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1
VINAYAKA MISSIONS RESEARCH FOUNDATION
(DEEMED TO BE UNIVERSITY)
VINAYAKA MISSION’S KIRUPANANDA VARIYAR ENGINEERING
COLLEGE,
SALEM – 636308.
RESEARCH LAB
ENGINEERING DESIGN
DEPARTMENT OF MECHANCIAL ENGINEEING
2
CONTENTS
INTRODUCTION .................................................................................................................................... 4
AIM ........................................................................................................................................................... 4
OBJECTIVES ........................................................................................................................................... 4
THRUST AREAS OF RESEARCH ......................................................................................................... 4
CAPACITY/FACILITY AVAILABLE ................................................................................................... 4
PRODUCTS DEVELOPED ..................................................................................................................... 5
CRYOGENIC GRINDING OF SPICES WITH QUALITIES UNALTERED – GINGER ................. 5
TEA LEAF CUTTING MACHINE ...................................................................................................... 8
PARABOLIC SOLAR COOKER ......................................................................................................... 9
PARABOLIC SOLAR COOKER ......................................................................................................... 9
FOOD FEEDING ROBOT FOR PHYSICALLY CHALLENGED PERSONS ................................ 10
MILEAGE PROMOTER GEARS (MPG) .......................................................................................... 11
PRODUCTS UNDER PROCESS ........................................................................................................... 12
VEGETABLE OIL BASED SOLAR STOVE .................................................................................... 12
FREEZE DRYING OF FRUIT TO STORE IT FOR EXTENDED PERIOD OF TIME AT ROOM
TEMPERATURE ................................................................................................................................ 13
DEVELOPMENT OF AC AND REFRIGERATION USING EXHAUST HEAT FROM CAR ...... 14
DESIGN AND FABRICATION OF RACE CARS ........................................................................... 15
DIESEL ENGINE FUEL WITH CALOPHYLLUM INOPHYLLUM METHYL ............................ 16
SPEED BREAKER POWER GENERATION USING HYDRAULIC CIRCUITS .......................... 17
DESIGN AND FABRICATION OF SOLAR OPERATED CAR ..................................................... 18
DIESEL ENGINE FUEL WITH HEVEABARASILIENSIS SEED OIL .......................................... 19
PARALLEL HYBRID VEHICLE ...................................................................................................... 20
MoUs AND OUTCOMES .................................................................................................................. 21
ONGOING FUNDED PROJECTS ......................................................................................................... 22
PUBLICATIONS .................................................................................................................................... 23
COLLABORATION WITH INDUSTRIES/RESEARCH LABORATORIES ..................................... 24
PATENTS FILED ................................................................................................................................... 27
ON GOING RESEARCH BY STAFF.................................................................................................... 28
STAFF :S.ARUNKUMAR ................................................................................................................. 28
STAFF :C.THANGAVEL................................................................................................................... 29
STAFF :R.JAYARAMAN & J.RABI ................................................................................................. 30
STAFF :Prof.N.RAJAN ...................................................................................................................... 31
STAFF :Prof.S.DURAITHILAGAR ................................................................................................... 32
3
STAFF :Dr.S.VENKATESAN............................................................................................................ 33
STAFF :Prof. R.ANANDAN .............................................................................................................. 34
STAFF :Prof.S.NATARAJAN ............................................................................................................ 35
STAFF : Prof.G.NAGARAJAN .......................................................................................................... 36
STAFF: Prof. M.SARAVANAN ........................................................................................................ 37
STAFF :Prof. R.VENKATESH .......................................................................................................... 38
STAFF :Prof. V.K.KRISHNAN.......................................................................................................... 39
STAFF: Prof. P.SELLAMUTHU ........................................................................................................ 40
STAFF: Prof. J.SATHEES BABU ...................................................................................................... 41
4
INTRODUCTION
Engineering design is the method that engineers use to identify and solve problems. It has
been described and mapped out in many ways. This powerful approach to problem solving is
flexible enough to work in almost any situation. Engineers learn important information about
both the problem and possible solutions at each step or phase of the process. This process is
often done in small teams that include people with different kinds of knowledge and experience.
Various stages of the design process can involve a significant amount of time spent on locating
information and research. Consideration should be given to the existing applicable literature,
problems and successes associated with existing solutions, costs, and marketplace needs. The
source of information should be relevant, including existing solutions. Reverse engineering can
be an effective technique if other solutions are available on the market.
AIM
To motivate students and staff to innovate and design in the light of latest technology to cater to the
needs of the society
OBJECTIVES
1. To develop bio fuels from agriculture products
2. To develop a system to improve the efficiency using bio fuels to reduce emissions
3. To develop new generation vehicle systems
4. To train the students in new technology in association with BOSCH, Chennai
THRUST AREAS OF RESEARCH
1. BIO-Fuels
2. Hybrid Vehicle
3. Electrical Vehicle
4. Low cost automation
5. FRP/MMC substitution
CAPACITY/FACILITY AVAILABLE
1. Softwares- Solidworks, Ansys, Catia
2. Machine shop and workshop
3. Chemistry Lab
4. Automobile Lab
5. Thermal Lab
5
PRODUCTS DEVELOPED
CRYOGENIC GRINDING OF SPICES WITH QUALITIES UNALTERED – GINGER
Student Name: V.Suhandan Guide Name: Prof. N. RAJAN, Associate Professor,
Funded by: MSME, New Delhi Amount Sanctioned: Rs. 6,25,000/-
Introduction
Cryogenic grinding is a method of powdering spices without loosing its aroma.
Temperatures ranging from -70°C to -200°C.
The spices are frozen with liquid nitrogen before they are being ground.
This process does not damage or alter the chemical composition of the spices in any way.
Theme of the Project
• Existing the cryogenic grinding is not used for ginger, garlic etc.
• Hence this project work is applied to grind the ginger to get
– fine dry powder
– without losing its characteristics
– Can be stored for longer period of time without adding any preservative
DRAWBACK OF CONVENTIONAL GRINDING
Clogging and gumming of the mill.
Loss of etheric oil.
Oxidation and related degradation.
Loss of aroma
OBJECTIVES
To retain the volatile components of the spices
To obtain maximum yield
To increase the product life
SEQUENCE OF PROCESSES
The spice to be ground is cleaned manually and fed in to the hopper.
From the outlet of the hopper the spice enters in to the vibratory feeder.
It is positioned with a small inclination towards the entry of the helical screw conveyor.
The speed of screw conveyor is reduced through reduction pulley.
Speed of the screw conveyor is 10 rpm for feed rate of 12kg/hr.
The liquid nitrogen is passed through the pre-cooler unit.
The spice is allowed to enter into the grinder after passing through the pre-cooler.
The grinding takes place at the pre-decided temperature in the range of -200°C to -70°C.
Spice gets crushed between the studs and comes out through an optional sieve as a ground
product.
The flow rate of liquid nitrogen is adjusted by the valve in the transfer line.
The powder is collected at chute and the nitrogen vapour is let out.
6
CRYOGENIC GRINDING MACHINE
Note: The cryogenic grinding machine technology is requested by Defense Food Research laboratory,
DRDO, Mysore and Rangarajan Foods, Salem for technology transfer.
7
8
TEA LEAF CUTTING MACHINE
STUDENT NAME: HARISH, MECHANICAL
MENTOR NAME: Prof. S.RAJA
Tea cultivation in India has a long history in application of traditional system of medicine as
well as for consumption.Tea is a major beverage in India. It is considered as the second
cheapest drink after water.
India and China are the largest producers as well as the consumers of tea. 70% of tea produced
in India is consumed in India itself. Tea is grown in places having rain in most of the years
Tea bushes will reach up to thirty feet. This makes the harvesting difficult. In tea farming the
height of the bushes are maintained at a comfortable height for easy plucking of the leaves and
buds
Pruning the plants in comfortable heights regularly train the plants to produce leaves tightly
around the area easily accessible by hand.
Tea manufacturing is done by processing tea leaves. The tea leaves plucked from the plant and
taken to the factory where it is processed.
For good quality tea only the buds are to be plucked and processed. The shortage of labour and
the increase in wages made the management to think of an alternate method of harvesting the
leaves
Tea leaf harvesting is mainly done by the plucking of leaves manually. An experienced person
can pluck 40 kg per day, by using cutting scissors it can be up to 90 kg. Tea leaf cutting
machine is having double efficiency, it can pluck up to 180 kg per day
The machine operation is very simple and can be handled by a single person. Since India is one
of the major producers of tea in the world, tea leaves harvesting machine will have an
important role in improving the tea production
A tea leaf harvesting machine is a device used for easy harvesting of tea leaves with minimum
number of labors. Machine is so compact compared to existing models. Tea leaf cutting
machine helps in increasing output rate of tea harvesting with reduced man power
9
PARABOLIC SOLAR COOKER
STUDENT NAME: GAUTHAM KUMAR, MECHNAICAL
MENTOR: Prof. V.K.KRISHNAN
This project is to overcome the growing demand of energy. For our non-renewable sources of
energy are limited, we are trying to use the renewable source to cook.
Anodized aluminium sheet is used to construct a parabolic structure that concentrated the SUN
LIGHT to produce heat energy and this energy is used for cooking.
The sun light falls on the earth, it is transformed into heat by any surface or material, it the
atmosphere, soil, buildings, or even the furniture in front of a window.
This heat also drives the world's weather systems including wind, rain and river flow. Through
photosynthesis, plants also turn solar energy into new growth.
Anodizing is the process of coating a metal with its oxide. The oxide of Aluminium is
extremely hard and corrosion free so it is coated on aluminium to make it durable.
A parabolic concentrator is made in such a way that it could focus the sun light to generate
heat. It is made up of Anodized Aluminium because it is a good reflector, easy to install, low
cost and very much durable.
PARABOLIC SOLAR COOKER
10
FOOD FEEDING ROBOT FOR PHYSICALLY CHALLENGED PERSONS
STUDENT NAME: SIVANADHAM, MECHANICAL
MENTOR: PROF. N.NATARAJAN, ASSOCIATE PROFESSOR
A three degrees of freedom robot designed to feed the food for aged and physically challenged
persons (Specially for handless persons, Soldiers loss their hands in war)
A simple binary controller used to the motors used in the robots.
Leg operated switches are used.
The end effector of the robot designed for handle the spoon and water cans.
The binary switches pressed by leg in an sequence order the robot movement is achieved
Based on the practice of the user the robot scope the food from plate and feed to the user.
FOOD FEEDING ROBOT FOR PHYSICALLY CHALLENGED
PERSONS
11
MILEAGE PROMOTER GEARS (MPG)
Funded by MSME, Government of India, New Delhi, Rs 6.27 lakhs
Student: S.Alagappan, Automobile Engg
Mentor: Dr.A.Nagappan, Principal
For the improvement in fuel efficiency / increasing the mileage and performance, normal gear
system is used in our regular use by changing the gears in a simple ratio. Usually if the gear size is
reduced the torque will be decreased proportionally. But in this project, the torque is trade offbetween
the mileage and speed. This project uses a simple gear transmission kit which drastically improves the
performance, speed and mileage of the vehicle. This saves a huge amount of fuel and provides a
smooth drive. In this project, gears with special transmission system is modified which can be used in
two wheeler vehicles.
The kit increases the mileagein any two wheeler vehicle. It is economic and has many
environmental advantages. Hence the main uniqueness of this innovation is promoting mileage, and
fuel economy using gears with compensating of torque.
Mileage Promotion Gear Mr. S. M. Jamkhandi, Director, MSME
- Centre of Excellence, Indian Institute
of Science, Bangalore,
12
PRODUCTS UNDER PROCESS
VEGETABLE OIL BASED SOLAR STOVE
APPROVED FOR FUNDING FOR Rs6.25 Lakhs BY MSME, GoI, NEW DELHI.
STUDENT NAME: SIVANATHAM
MENTOR: PROF. S.NATARAJAN, ASSOCIATE PROFESSOR
This solar stove designed to placed inside the kitchen
Vegetable oil is used to transfer the heat from roof top unit to stove.
o The stove has three units
o Roof top unit (parabolic reflector)
o Insulated storage unit to hold the heat of the fluid
The stove (A heat exchanger)
This stove works both day and night
The heated oil stored in an insulated container during day time.
The fluid circulated by small electrical pump
13
FREEZE DRYING OF FRUIT TO STORE IT FOR EXTENDED PERIOD OF TIME AT
ROOM TEMPERATURE
NAME OF THE STUDENT : Muhammad Arafath. A, IV/MECHANCAL
MENTOR:Prof. N.RAJAN, Asso.Prof/MECH
Scope of work The vacuum freeze drying method can prolong the storage time and maintain the nutrients of
the easily oxidized materials, food, agricultural products and medicinal drugs.
Therefore, vacuum freeze drying are widely used in the fields, such as agriculture (vacuum
freeze drying of vegetables, melons and fruits), food industry (vacuum package and vacuum
drying of fast food), chemical industry (drying of the powdery chemical agents) and biological
pharmaceutical products (freeze drying of hormones, antibiotics, blood preparations, medicine
for examination, vitamin agents and blood serum.
Project Brief:
It is a method utilizing both vacuum and freeze procedures to allow the moisture to
sublimate under the vacuum state, so as to form dry materials.
The biological and chemical properties of the materials after freeze drying remain the same
and their volume reduce slightly; however, their texture presents a loose and porous state.
Due to the lowered moisture content, the materials are harder to deteriorate by oxidation,
able to inhibit bacteria propagation and convenient for long-term storage.
Objective:
1. To prolong the storage time of the easily oxidized materials, food, agricultural products and
medicinal drugs
2. To maintain the nutrients of the easily oxidized materials, food, agricultural products and
medicinal drugs by vacuum freeze drying method.
What is available in market?
Presently the fruits are available in market in its original form, which has to be preserve
in refrigerated condition where it can be prolonged for few days.
The farmers are finding it difficult to preserve their fruits and to earn money for their
products.
What value it would add to market?
In food processing and agriculture, the vacuum freeze drying technology could prevent the
loss of nutrients in food and maintain good appearances and colors.
Observed under an electron microscope, the cell appearance is intact after drying.
What is the market potential?
Vacuum freeze drying is suitable for processing nutritious dry food due to its
antioxygenation and is able to produce a better quality when used in porous material.
In the drying process, the parameters of condenser temperature, shelf temperature and
chamber pressure are controlled directly, where the shelf temperature control affects the
moisture sublimation rate directly.
14
DEVELOPMENT OF AC AND REFRIGERATION USING EXHAUST HEAT FROM CAR
STUDENT: MITHUN MURALIDHARAN & ASIK SAM
MENTOR: PROF. R. CHANDRASEKAR, ASSISTANT PROFESSOR
Funded by Centre of Excellence, MSME, Indian Institute of Sciences, Bangalore, Rs 1,42,800/-
Vapour compression refrigeration cycle is generallyused to produce cooling effect.
Compressor runs on engine power and consumes around 10% of the total power produced by
Engine.
Large amount of heat, around 60 % is going as waste in exhaust gas.
Produces the cooling effect by utilizing waste heat from exhaust gas.
It is run on the principle of vapour absorption refrigeration cycle.
It uses ammonia (refrigerant) water (absorbent) and hydrogen to accomplish its cooling effect.
Mr. S. M. Jamkhandi, Director, MSME - Centre of Excellence, Indian Institute
of Science, Bangalore,
15
DESIGN AND FABRICATION OF RACE CARS
STUDENTS NAME: GOWTHAM GANDHI & SADDHAM HUSSAIN
MENTOR: T.RAJA, ASSOCIATE PROFESSOR
The focus of this project is to undertake a major redesign of the existing Formula Race cars.
The chassis, suspension, frame, steering system, and the exhaust manifold system were taken
for design in the race cars.
The design parameters for the above components were modified and redesigned so that the
ultimate objective of achieving higher efficiency with enhanced comfort and improved
manoeuvrability were achieved.
The intake and exhaust manifolds were redesigned to ensure maximum power output.
The standard stepped gear transmission was altered and modified to a continuous variable
transmission system to improve the transmission system of the race car.
16
DIESEL ENGINE FUEL WITH CALOPHYLLUM INOPHYLLUM METHYL
RESEARCH WORK OF PROF.R.PRABHAKAR
Research work involves Biodiesel preparation using CalophyllumInophyllum seed with methyl
ester.
Tested the various properties of Bio-diesel which has produced by various catalysts.
The engine performance has to be carried out for different blending ratio for finding the
optimum blending ratio.
Oil extraction machine extracted oil
CalophyllumInophyllum flowers and nearly ripe fruits
CalophyllumInophyllum Seed
17
SPEED BREAKER POWER GENERATION USING HYDRAULIC CIRCUITS
STUDENT NAME: SIVANANDAM
MENTOR: PROF. S.NATARAJAN, ASSOCIATE PROFESSOR
Reciprocating hydraulic pump is attached with the special speed breaker platform.
The vehicle cross the speed breaker the pump pressurise the fluid.
The pressurised fluid stored in the accumulators and rest of the fluids runs the hydraulic motor.
There is no vehicles in the road the accumulators supply the pressurised fluid to the motor.
The motor connected with the generator and the power to be generated.
The application of this idea used in toll gates, school zones etc.
18
DESIGN AND FABRICATION OF SOLAR OPERATED CAR
STUDENT NAME : RISHWANT
MENTOR: J.RABI M.TECH., ASSOCIATE PROFESSOR
Solar Energy being renewable source of energy and having vast potential has been considered
to be an alternate for utilization in the field of automotive sector.
Automobile propulsion is largely based on the conventional fossil fuels which is not only costly
but also fast depleting.
The need for solar power hence has become of utmost importance particularly in the field of
automobiles.
In this project a battery operated car was designed and fabricated in which the battery gets
charged automatically from solar energy through a set of solar panel fixed on the top of the car.
The car thus gets propelled through battery power charged a set of generator connected to the solar
panel.
19
DIESEL ENGINE FUEL WITH HEVEABARASILIENSIS SEED OIL
RESEARCH WORK OF PROF.T.RAJA
Biodiesel preparation using Heveabrasiliensis seed with methyl ester using, Alkali based catalyst:
Sodium hydroxide, Potassium hydroxide, sodium Methoxide, Sodium Peroxide.
Tested the various properties of Bio diesel which has produced by various catalysts.
Optimization of Bio-diesel was made by using various catalysts for HeveaBrasilieisis seed oil.
Biodiesel preparation using Heveabrasiliensis seed with methyl ester using, Alkali based catalyst:
Sodium hydroxide, Potassium hydroxide, sodium Methoxide, Sodium Peroxide.
Optimization of Bio-diesel was made by using various catalysts for HeveaBrasilieisis seed oil.
Performance and Emission characteristics of the HeveaBrasilieisis seed oil using Variable
Compression Ratio of Diesel Engine have been conducted.
Hevea Brasilieisis seed Extraction Process
20
PARALLEL HYBRID VEHICLE
STUDENT NAME: ANAND BABU & MANUEAL SHAJI
MENTOR: Prof .T.RAJA
In the future, the trends of global trade and manufacturing will continue in automobile. The
next generation of automobile would be all electric. The experts say may soon move away from all
gasoline and diesel powered engines. In the future vehicles themselves are incorporating more electric
technologies instead of belts and carburettors of the past.
The hybrid vehicles consist of hybrid system of power generation. The hybrid system are classified
into two classes i.e. series hybrid system and parallel hybrid system. By using a hybrid system to
achieve the revolutionary improvement in fuel economy such as highly efficient engine, improved
engine, operating range, and engine shut off system, regeneration and reuse of braking energy,
achieving smooth acceleration and deceleration. The last decade has witnessed rapid technological
advancements in hybrid vehicles, thereby improving their efficiency, and the volatile oil prices have
also contributed towards a change of mindset, with more and more motorists opting for the fuel
efficient and eco-friendly vehicles. Our project deals with making a parallel hybrid two wheeler which
is a combination of electric hub motor and a two stroke spark ignition engine. Which will helps to
increase the efficiency as well as the power of the vehicle .
Fuel to electrical mode Switch off setup in Hybrid
Scooter
Hybrid Scooter
21
MoUs AND OUTCOMES
Name of the Industry
/ Institution
Academic co-operations,
Collaborations
Progression Mechanism of review Assessment of outcomes
Infosys, Chennai Imparting Industrial
Electives in curriculum, Webinars
Students updating their
knowledge to the Industry
level as well as in
foundation level
Review through
assignments, online test
and University
examinations
1. Rate of success is high in
the University Examinations.
2. Merit certificate from
Industry
3. Good placement in IT and
ITES companies.
Bosch, Chennai Imparting Industrial training
in Auto electric components
Obtaining industrial skills
on Auto electric
components
Review through
Industrial internship
Good placements in
Automobile companies
DFRL, Mysore Collaboration with DFRL
and Dept of EEE for
developing high frequency
induction heater.
Product developed and
tested in electrical lab and
proved the maximum
efficiency
Scientists from DFRL
have
Continuous interaction
with the students and
teachers in product
design
Product delivered to DFRL
MSME-CoE, IISc,
Bangalore
Collaboration for “Support
for Entrepreneurial and
Managerial Development of
SMEs through Incubators”
Product developed and
tested
Continuous review
meeting with professors
of IISc, Bangalore
Developing Entrepreneurs and
commercialization of products
MSME, GoI, New
Delhi
Collaboration for “Support
for Entrepreneurial and
Managerial Development of
SMEs through Incubators”
Product developed and
tested
Continuous review
meeting with Local
Management Committee
Developing Entrepreneurs and
commercialization of products
22
ONGOING FUNDED PROJECTS
S.
N
o.
Funding Agency Project Title
Total
Cost
in Rs.
Lakhs
Date of
Submissio
n
Status
Principal
Investigato
r
1
Micro, Small and
Medium
Enterprises, GoI,
NewDelhi
Mileage Promoter Gears
(MPG) 6.2
19.12.201
5 Ongoing
Mr.S.
Alagappan
2
Micro, Small and
Medium
Enterprises, GoI,
NewDelhi
Design and fabrication of
Leg holder for supporting
Rural woman in labor
process
5.1 19.12.201
5 Ongoing
Mr. Hari
KrishnaK.S
3
Micro, Small and
Medium
Enterprises, GoI,
NewDelhi
Cryogenic Grinding with
Unalterd Qualities of the
Spices – Ginger
6.25 19.12.201
5 Ongoing
Mr. V.
Suhandan
4
Micro, Small and
Medium
Enterprises, Indial
Institute of Science,
Bangalore.
Development of AC and
Refrigeration using
exhaust heat from 4
stroke engine
1.42 19.12.201
5 Ongoing
Mr. Mithun
muralithara
n
Mr. Ashik
Sam
23
FUNDED AND COMPLETED PROJECTS
S.
No.
Title of the Project Name of the
Student
Mentor Fundin
g
Agency
Amoun
t in Rs.
Status
1 Design and
fabrication of
vacuum freezer
drying equipment
for rice
Rizwan Kabeer,
Vishnu R, Nath,
Arjun Kottangal, S.
Shammer
Prof. N.
Rajan, HoD
DST 1,50,00
0
Complet
ed
2 Solar Powered
Pump
Kenny K. George,
Arun Unnithan,
Jasser M. J, Sreejith
S Nair
Prof. N.
Rajan, HoD ISSRD 15,000
Complet
ed
PUBLICATIONS
International Publications : 52
Scopus : 29
EBSCO host : 20
Index Copernicus : 3
Web of Science : 3
Citation Index – range / average : 1-26/14.8
SNIP : 0.066-3.109
SJR : 0.106-3.12
Impact Factor – range / average : 0.12-6.798 / 2.43
h-index (Scopus) : 2
h-index (Google) : 3
24
COLLABORATION WITH INDUSTRIES/RESEARCH LABORATORIES
Defence Food Research Laboratory, DRDO, Mysore
IISC-MSME-COE, Indian Institute of Science, Bangalore
Indian Institute of Food Processing Technology, Thanjore
Rengarajan Foods, Salem
BOSCH, Chennai
Society of Automotive Engineers, Chennai
TRIDENT HYUNDAI, Bangalore (Training and Placement)
25
26
27
PATENTS FILED
Sl. No.
Name of the
faculty
member
Patent Filed Details
1. Mr. Alagappan
IV Year , Automobile
Repulsive Magnetic Motor
(RMM)
Docket No. 21118
Reg.No.
3363/CME/2015
CBR No. 13480
2. Mr. Alagappan
IV Year , Automobile Automotive Fuel Limiter (AFL)
Docket No. 20839
Reg.No.
3323/CHE/2015 CBR
No. 13275
3.
Mr. Alagappan
IV Year ,
Automobile
Automatic E-Bike recharger
(AE-BR)
Docket No. 20840
Reg.No.
3324/CHE/2015 CBR
No. 13276
4. Mr. Alagappan
V Year Automobile Magnetic Fuel Promoter (MFP)
Docket No. 21113
Reg.No.
3356/CHE/2015
5. Mr. Alagappan
IV Year , Automobile Mileage Promoter Gears (MPG)
Docket No. 21117
Reg.No.
3362/CHE/2015
6. Prof.N.Rajan
Cryogenic Grinding with
Unaltered Qualities of the
Spices-Ginger
Docket No. 21124
Reg.No.
3364/CHE/2015 CBR
No. 13482
7. Prof.S.Natarajan
Generation of Power from
Speed Breakers by using a
Hydraulic Circuit
Reg.No.
4286/CHE/2015 CBR
No. 17352
8. Dr.K.G. Muthurajan
Senior Professor
Compression and inter
fragmentary displacement
testing equipment
Docket No.33695
CBR No.21842
E2/3022/2015-CHE
9 Dr.K.G. Muthurajan
Senior Professor
Pit type induction powered
mega stove
Docket No. 12020
CBR No.7271
E2/1156/2016-CHE
28
ON GOING RESEARCH BY STAFF
STAFF :S.ARUNKUMAR
AREA OF RESEARCH :METAL MATRIX COMPOSITE
Title: Structural characterisation of nano-crystalline NiTi elemental powders formed by
mechanical alloying process
In the present work, the effect of milling time (0, 5, 10, 15 and 20 h) of mechanical alloying
method was investigated on structural characteristics, chemical compositions and microhardness of
Nickel Titanium elemental powder at equal weight atomic condition. The powder morphology and
reduction of crystalline size with increasing milling time was ensured by scanning electron microscopy
(SEM)as well as distribution of particle size at each level of milling was evaluated using particle size
analysis (PSA). At the initial stages (0 and 5 hr), the lamellar structure was perceived further nano-
crystalline size reduction was occurred at the final stage (20hr) of milling. The space between the
lamella structures reduces with milling time further formation of granular shape revealed in SEM
analysis.The presented phases and structural characteristics of milled powders were assessed through
X-ray diffraction analysis. Influence of milling time on hardness of NiTi pellets that prepared by
compacting was evaluated using Vickers hardness analysis. The linear increment of hardness was
observed with increasing milling time that produces nano-crystalline materials. According to the
results, nano-crystalline NiTi elements were formed at higher milling time which leads to increase the
hardness and formation of slenderer particles.
29
STAFF :C.THANGAVEL
AREA OF RESEARCH : ENGINEERING DESIGN
Title: Design and development smart wing for commercial and military aircraft
Nowadays, smart structure plays an important role in flying vehicles. In military aircrafts need
to be quick operations like lifting, yawing and rolling. In commercial aircraft when it fly very long
distance, which covers various atmospheric conditions like temperature, pressure, humidity, etc.. Due
this variation of atmospheric condition the materials are affected in the vehicle structure. To avoid the
stress generated due to variation of atmospheric condition the structure of aircraft may be smart
materials are used shape memory materials and shape memory alloys. In any aircraft control surfaces
are plays an important role when it fly. In the current technology provides only jointed moveable parts
like flops, winglets, slots and rudder. Which are all increase the drag force. Due to increasing drag
force the total operating costs are increases, quick response may be low and less human comfort
(vibration and noise). To increase the human comfort, safety and reduce the operating by reduce drag
force; we may go for integrated movable parts by using smart materials and smart structures.
30
STAFF :R.JAYARAMAN & J.RABI
AREA OF RESEARCH : FRICTION STIR WELDING
Title: Friction stir processing
Friction stir processing is a variation of friction stir welding was invented in the year 1994 by
TWI,U.K. Since then technology has been developed and researched for processing of various low
melting alloys like aluminium ,magnesium.
The concept is used for successful processing automobile ,marine ,aeronautical and space application .
The work has been completed by utilizing FSW machines .The work has been published in
International journal.
This area of the research has been identified since there was wide scope in the application of
technology .Friction stir processing is especially used for surface modification of alloys so that is
usage in industrial application is enhanced.
31
STAFF :Prof.N.RAJAN
Investigation of Machining Parameters on Anisotropic Structure of the Metal Matrix
Composites Al7075 through Electro Chemical Machining
AREA OF RESEARCH :ELECTRO CHEMICAL MACHING
Electrochemical Machining has wide application in the specialized fields such as aerospace and
defense industries. Aluminum 7075 composite is considered in this study because it finds applications
in die and mould making industries for making prototype models. In this research the machining of the
Al 7075, blind holes were drilled on plain surface (i.e. X – Direction) and on the side surface (i.e. Y –
Direction) using the ECM has been studied. Initially the Al 7075 composite was machined by varying
the parameters like the concentration of the electrolyte (Na NO3) at room temperature, machine input
voltage and the machine duty cycle and the frequency of the machine was kept at a constant value of
50 Hz. Then again the Al 7075 composite was machined by varying the machine input voltage,
machine duty cycle and concentration of electrolyte (Na No3+ concentrated H2SO4) and a constant
machine frequency of 50Hz. Also an indirect method of heating the electrolyte by using Infra Red light
source was used to improve the machinability. The blind holes were drilled in Aluminum 7075 by both
the experimental setups. Then blind holes were scanned in the Scanning Electron Microscope (SEM)
and the images were analyzed. The effect of the machining parameters on the depth of the blind hole
and the respective surface finish was studied. After comparing both the experiment results it is evident
that the influence of Infra Red light on heating the electrolyte and addition of concentrated H2SO4
shows better machining rate which is nearly 2 times better than the electrolyte at room temperature. It
is also evident that in both the experimental study high value of machining voltage and high
concentration of electrolyte had better machining rate. It is evident from both the experimental study
that the reinforcements are distributed evenly in both the horizontal and vertical direction that the
depth of the blind hole is varying from minimum to maximum in both the directions of the composite
al 7075. The SEM images after comparison both the experimental results the surface finishing is better
with the heated electrolyte. It is evident from the results that use of addition of concentrated H2SO4 and
Infra Red light to heat the electrolyte for better machining rate in electro chemical machining.
32
STAFF :Prof.S.DURAITHILAGAR
Development of Models and Algorithms for Functional Integration in Supply
Chain
AREA OF RESEARCH : INDUSTRIAL ENGINEERING
As more and more companies improve their internal and external processes and relationship they
are turning to Supply Chain Management (SCM) to get the next breakthroughs in performance. Supply
chain management (SCM) is a strategy through which distribution and manufacturing integration can
be achieved. The various functions of SCM, procurement is very critical to the organization, which
determines the lead time in launching the product to the market. Product acquisition, vendor
evaluation, vendor selection, order quantity allocation, product discounts are the important issues
effect procurement for the uninterrupted downstream flow of material and information in supply chain.
Scope of SCM
1. The conclusion can be made that procurement is a strategic function that had gained lot of
importance.
2. The impact of strategic procurement on SCM has not been investigated.
3. The model for logistics network optimization in the allocation of vendor in two stage network
with the consideration of multi-criteria is a potential piece of problem to be investigated.
Objectives for the Research
4. To develop a conceptual framework for evaluation and selection of vendor with the consideration
of time horizon and integration issues.
5. To develop a unified methodology for evaluation and selection of vendor with the consideration of
product ranking according to profitability.
6. To develop a unified methodology for evaluation and selection of vendor with the consideration of
product ranking according to profitability and customer expectations.
7. To develop a model for order quantity allocation of vendor to multiple manufacturing plants with
multiple products considering multiple-criteria.
8. To develop a model for allocation of vendor with the consideration of multiple criteria in a two
stage logistics network.
33
STAFF :Dr.S.VENKATESAN
AREA OF RESEARCH :FRICTION STIR WELDING
The existing planning machine in the machine shop was converted as a Friction stir welding
(FSW) machine and is utilized for welding of low melting alloys such as Aluminium and Magnesium
alloys. Since a lot of research work is currently undertaken in FSW, I was adopted the planning
machine for this purpose which is a cost effective alternative. A total of 9 UG and 2 PG level projects
were successfully done using this facility. The experimental results from these projects have been
converted into research papers in international journals. The quality of the weld achieved through this
machine was comparable to what can be done by the conventional FSW machines. A total of 3 nos. of
research papers were published based on the welding done through this facility. Moreover the facility
can be utilized for Ph.D work by outsider on payment basis. A demo was done in front of Prof. Dr. V.
BALASUBRAMANIAN, Director, Centre for Materials Joining Research Laboratory (CEMAJOR),
Annamalai University who had appreciated the effort and also gave suggestions for future
improvement that can be done and adopted to successfully weld plates having higher thickness. This
facility can be considered as a precursor to advances research facilities that may be incorporated in the
future.
34
STAFF :Prof. R.ANANDAN
AREA OF RESEARCH :FRICTION STIR WELDING
Effect of Post Weld Heat Treatment, Tool Rotational Speed And Pin
Profile On Metallurgical And Mechanical Properties of Friction Stir
Welded Aluminium Alloy Joints
Literature review revealed that, the friction stir tool rotational speed and the profile of pin have
large influence on the metallurgical and mechanical properties of friction stir welded metals and metal
matrix Welded joints. Further literature also reported that the post welded heat treatment has
considerable influence on the mechanical properties in general and tensile strength properties in
particular of friction stir welded metal and metal matrix joints. The influence of above mentioned
parameters are separately reported in the literature. An attempt is made in this paper to study the
overall influence of post weld heat treatment, tool rotational speed and pin profile on the metallurgical
and mechanical properties of stir welded metal and metal matrix joints. A specific case of friction stir
welded AA6061 aluminum alloy joints were considered for above studies. Hot rolled plates of 6-mm
thick of above aluminium alloy was chosen and the friction stir welded joints were fabricated. Three
tool rotational speeds of 600 rpm, 950 rpm and 1300 rpm, and five different tool pin profiles of straight
square (SS), straight hexagon (SH), straight octagon (SO), tapered square (TS), and tapered octagon
(TO) were selected for the study. The post weld heat treatment consists of solution treatment, artificial
aging treatment and a combination of both. Microstructures of the welded joints were analyzed using
optical microscopy and transmission electron microscopy. Three different regions namely unmixed
region, mechanically mixed region and mixed flow region were observed in the weld zone. Further the
tensile properties such as yield strength, tensile strength, elongation and joint efficiency were
evaluated. The above experiments were conducted for each pin profile (5 profiles) and for each tool
rotation speed (3 speeds). It has been concluded that a simple artificial aging treatment was found to be
more beneficial than other treatment methods to enhance the tensile properties (210 MPa – Table 2) of
the friction stir-welded AA6061 aluminum alloy joints. Further the tool rotational speed and pin
profile considerably influenced the microstructure and tensile strength of the joints. The joint which
was fabricated using tool rotational speed of 950 rpm and straight square pin profile yielded highest
tensile strength of 273 MPa.
35
STAFF :Prof.S.NATARAJAN
AREA OF RESEARCH :ROBOTICS
GEOMETRICAL DESIGN AND EXPERIMENTAL INVESTIGATION OF
UNDERACTUATED ROBOTIC HAND FOR MOTION AND GRASP FORCE
AUGMENTATION
In usual practice complex tasks like grasping irregular objects are easy for human beings, but it
is very difficult for robotic grasping. Through the adaptive nature of fingers, it can impart correct
contact forces so that problem of material damage is cleared from the root. Thus, the need for versatile
gripper is indeed necessary to create an adaptable grasping tool. This adaptive strategy promises the
wide range of grasping and effective contact force to the object. The term underactuation means ‘the
number of actuators, less than the degrees of freedom’. Unique characteristics of underactuated gripper
are that it can adjust depending on the shape and size of the objects. Practically underactuation
technique is difficult to apply as it requires more external force and torque for its mechanical system.
In order to eradicate this difficulty various researches are going on in the field of kinematics,
transmission capability, parallelogram mechanism, etc. It has some disadvantages like complicated
kinematic, less workspace and motion constraints. An important area in which research work is
moving ahead is the relationship between input torque exerted by the finger and output contact force
exerted on the phalanges. Problem towards the grasping of unshaped objects in unstructured
environments creates stress among all researchers. The solution for this can be developed by creating
versatile hand, which adapts to irregular shapes. It has totally 12 degrees of freedom actuated by single
actuator. The 9 degrees of freedom from three fingers, each finger has 3 degrees of freedom and rest
three degrees of freedom for the orientation of the fingers. Here an underactuated gripper is designed
with scaled up of 1.5 times of an average human hand. Pending patent covers the adaptive nature of
fingers and the reconfiguration ability. It is used on unstructured environments with different size and
shapes. The advancement of this research includes the addition of tactile sensors for the development
and control of the grippers for industrial and space application.
PUBLICATION
1. Natarajan, S, Jegan, A & Vivekananthan, R 2016, ‘Grasp force analysis of an underactuated
robotic finger’, Journal of International Journal of Printing, Packaging and Allied Sciences, vol.
4, no. 6, pp.4827- 4835.
36
STAFF : Prof.G.NAGARAJAN
AREA OF RESEARCH: MANUFACTURING
The focus area has been analyzed in depth and to be presented to our college
centre of excellence and further of work proceeding with valuable research
equipments of the centre.
Exhaustive materials have been collected and studied in the field of my
research work. The various parameters were studied in detail. The collected
backs volumes are related to the research topic are being reviewed to enhance
the research work.
Literature review is carried out and the relevant research papers from various
journals are consolidated on the basis of priori ty of importance, preliminary
works were framed. Preparation of research paper work is under progress to
based on centre of excellence support to publish the article in International
Journals.
37
STAFF: Prof. M.SARAVANAN
AREA OF RESEARCH : DESIGN
TITLE : PERFORMANCE ENHANCEMENT OF VERTICAL AXIS WIND
TURBINE AND SIMULATION ANALYSIS
SOLID WORKS software in the CAD lab has been used for modelling of wind turbine
aerofoil. By changing blade angle structural analysis was done by using ANSYS software. Another
analysis was done by change of materials. GFRP material has been used in the place of steel and both
the results have been compared by using ANSYS. Here the modelling of wind blade for both steel and
GFRP material was created by CAD modelling software SOLIDWORKS. The analysis results have
been converted into research papers in international journals. A total of 2 nos of research papers were
published in international journal.
38
STAFF :Prof. R.VENKATESH
AREA OF RESEARCH : AUTOMOBILE ENGINERRING
EFFECT OF THERMAL BARRIER COATINGS ON PISTON IN DIESEL ENGINE USING
BIO-FUEL
Biodiesel is a clean burning alternative fuel, produced from domestically grown, renewable resources.
Biodiesel contains no petroleum products, but can be blended at any concentration diesel from fossil
sources to create a biodiesel blend. It can be used in compression-ignition (diesel) engines with little or
no modification. Biodiesel is simple to use, biodegradable, nontoxic, and basically free of sulphur
compounds and aromatics.
The effect of thermal barrier coatings on performance and emission characteristics of a single cylinder
DI diesel engine by using various blends of biodiesel. To compare performance of engine with
thermally insulated piston and without insulated piston. Thermal barrier coatings can eliminate visible
smoke inhibit the formation of Nox.
Reduce CO and particulate emission and improve the combustion efficiency.Due to depletion of
petroleum resources and stringent regulations for diesel engine emission norms, there is an interest in
developments of possible alternative sources for conventional fuels. Methanol used for
transesterification process, to produce biodiesel.Optimization of production of biodiesel will be done.
Different blended biodiesel ratio used to conduct engine performance test at different speed and engine
load conditions for improving the performance and emission characteristics of the engine.
39
STAFF :Prof. V.K.KRISHNAN
AREA OF RESEARCH: RENEWABLE ENREGY
TITLE : SOLAR COOKER
Cooking food is fundamental to nearly every society and this requires the spending of
energy in some form. Due to the crisis of natural gases and other fossil fuels world wide, solar energy
can be n alternate solution which could be coupled to some other energy sources to meet this need
without causing the harmful effects to environment and health associated with other fuels.
The efficiency of the solar collector plays a vital role in harvesting the free energy
effectively, meanwhile the cooking vessels also play a major role in utilizing the heat energy to cook
the food efficiently.
In this research work, the solar energy has been utilized for cooking various food items from
morning to evening of three different sunny days .A parabolic solar collector is designed in such a way
that it observes the maximum heat energy from the sun as possible through a manual tracking
mechanism.
Heat transfer studies on empty vessel wear also performed for the prediction of enhancement
in the temperature of the vessel walls. Thus this research work provides ample opportunity to top the
renewable energy source-solar energy and also helps in savings of a considerable amount of fuel as
well as highly economical to the society.
This research work is very useful for wide scope of future research hence included in the
centre of Excellence of department of mechanical engineering.
40
STAFF: Prof. P.SELLAMUTHU
AREA OF RESEARCH : HEAT TRANSFER
TITLE: Analysis of a wet cooling tower coupled with a desalination plant for fresh water yield
The scarcity of clean water resources and the need for supplementary water supplies is already
significant in many arid regions of the world and will be increasingly vital in the future. Many arid
areas simply do not have fresh water resources in the form of surface water such as lakes, ponds and
rivers. They may have only limited underground water resources; some are becoming more briny as
extraction of water from the aquifers continues. It is estimated that some 35% of the world’s irrigated
areas suffer from salinity problems and remediation is seen to be extremely costly. A desalination plant
is coupled with wet-cooling tower to utilize the water vapour (plume) from the top of cooling tower for
the fresh water yield by a designed water cooled condenser. From the cooling towers, lot of plume
carries heat energy is wasted and an idea behind this research focuses on diverting the plume to a
condenser through the ducts. The water vapour is condensed by the condenser,and then the fresh water
is pumped out with help of a positive displacement pump. A theoretical analysis is made by mass,
energy equations considering desalination system with the cooling tower to get fresh water yield. The
important parameters which affect the performance of the plant such as condenser flow rate, condenser
temperature, water vapour flow rate, water vapour temperature, cooling load, mass flowrate of water
and air, range and effectiveness through the tower have been considered to find out the maximum fresh
water yield (lps). The theoretical results have been validated with the experimental results available in
literatures. In this paper, a detailed design of a condenser and a theoretical analysis of the desalination
plant coupled with cooling tower to get fresh water is presented. With help of the results from analysis,
the power plant having cooling towers with the capacity 330 MW and 840 MW coupled with
desalination plant were analyzed
41
STAFF: Prof. J.SATHEES BABU
AREA OF RESEARCH :METAL MATRIX COMPOSITES
Title: Nano particle reinforced MMCs in Automotive Applications
• Nano particle reinforced metal matrix c composites plays major role in large
variety of applications for their high specific strength and anti friction
capabilities.
• The present thesis work describes the development and characterization of a
hybrid meta matrix composite material reinforced with nano particls in various
compositions. Developed composite material was subjected to tensile test,
flexural test, surface roughness test and impact test test for study the performance
characteristics to select the best composition of nano particles for automobile
components.