
·
Automobile
Design
·
Vehicle
Security
·
Two-wheelers
and Three-wheelers
· Marketing Administration
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
Automotive Technology |
2 years (Master Diploma) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DRGREE IN
ANY STREAM |
NSDC-EXIN |
1,60,000.00 |
Automobile Engineering |
B.Voc (3 years) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE / DRGREE IN
ANY STREAM |
University |
37,000.00 per Semester Total Payment 2,22,000.00 ----------------- 66,600.00 per Year Total Payment 1,99,800.00 (10% discount) ----------------- 1,77,600.00 One Time Payment (20% discount) ----------------- 7,000.00 per month Total Payment 2,52,000.00 |
Note for B.Voc: Student
needs to pay Rs.5,150.00 as registration charges including prospectus during
admission form fill-up. This would be collected only once. -3-days weekly classes will be organized at the
campus (Offline/Online/Hybrid mode ) 1 Year=Diploma Certificate 2 Years=Advance Diploma Certificate 3 Years= B.Voc Degree |
The study, design, development,
construction, and testing of mechanical and thermal sensors and devices, such
as tools, engines, and machines, is known as mechanical engineering.
Mechanical engineering careers focus on developing technologies that solve a
wide range of human needs.
Automobile engineering, manufacturing
engineering, power plant engineering, thermal engineering, and mechatronics
engineering (a combination of electrical, computer, and mechanical engineering)
are all mechanical engineering subjects.
Mechanical engineers are mostly employed in engineering services, R&D, and manufacturing. Mechanical engineering has its roots in the industrial revolution, with the introduction of the steam engine, automated manufacturing, and railroad transportation demands necessitating increasingly innovative and sophisticated engineering solutions.
A mechanical engineer will have the
ability to identify, formulate and solve complex engineering problems using the
principles of engineering, science, and mathematics; and the ability to
use engineering design to create solutions to meet specific needs, taking into
account global, cultural, social, environmental, and economic factors, as well
as public health, safety, and welfare.
A mechanical
engineer will have the ability to communicate effectively with a variety of
audiences an understanding of ethical and professional responsibilities in
engineering situations and the ability to make informed decisions that consider
the impact of engineering solutions in global, economic, environmental, and
social contexts Ability to work effectively in a team where members provide
leadership, create a collaborative and inclusive environment, establish goals,
plan tasks and accomplish objectives and develop and conduct appropriate
experiments, analyze and interpret data, and use engineering judgment to reach
conclusions.
Mechanical engineering is one of the most in-demand
specializations right now. Students with a graduate degree in Mechanical
Engineering can apply for a variety of job positions in the government and
private sectors based on their interests. Some typical job profiles for a
Mechanical Engineering graduate are listed below: -
Mechanical Engineer, Design
Engineer, Assistant Mechanical, Engineer Purchase, Quality Control, Executive
Service Engineer, Instructional Designer.
Key Learning
1. Mechanical Engineering- (B.Voc) 3 years
Semester 1
·
Physics -
I
·
Chemistry
Laboratory
·
Workshop
/Physics Laboratory
·
Engineering
Drawing
·
Physical
Training - I
[NCC/NSO/NSS]
Semester 2
·
Modern
Biology
·
Introduction
to Computing
·
Mathematics
- II
·
Engineering
Mechanics
·
Physics -
II
·
Computing
Laboratory
·
Basic
Electronics Laboratory
·
Physics
Laboratory/Workshop
·
Physical
Training - II
[NCC/NSO/NSS]
Semester 3
·
Mathematics-III
·
Thermodynamics
·
Solid
Mechanics - I
·
Engineering
Materials
·
HSS
Elective - I
·
Machine
Drawing
·
Physical
Training - III
(NCC/NSO/NSS)
Semester 4
·
Fluid
Mechanics - I
·
Manufacturing
Technology - I
·
Solid
Mechanics - II
·
Kinematics
of Machinery
·
HSS
Elective - II
·
Workshop
- II
·
Mechanical
Lab - I
·
Physical
Training - IV
(NCC/NSO/NSS)
Semester 5
·
Fluid
Mechanics - II
·
Manufacturing
Technology - II
·
Dynamics
of Machinery
·
Design of
Machine Elements
·
Electrical
Machines
·
HSS
Elective - III
·
Mechanical
Lab - II
Semester 6
·
Applied
Thermodynamics - I
·
Machine
Design
·
Mechanical
Measurements
·
Heat and
Mass Transfer
·
Control
Systems
·
Mechanical
Lab - III
Semester 7
·
Summer
Training (PP/NP)
·
Applied
Thermodynamics - II
·
Dept
Elective - I
·
Dept
Elective - II
·
Open
Elective - I
·
Mechanical
Lab IV
·
Project- I
Semester 8
·
Industrial
Engineering and Operation Research
·
Dept
Elective - III
·
Dept
Elective - IV
·
HSS
Elective - IV
· Project- II
Course |
Duration |
Eligibility |
Degree Awarded by |
Fees (Rs.) |
Mechanical Engineering- |
B.Voc (3 years) |
CLASS 10 / 10+2 / ITI / POLYTECHNIQUE
/ DEGREE IN ANY STREAM |
University |
37,000.00 per Semester Total Payment 2,22,000.00 -------------------- 66,600 per Year Total Payment 1,99,800.00 (10% discount) -------------------- 1,77,600.00 One Time Payment (20% discount) -------------------- 7,000.00 per month Total Payment 2,52,000.00 |
Note for B.Voc: Student needs to pay Rs.5,150.00 as
registration charges including prospectus during admission form fill-up. This
would be collected only once. -3-days weekly classes will be
organized at the campus (Offline/Online/Hybrid mode ) 1 Year=Diploma Certificate 2 Years=Advance Diploma Certificate 3 Years= B.Voc Degree |