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Pacific Education Trust, Ahmadabad
Pacific School of Engineering, Sanki- Surat (Approved by AICTE New Delhi, Affiliated to GTU, Ahmedabad)
At Sanki, Ta. Palsana, Surat-394305, Gujarat
Tel: 02622 291552 T&P cell Mobile: +919904408978
Website: www.pacific-soe.ac.in; Email: [email protected]
Report on
Project Fair Date: 22rd April 2016
Index
Sr.
No. Contents
Page
No.
1
About Institute – Purpose – Impact – Prize Distribution – Media coverage
1
2 Department of Chemical Engineering………………………………….. Introduction – Evaluation committee – Best three project – Reviews
3
3 Department of Computer Engineering…………………………………. Introduction – Evaluation committee – Best three project – Reviews
9
4 Department of Electrical Engineering………………………………….. Introduction – Evaluation committee – Best three project – Reviews
12
5 Department of Civil Engineering……………………………………….. Introduction – Evaluation committee – Best three project – Reviews
16
6 Department of Mechanical Engineering……………………………….. Introduction – Evaluation committee – Best three project – Reviews
21
7 Photo Gallery…………………………………………………………….. 26
1
ABOUT INSTITUE:
Pacific School of Engineering, Sanki-Surat (PSE) is established in 2012 with the vision of
producing committed technocrats with vital sense of moral and ethical values. The Pacific
Group has well recognized number of technical and non technical establishments including
Pacific Academy of Higher Education & Research University (PAHER). The group of
institutes are serving the society in diversified fields like Medical, Dental, Engineering,
Commerce, Management, Vocational studies and Research with more than 115 courses and
18,000 students, both from rural and urban sector. PSE is not only to provide higher degree of
quality education but also present the potential youth in the world of engineering by
`organizing various seminars, workshops expert lectures, technical festivals etc.
PREFACE:
A Project Fair is organised by various departments of Pacific School of Engineering, Surat on
22nd
April 2016. The project fair is a great way to get students excited about the scientific
process and thinking like young scientists. Various guests from industries and academia were
invited not only to evaluate projects but also interact and guide students for enhancement of
knowledge. Hands-on exploration of interaction was exciting and the educational benefits are
plentiful as students develop their skills in problem-solving and creative thinking.
PURPOSE:
The main motive of project fair is to provide a platform to students where they can
demonstrate their ideas to guests from various industries, faculty members and students.
The other purpose of project fair was to give the exposure of final year projects to 3rd
year
students so they can primarily ideate their area for project work.
IMPACT:
The 3rd
year students got the glimpse of project done by their seniors and also understand
the problem statement, efforts made in getting an IDP problem, approach taken in solving
the UDP problem, methodology of work, steps involves in solution of challenges, hurdles
they and methods chosen to overcome hurdles, work division, etc. whatever they. Overall
3rd
year students get idea and start thinking for their project in upcoming semester.
Project fair had given a chance for industry institute interactions. Industry persons gave
their views and suggestions and show the readiness for support the projects. The project
fair also provided unique chance to company to check the capabilities of final year
students and select the students as per suitability.
2
MEDIA COVERAGE
3
1. Department of Chemical Engineering
SECTION - 1. INTRODUCTION
Number of projects: 11 & Number of students: 40
In the CHED project fair, students had prepared their project on various topics of Chemical
Engineering like Waste water treatment, solar desalination, modelling & simulation based.
Almost all the fields of Chemical engineering have been covered many new innovative
Process and methodology in project fair.
Evaluation Committee
Head of Department: Prof. Piyush I. Modi, CHED, Pacific School of Engineering, Surat.
Guest from Industry: Dr. Krunal Shah, Asso. Research Scientist, Aether Industries Ltd, Surat.
Guest from Institute: Dr. Darshak Bhatt, Research Asso. ChED, SVNIT, Surat.
Project Coordinator: Prof. Miral R. Thakker CHED, Pacific School of Engineering, Surat.
Prof. Ashish D. Modi, CHED, Pacific School of Engineering, Surat.
SECTION - 2. TOP THREE PROJECTS
Rank
No
Project Title Enroll. No. Team Members
1 Modification of Sulphamic
Acid Manufacturing Process 121120105051 Movaliya Dhavalkumar Vinubhai
121120105022 Patel Falgunkumar Dilipbhai
121120105050 Navadiya Khushal Ramjibhai
2 Modification Manufacturing
Process of Rhodamine B 121120105031 Kotadiya Mayank Jagdishbhai
121120105003 Miyani Dharmendra Bhupatbhai
121120105008 Hirapara Dhrumit Bhupatbhai
3 Solar Water Desalination 121120105015 Chudasama Muru Maganbhai
121120105030 Joshi Vishalkumar Sharadkumar
121120105044 Malvi Nitin Vinodkumar
131123105001 Panchal Harsh Manishbhai
3 Textile Wastewater Treatment
Using Membrane Bioreactor 121120105020 Kaila Dharaben Manojbhai
121120105021 Patel Anjali Tarunkumar
4
First Winner
Title: Modification of Sulphamic Acid Manufacturing Process Students: Navadiya Khushal R. (121120105050)
Patel Falgun D. (121120105022)
Movaliya Dhaval V. (121120105051)
Guide: Prof. Piyush Modi
[a]Purpose/Aim
In manufactures the sulphamic acid during the process scrubber through SO3 gas liberate the
atmosphere. So these SO3 undesirable gases are reducing. The SO3 gas is hazards and it is
pollute the atmosphere. In this project we can solve the possible solution then apply to the
plant scale.
[b] Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives.
In mfg. Of sulphamic acid SO3 gas are pass through the scrubber. In scrubber NaOH
catalyst are use and some amount of SO3 react with the catalyst end of last remain gas
is pass through stake in atmosphere. So we can change the catalysts in these mfg of
sulphamic acid.
[c] Utility/Commercialization Scope / Innovation / Originality /Value
We have learned that the how can reduce the librated SO3 gas because of that’s hazards for living organisms. Using sodium bicarbonate (NaHCO3) in scrubber and
reduce the SO3 gas. At the end of the project we can conclude the sulphamic acid is
most useful in descaling process in industries.
[e] Project Picture/Diagram
Second Winner
Title: Modification Manufacturing Process of Rhodamine B Students:
Kotadiya Mayank Jagdishbhai (121120105031)
Miyani Dharmendra Bhupatbhai (121120105003)
Hirapara Dhrumit Bhupatbhai (121120105008)
Guide : Prof. Dr. R.S. Waghmare
5
Rhodamine B is a Cationic Xanthene Dye, Florescent Dye or Nylon Dye. It colour is Pink.
This Dye is containing Substitution Ketone and Nitro group. Solubility in water is 1mg/ml.
Rhodamine dyes are used extensively in biotechnology applications such as fluorescence
microscopy, fluorescence correlation spectroscopy, paper industry, Ink manufacturing
industry. Manufacturing Reaction of Rhodamine B is between Di Ethyl Amino Phenol and
phthalic anhydride. We have study about manufacturing process parameter of Rhodamine B
for Improving the Yield and Reducing Excess amount of phthalic anhydride.
Keyword:
Di Ethyl Amino Phenol, Phthalic Anhydride, Electrophilic Substitution, catalyst;
sulfuric acid Hydrochloric Acid, Sodium Hydroxide.
AIM: To improve the yield manufacturing process of Rhodamine B.
To remove the excess amount of Phthalic anhydride.
ON
CH3
CH3
N+
CH3
CH3
O
OH
Cl
Rhodamine-B
PROBLEAM DEFINING:
In the batch processes for manufacturing of Rhodamine, the phthalic anhydride is required in
an amount corresponding to about 200 - 250 moles% of the theoretical amount for
manufacturing. The excess phthalic anhydride used can be removed by a Sodium Hydroxide
solution. However, the separation of the phthalic anhydride into the slurry is very inexpedient
and 6 hours are required for its complete removal.
PROBLEM SOLUTION:
Step-I: -
According to the manufacturing process of the present condition,it is not specific limitation
on the organic solvent used in the present manufacturing reaction but it is not commonly
soluble in water and is an organic solvent having a boiling point of about 165 °C or above.
Desired examples include o-dichlorobenzene, m-dichlorobenzene, p-dichlorobenzene,
dichlorotoluene, trichlorobenzene, trichlorotoluene, iodobenzene, o-dibromobenzene, p-
cymene, isobutylbenzene, secbutylbenzene, nonylbenzene, octylbenzene, 1 -decene, decane,
etc. The above organic solvents may be used singly or in mixtures of two or more. But this
type of manufacturing cost is very high.
Step-II: -
According to Simulation of kinetic and temperature data, Maintain the temperature of the
reactor. Shown the fig. below temperature is change with respect to mass of DEMAP per
time. Then heat of reaction is zero. The reaction is neither exothermic nor endothermic. We
had made simulation excel data sheet.
6
Time / Mass
Step-III: Phthalic anhydride is charged in first closed and nitrogen gas pressure S.S. Jacketed reactor
and melted at the temperature 130.8oC.Di ethyl meta amino phenol (DEMAP) is charged in
second closed and nitrogen gas pressure S.S. Jacketed reactor and melted at the temperature
80oC.Then, In the another closed and nitrogen gas pressure S.S. Jacketed reactor the Di ethyl
meta amino phenol (DEMAP) and Phthalic anhydrideare mixed at this time the reaction
become endothermic and exothermic.
Water HCl
NaO
H
Water
1
1
1
19
8
7
6 5
4
3
2 1 Melting Vessel of
(DEMAP)
Melting Vessel of
(PAN)
S.S REACTOR
WITH JACKETED
M.S. OPEN
REACTOR
NUTCH
OPEN RUBBER
LIN. REACTOR
CENTRIFUGE
TRYEE DRYER
T
e
m
p
7
Third Winner
Title: Textile Wastewater Treatment Using Membrane Bioreactor Students: Kaila Dhara M. (121120105020)
Patel Anjali T. (121120105021)
Guide: Prof. Ashish Modi
[a]Purpose/Aim The control of water pollution has become of increasing importance in recent years. Regulators are
looking for toxicity due to high salt content, biochemical oxygen demand (BOD), chemical oxygen
demand (COD), heavy metals, and colour of the effluent. The textile industry (unitydyechem pvt.
Ltd.) uses a large quantity of chemicals and huge quantities of water and as a result generates large
quantities of effluent. Tightening government legislation is forcing textile industries to treat their
waste effluent to an increasingly high standard. Currently, textile effluent is being treated using
physico-chemical methods. Such methods are often very costly and although the pollutants are
removed, accumulation of concentrated sludge creates a disposal problem. Very little work has been
done for textile effluent treatment using MBR especially in India. Ultrafiltration –hollow fiber
membrane module has been selected for submerged membrane bioreactor (SMBR). Using the dual
technique of backflushing –chemical cleaning and providing cylindrical cage with wire mesh, fouling
is prevented to maintain constant flux. Synthetic textile wastewater treatment using SMBR at different
HRTs & SRTs gave an excellent organic removal and colour removal efficiency independently of the
F/M ratio and organic loading rate.
[b]Design/Methodology/Approach
In this Project we have compared some techniques like, conventional technique
(Activated sludge process) and Novel technique like (Membrane Bioreactor) for
textile wastewater treatment.
During the operation time of the SMBR treating textile wastewater, the removal of
pollutant was satisfactory. The SMBR may be recommended for application in real
textile wastewater treatment plants subjected to variable concentration of COD, BOD
and colour, after such kind of labscale treatability studies.
[c]Future scope:-
Performance of SMBR can be evaluated treating real textile wastewater from dyeing
industry or Common Effluent Treatment Plant (CETP). Performance to be appraised with
reference to fouling propensity and removal of organics, colour, TSS, turbidity, conductivity.
Cost analysis also to be made for SMBR applications in textile wastewater treatment. Study
of cost relevant parameters includes membrane cost (fixed, installation, replacement),
nonmembrane cost (mechanical/electrical items, control equipments), total energy
consumption (membrane aeration, permeate suction, backflush) and cleaning cost. This will
be helpful to provide useful information for potential customer.
[e] Project Picture/Diagram
8
SECTION - 3. REVIEWS
[1]. Great effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Technical heads from industries visit this
fair and appreciate student and also give feedback that “some of the student ideas are
practically applicable for industries”.
Dr. Darshak Bhatt
[2]. It is the innovative experiment that this type of arrangement must be there in each
colleges so that 1st, 2
nd & 3
rd year students are encouraged to have such type of different ideas
or thought in their mind and try to think as well as implement on it. This type of activity must
be there at the end of 7th
& 8th
semester before they are going for external project exam. The
project fair was well organised.
Dr. Krunal Shah
[3]. Great effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Technical heads from industries visit this
fair and appreciate student and also give feedback that “some of the student ideas are
practically applicable for industries”. Mr.Krunal shah.
Industrial Expert
9
2. Department of Computer Engineering
SECTION - 1. INTRODUCTION
Number of projects: 13& Number of students: 49
In the CSE project fair, students had prepared their project on various topics of computer
engineering like Android Apps, Website and Embedded Software based. Almost all the fields
of computer engineering have been covered. Many new software like MATLAB, Android
Studiobecame the main attraction of project fair.
Evaluation Committee
Head of Department: Mr. Mehul Patel, CSE, PSE, Surat
Guest from Industry: Mr. Sanjay Jayani, CEO, FastTicket.in, Surat
Guest from Institute: 1) Ms. Bhavika Patel, Assistant Professor, BMEF, surat
SECTION - 2. TOP THREE PROJECTS
Sr
no
Name of students Enrollment no Project title Project Guide
1
Patel Dharmin Anilbhai 131123131013 Onetouch Android
Application
Mr. Avish
Parasram Dhamade
Gajera Pruthvi
Vinodbhai
131123131006
Rajyaguru Purvi
Abhaybhai
131123131023
Kansara Aditya
Sudhirkumar
121120131002
2
Jain Shailesh Umedraj 121120131033 PULSE CARDIO Ms. Pinal
Dineshkumar
Salot Prajapati Kenalkumar
Dhansukhbhai
131123131022
Gohil Dignesh
Bhikabhai
131123131008
Gosvami Sagargiri
Shaileshgiri
131123131009
3
Bhardva Parth Natavarlal
Banerjee Aditi Debasish
Babar Ajaykumar Harilal
Rana Smit
Dharmeshkumar
131123131003
131123131002
131123131001
131123131024
RAMA: Remote
Access For Mobile
Mr. Mehulkumar
Balubhai Patel
10
First Winner
Title: One-touch Android Application
Students: Patel Dharmin Anilbhai
Gajera Pruthvi Vinodbhai
Rajyaguru Purvi
Kansara Aditya Sudhirkumar
Guide: Mr. Avish Parasram Dhamade
Abstract:
OneTouch is an application with a use of it users who are connected in same WLAN can Share all
data in the android phone including photos, videos, music, contacts, application and documents to
android device and also via a computer. Users also can upload and download data from computer
wirelessly. This certainly makes the process of backing up data easy, fast and free from cable.
Connected user in same WLAN with this application can access each other’s file system and update it
too.Application also provide facility to transfer file to more than one participant simultaneously.
OneTouch application supports multiple devices connected at the same time. Application also provide
group chat facility to connected user. No internet connection required to Share data or chat with other
android device.
Second Winner
Title: PULSE CARDIO
Students: Jain Shailesh Umedraj
Prajapati Kenalkumar Dhansukhbhai
Gohil Dignesh Bhikabhai
Gosvami Sagargiri Shaileshgiri
Guide: Ms. Pinal Dineshkumar Salot
Pulse Cardio in daily life is an important means of treating heart disease. To make it easier for the
medical to monitor the ECG of their patients outside the hospital, we designed and developed a Pulse
Cardio application and alarming system based on Android smart phone. In our system, an camera of
the android phone is used to obtain the heart beat rate using the color of the blood by focusing light
(using flash light of phone).The device collects the ECG signal and transmits it to an Android phone
to determine the heart beat of the patient using the application. Here different range of heart beat and
their relative diseases are being mentioned, which will detect the heart beat of the person and provide
the relevant disease the person might be suffering related to heart. Once received, AS push the
messages to doctors’ phone, so the doctors could see the ECG images and alarm details on their
mobile phone. In our system, high resolution ECG pictures are transmitted to doctors’ phone.
11
Third Winner
Title: RAMA: Remote Access For Mobile
Students: Bhardva Parth Natavarlal
Banerjee Aditi Debasish
Babar Ajaykumar Harilal
Rana Smit Dharmeshkumar
Guide: Prof. Mehulkumar Balubhai Patel
Abstract:
Now days we are dependent on our mobile phones, if we forget the phone at home or at Office or
Somewhere else it seems we have lost a limb. That time we think that it would be good to access our
mobile remotely, like the web browser. The application like RAMA(Remote access for mobile),
instead of accessing the computer remotely, we will access the mobile phones. The basic idea is to
design and develop a Backup Application which allows the user to access Mobile data like SMS,
contacts and many more. The idea to access our mobile remotely via another android based mobile or
simple mobile i.e running another OS. Remotely controlling the mobile phone, the lost phones
information can be handled remotely. We can access the information and also we can track the mobile
phone. This is useful for protecting the mobile phone and the information inside the phone. The
remote terminal allows user to access the Information and to send the remote SMS
SECTION - 3. REVIEWS
[1] Great work done by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Very glad to see students innovation and
creative skills. This type of project fair is very helpful to give platform to students so that
they can present their ideas.
Mr.SanjayJayani
CEO, FastTicket.in
[2] Great pleasure to see this type of project fair where student can represent their creative
skills.
Ms. Bhavika Patel
Asst. Professor - BMEF
[3] Project fair give us idea to select project next semester as well as from industry guest we
can get more idea about industry needs and types of projects developed in industry
Gamit Pritesh
4th
year Student
12
3. Department of Electrical Engineering
SECTION - 1. INTRODUCTION
Number of projects: 15& Number of students: 57
In the Electrical project fair, students had prepared their project on various topics of
Electrical engineering like Embedded and Software based. Almost all the fields of Electrical
engineering have been covered Many new software like MATLAB, HFSS, KEIL,
PROTIOUS became the main attraction of project fair.
Evaluation Committee
Head of Department: Prof. Hitesh S. Patel, Pacific School of Engineering, Surat
Guest from Industry: Mr. Vinay D. Chavda, Industrial Automation Training Inst., Navsari
Guest from Institute: Prof.Rakesh Motiyani, Principal, Pacific School of
Engineering(DiplomaEngg.), Surat
SECTION - 2. TOP THREE PROJECTS
Sr
No
Name of students Enrolment no Project title Project
Guide
1.
KachhadiyaTrushalJayantibhai 121120109006
Dronexkton
Vidhi A
Mody TejaniKetanGhanshyambhai 121120109007
BavadiyaNikunjPragjibhai 121120109048
2.
Upadhyay Vishal
Shreejaynath
121120109034
Enose For Toxic
Gas Detection
System
Zarna S.
Parmar Dixit AshirwadRajendra
121120109037
HadiaAsvinkumarDhirubhai
121120109043
KanthariyaGaurang M.
131123109005
3.
Thakur Narsingh R.
121120109009
Implementation
Of Irrigation
System Through
Fully Automatic
Control By Gsm
And Moisture
Sensor
Hitesh S.
Patel
DodiyaAmmar Khozembhai
121120109010
SaliyaPratik Ramjibhai
21120109014
Vekariya Vishal Vitthalbhai
21120109033
13
First Winner
Title: Exoskeleton-The Walk Again Wearable Bionic Suit Students: KachhadiyaTrushal J.(121120109006)
TejaniKetan G.(110760111007)
BavadiyaNikunjP. (110760111048)
Guide : Prof.Vidhi A. Mody
[a]Purpose/Aim
Main aim and objective of over project is to spray pesticide through drone on
agriculture field which will reduce the harmful effect of pesticide on human being by
spraying pesticide through hand they causes various diseases like skin effect cancer, losing
eye sight, etc. and reduce the life span of human being. But using drone for spraying purpose
will overcome this problem. By using the drone man power will reduce and we can finish the
work in short period of time. So we consume the time it will also increase the efficiency of
work by drone. We can minimize the waste of pesticide.
[b]Design/Methodology/Approach
Dronexkton is an Unmanned Aerial Vehicle (UAV) that can fly and perform the function of
pesticide spraying using its built-in flight controller in conjunction with a series of sensors
such as gyroscope, accelerometer, magnetometer, barometer, GPS module. These sensors
provide motor inputs, height, pitch, roll, yaw, position, altitude and speed control. Instruction
for the task to be executed are sent via wireless communication network from control system.
[c]Utility/Commercialization Scope/ Innovation / Originality/Value
The main advantage of the product is that it will not affect the human being from the harmful
effect of pesticide.
1) Energy costs: Using lighter and more appropriate equipment for the job that relies on
efficient brushless electrical dc motors, we obtain significant energy costs savings compared
with the heavy farm equipment in current use.
2) Eliminating Carbon Fuel Dependency: Modem farming depends totally on carbon fuels,
raising many questions as to the sustainability of using carbon fuels for the world food
supply. The lower energy use of automated farming and its use of electric energy allow food
production using a sustainable form of energy, one that can be generated form on- or off-farm
renewable energy sources.
3) Better Precision: Plants spaced exactly as required will provide growing efficiencies that
have not been possible before.
4) Reduction of Fertilizer Use: Fertilizer use can be reduced by placing fertilizer in the exact
spot where the plant needs it. This avoids waste and fertilizer runoff and pollution of the
water table.
5) No Soil Compaction: As no equipment will drive on the field, soil compaction caused by
heavy equipment is eliminated. This will have a significant positive impact on soil health and
increase yields as a result
[e] Project Picture
14
Second Winner
Title: Speech Assist Students: Upadhyay Vishal S.(121120109034)
Dixit Ashirwad R.(121120109037)
HadiaAsvinkumar D.(121120109043)
KanthariyaGaurang M. (131123109005)
Guide: Prof.ZarnaParmar
[a]Purpose/Aim
Aim of the project is to monitor hazardous environment conditions, including toxic gases
though GSM modem. This project can be used in an industry or mines to monitor and help
people to warn about toxic gas conditions. This is also called as Remote Gas Monitoring
systems.
[b]Design/Methodology/Approach They are able to get the notification through theGSM. If the value gets high from set criteria, it’s send the message. Hence by using ENOSETOXIC GAS DETECTION SYTEM We can able to
monitoring the level of toxic gases.
[c]Utility/Commercialization Scope/Innovation/Originality/Value
With the coming of the industrial revolution, humans were able to advance further into the
21stcentury.Earlier, the population were less so that the number of factories were limited. As
soon aspopulation increases So that the countries facing sudden and rapid growth of such
industriesare finding it to be serious problem which has to be brought under control
immediately.Industrial pollution takes on many faces. It contaminates many sources of
drinking waterreleases unwanted toxins into the air and increase the air pollution.Toxic gas
monitoring is important because some substances can’t be seen or smelled and haveno immediate effects.Thus the recognition of a gas hazard via a worker’s senses often comes too late, afterconcentrations have reached harmful levels.With development of gas detection,
multi-gas monitoring is drawing more and more attentionin various applications, such as gas
monitoring systems in coal mines, fire detection systems,industrial processes and air quality
monitoring.
Third Winner
Title: Paralytic Support Vehicle Students:
Thakur Narsingh R.. (121120109009)
DodiyaAmmar Khozembhai (121120109010)
SaliyaPratik Ramjibhai (121120109014)
Vekariya Vishal Vitthalbhai (121120109033)
Guide: Prof. Hitesh S. Patel
[a]Purpose/Aim
Our aim is that with the help of the implementation of irrigation system through fully
automatic control by GSM and moisture sensor to less man power so that farmer is work
efficiently for long time.
[b] Design/Methodology/Approach
To save water, energy and man power in the agriculture sector.
Handle the system manually as well as automatically.
Detect water level
15
To design, built and test the system which will be economical, efficient and effort
reducing of farmer.
Doing irrigation automatically.
On/off pump automatically.
To collect the data from moisture sensors, water soluble fertilizer sensor placed in the
field, temperature sensors of various areas of the field, moisture sensors in the
irrigation system to monitor the proper drip of water along with the fertilizer which is
kept in a separate tank.
To identify proper sensors and monitoring device required for the farming data like
soil moisture, soil temperature.
To find the economic method of drip irrigation and its technique for automation
regarding short term and long term crop.
[c] Utility/Commercialization Scope/Innovation/Originality/Value
The system provides with several benefits and can operate with less manpower. The system
supplies water only when the humidity in the soil goes below the reference. Due to the direct
transfer of water to the roots water conservation takes place and also helps to maintain the
moisture to soil ratio at the root zone constant to some extent. Thus the system is efficient and
compatible to changing environment.
SECTION - 3. REVIEWS Guest:
[1]. Great effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Technical heads from industries visit this
fair and appreciate student and also give feedback that “some of the student ideas are
practically applicable for industries”.
Mr.Vinay D. Chavda,
Industrial Automation raining Inst., Navsari
[2]. It is the innovative experiment that this type of arrangement must be there in each
colleges so that 1st, 2
nd& 3
rd year students are encouraged to have such type of different ideas
or thought in their mind and try to think as well as implement on it. This type of activity must
be there at the end of 7th
& 8th
semester before they are going for external project exam. The
project fair was well organised.
Prof.RakeshMotiyani,
Principal, PSE Diploma Engineering, Surat
Student:
[1] After visiting project fair we get idea that how to prepare project for final year and what
kind of project we have to prepare.
KachhadiyaTrushal
4th year student
[2] We also get some extra knowledge from our seniors and faculty members. It was a great
kind of idea to present such a kind of projects so that some new and innovative kinds of
`projects must be prepared in the upcoming years by us which would be helpful for the
progress of the state and the nation.
Dixit Ashirwad
4th
year student
16
4. Department of Civil Engineering
SECTION - 1. INTRODUCTION
Number of projects: 16 & Number of students: 57
In the Civil project fair, students had prepared their project on various topics of Civil
engineering like Vishwakarma Yojana and Software based. Almost all the fields of Civil
engineering have been covered many new software like STADD PRO, E-TABS,
AUTOCAD, MIDASGEN became the main attraction of project fair.
Evaluation Committee Head of Department: Prof. Mohd. Tamim Tanwer, CED, PSE, Surat
Guest from Industry: Mr. Sandip Sorathiya, Chief Engineer, Shrungal Group, Surat.
Guest from Institute: Mrs.Vrunda Sule, HOD CED, Vidhyadeep Institute, Surat.
SECTION - 2. TOP THREE PROJECTS
Sr
no Name of students Enrolment no Project title Project Guide
1
Patel Rohankumar A. 121120106015 Development Of Slum
Area By Container
Home
Prof. Ankitkumar
Mehta Parmar Mohammad S. 121120106030
Parekh Jigar H. 131123106008
Patel Pratikkumar P. 131123106009
2
Bengali Adnan M. 121120106027
Elevated Corridor of
BRTS in Surat
Prof. Ankitkumar
Mehta
Patel Parth B. 121120106017
Yadav Aditya F. 121120106033
Tank Abhishek M. 121120106053
3
Ravani Amit G. 121120106006 Detailed Study On
Implosive Resistant Of
Concrete
Prof. Ankitkumar
Mehta
Golakiya Mrugendra J. 121120106056
Dobariya Jignesh C. 131123106004
Vekariya Ashish V. 131123106018
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First Winner
Development of Slum Area by Container Home Students:
Patel Rohankumar A. 121120106015
Parmar Mohammad S. 121120106030
Parekh Jigar H. 131123106008
Patel Pratikkumar P. 131123106009
Guide: Prof. Ankitkumar Mehta.
[a] Purpose/Aim
The project is based on slum clearance and slum rehabilitation. The project is to provide a
container home with healthy environment, hygienic condition and better living standard for
slum area people. The area of slum is decrease by vertical development of container home. It
is one type of mobile home which is easily transfer one place to another place. The container
home establish with proper planning and basic facilities. So it is suitable and favourable for
people of slum area by. This establishment own can solve slum area problems in technical
way.
[b] Design/Methodology/Approach
The plan of our project is give the economical solution of problem in slum area. The houses
in slum area are change by proper planed house. The living standard of slum people is
increase and provides all basic facilities in houses. The main aim of our project is slum free
city. The plan of our project is give the economical solution of the problem in slum can be
replaced by our new concept of providing container house.
The container house is economical solution of the problems in slum area and low income
group. It is one type of mobile house which is easily transferred from one place to another
place. The basic facilities which are required for human can be easily provided by using
container housing. We can provide all requirement of slum area like houses; drinking water,
electricity, sanitation, drainage line, roads, streetlight etc. and also we can project from rain,
high temperature sun light and hazardous animals.
Our concept is decrease the slum area and traffic by vertical expansion of houses and we can
save the costly land. We will use that land for social work like providing school, playground
and senior citizen house.
[c]Utility/Commercialization Scope / Innovation / Originality /Value
For present study the scope is limited to railway line and only conceptual proposals are
prepared. The study can be done for mega project covering various slum areas in Surat like
shara darwaja, sanjay nagar, magdum nagar and all slum area which is near to railway line as
well inside the city. Also the detailed financial assessment for various proposals can be done
for better project promotions.
Also this project is applicable all the megacity like Mumbai, Calcutta, Bangalore,
Ahmadabad, etc.
The following scope after project:-
• Install container house with better painting, providing lighting for esthetic purpose
• The extra land save by planning use of that land for parking, garden, playground, or
common plot for society it is used.
• Maintenance and service of house, street light, drainage line, and water line is organized.
• The dustbin is providing for collection of solid waste of area.
• Cleaning of road and disposal of waste material.
• Inspection by authority and maintenance of the area.
• The plantation of tree, plant and maintain them.
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[e] Project Picture/Diagram
Second Winner
Title: Elevated Corridor of BRTS in Surat Students :
Bengali Adnan M. 121120106027
Patel Parth B. 121120106017
Yadav Aditya F. 121120106033
Tank Abhishek M. 121120106053
Guide: Prof. Ankitkumar Mehta.
[a] Purpose/Aim
This project is based on the solution of traffic problem and provides rapid transportation. For
that we choose elevated BRTS as a solution. And by that we try to provide mass and rapid
transportation using elevated BRTS. In which we will propose elevated BRTS with BRTS
hub, foot over bridge design with the help of STAAD PRO. By considering all parameters of
bridge design. An elevated BRTS is constructed in congested area of Surat. It is suitable,
favourable, Safe for public.
[b] Design/Methodology/Approach Part I: City Survey
In city survey first we visit that place from where most of public are is coming in city area for
their work. These places are railway station, bus station. from these places people are mostly
travelling into city and we had surveyed that mostly people are facing problem of
transportation in this area only. We observed that in surat city there is lack of transportation
system. Because in city area there is no proper public transport facility. after this survey, we
surveyed area where mostly public travel. where the mostly business hubs are there. in those
areas we had surveyed. we found that people are facing problem while they have to reach
from station to their destination.
Part II: Planning
At the initial level it is require to carryout the survey of those area where we can provide
elevated BRTS.after that it is require to decide the route on which we can propose elevated
corridor of BRTS.for the easy conveyance for mass of public we have to provide particular
hub from where mass transportation can occur easily.planning is the initial level of any
work.whatever work we want to do before that we have to plan.planning is the term which we
have to follow till complition of our work.we have to consider all parameters while planning
and according to that plan we have to work.in our project also we did the same thing.after
city survey we carryout the planning work.according to our survey and data which we
collected we started planning workin plannnig first we start from station area and make the
route.in our project as we are going to provide public transportation in each area of city we
have to decide route according to parameters. we planned different route in city area from
railway station.it will connect station and every area of city.
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Part III: Designing
According to our work distribution there are two parts. After planning of project work next
step is designing, in which we are going to give design of BRTS hub, bridge, and elevated
BRTS station with the help of staad-pro and auto cad. instaad –pro, we will give a design for
economic and efficient bridge and create a plan design in autocad. staad-pro give bridge
design and autocad given plan of BRTS hub and elevated station.
Part IV: Data Collection
Data collection is important factor. whenever we want to do work at some particular place at
that time we need to collect some important data from different authority like SMC and
railway authority. in which we will collect data of traffic solution and mass transportation in
surat. it’s given below; we collect data of traffic and public transportation.
[c]Utility/Commercialization Scope/ Innovation/Originality/Value
This project is based on the solution of traffic in congested area and the solution of the mass
transportation. in surat city as we had surveyed that there is lack of mass transportation in the
city. so we decided to give elevated BRTS corridor as a solution of the traffic and
transportation. Elevated BRTS corridor requires 7m wide span. in surat mostly width of every
main road is more than 10m.so we can easily construct elevated BRTS on that road. in
elevated corridor of BRTS we connect each and every corner of city. so people can reach
from one corner to another corner easily and rapidly. after survey of some area in surat. in
which we can propose elevated BRTS route in some area.
[d] Project Picture/Diagram
Third Winner
Title: Detailed Study on Implosive Resistant Of Concrete Students:
Ravani Amit G. 121120106006
Golakiya Mrugendra J. 121120106056
Dobariya Jignesh C. 131123106004
Vekariya Ashish V. 131123106018
Guide: Prof. Ankitkumar Mehta.
[a] Purpose/Aim
To evaluate the Implosive resistance of concrete and Fibre Added Concrete for different
composition, It is necessary to ensure the universal building & importance structure for their
safety against fortuitous eruption & Assault. It is known that the behaviours of structure
under detonation loading are more complex than those under consistent loadings, however
there has been no scrutiny on contact detonation loading.
[b] Design/Methodology/Approach
In this study, the Implosion behavior of frc is experimentally investigated and compared to
that of simple concrete. A series of contact Implosioning tests were conducted with varying
quantities of Implosioning material. It is found that frc has much higher Implosion resistance
than simple concrete. FRC did not break even when 30g of Implosioning material are used,
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through the simple concrete is totally smashed with only 15g of Implosioning material. In the
test, it is observed that the frc specimens expanded, especially when the quantity of
Implosioning material is more than 15g, and this proves the superb ductility and energy
absorption of frc. It is considered that these characteristics are due to the bridging effect of
steel fibres on frc, which transfer the stress across cracks.
Furthermore, the observation results of the top surface also indicate the excellent Implosion
resistance of frc. Hence it is reasonable to say that frc is suitable for structure which may be
subject to Implosion loading. These achievements will help us to design and provide safer
structure by frc.
[c]Utility/Commercialization Scope/ Innovation/Originality/Value
When designing important structures such as industrial plants and public facilities, it is
necessary to ensure their safety against accidental explosions and terrorist bomb attacks,
which happen rarely but can cause serious damage.
[e] Project Picture/Diagram
SECTION - 3. REVIEWS Guest: [1]. Great effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Technical heads from industries visit this
fair and appreciate student and also give feedback that “some of the student ideas are
practically applicable for industries”.
Mr. Sandip Sorathiya.
Chief Engineer, Shrungal Group, Surat.
[2]. It is the innovative experiment that this type of arrangement must be there in each
colleges so that 1st, 2
nd & 3
rd year students are encouraged to have such type of different ideas
or thought in their mind and try to think as well as implement on it. This type of activity must
be there at the end of 7th
& 8th
semester before they are going for external project exam. The
project fair was well organised.
Mr. Vrunda Sule.
HOD CED, Vidhyadeep Institute, Surat.
Student: [1] After visiting project fair we get idea that how to prepare project for final year and what
kind of project we have to prepare.
Rohan Patel
4th
year student [2] We also get some extra knowledge from our seniors and faculty members. It was a great
kind of idea to present such a kind of projects so that some new and innovative kinds of
`projects must be prepared in the upcoming years by us which would be helpful for the
progress of the state and the nation.
Aditya Yadav
4th
year student
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5. Department of Mechanical Engineering
SECTION - 1. INTRODUCTION
Number of projects: 14 & Number of students: 58
In the Mechanical project fair, students had prepared their project on various topics of
Mechanical Engineering. Almost all the fields of Mechanical Engineering have been covered
in different projects. Many new projects like Tesla Turbine, Green Enginebecame the main
attraction of project fair.
Evaluation Committee
Guest from Industry: Mr. Govind Patel, CEO, EnerG, Surat
Guest from Institute: 1) Prof.RushabhPanchal, HOD, Mechanical Dept., BMCET, Surat
Head of Department: Prof. V. H. Moradiya, HOD, Mechanical Dept., PSE, Surat.
SECTION - 2. TOP THREE PROJECTS
Sr
no
Name of students Enrollment no Project title Project Guide
1
Kansara Yash D. 121120119062 Implementation in
Design&
Development ofTesla
Turbine Using
Magnetic Bearing
Prof. Chirag Patel Dadarwala Ankit A. 121120119053
Maisuriya Viral H. 121120119039
Patel Pranav J. 121120119030
2
Gohil Kishan J 131123119004 Modified And
Development Of
Three Way
Unloading System
For Tipper Truck
Prof. Sumit Suhagiya Charkhawala Fenil N 31123119001
Gemlawala Krunal C 131124119003
Jayswal Akshay R 131124119001
3
Bhosale Amit R 121120119025
Green Engine Prof. Bhavesh Patel
Sangani Mitesh D 121120119034
Chothani Umesh A 121120119050
Kapadia Kunal A 121120119033
Dhanani Chirag 121120119009
22
First Winner
Title: Implementation in Design& Development of Tesla Turbine Using
Magnetic Bearing Students: Kansara Yash D. (121120119062)
Dadarwala Ankit A. (121120119053) Maisuriya Viral H. (121120119039)
Patel Pranav J. (121120119030)
Guide: Prof. Chirag Patel
[a]Purpose/Aim
A Tesla turbine is bladeless centripetal flow type turbine. It is as well recognized as the
boundary layer turbine, cohesion type turbine and prandlt layer turbine because it is used
boundary layer effect and not a fluid impinging upon the blades as in a convectional turbine.
Tesla turbine has found wide ranging of application that include the handling of a mixture of
solid ,liquid and viscous fluid without damaging the part.This project work is chiefly focused
on implementation of magnetic bearing in Tesla turbine. Designing of magnetic bearing is
done by suitable software. The development of Tesla turbine will carry out to influence the
size of blade , blade gap , nozzle angle , appropriate magnetic field of magnetic bearing.
New developed model imparts increase in efficiency and torque.
[b]Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives.
Tesla turbine is bladeless turbine we implement in blade design and simulation in
software.
To reduce the distance between disc and increase the efficiency.
Use a magnetic bearing so increase the life of bearing.
Made working model in with the help of machine workshop.
[c]Utility/Commercialization Scope/ Innovation / Originality/Value
As a turbine to generate the power comparatively nearer/equal to the conventional power
generation techniques.Turbines of this design can operate at temperatures above 1000°C
and also be used in low temperature conditions (room temperature). There is no loss of
the inlet fluid which can be collected at the center of the rotor. Efficiency is maximized,
when boundary layer thickness is approximately equal to inter-disc spacing. It used in the
places having limitations of diffuser and collector in other type of turbines.
[e] Project Picture/Diagram
23
Second Winner
Title: Modification and Development of Three Way Unloading Tipper
System Students: Gemlawala Krunal C. (131124119003)
Gohil Kishan J.(131123119004) Charkhawala Fenil N.(131123119001) Jayswal Akshay R. (131124119001)
Guide: : Prof. Sumit G. Suhagiya.
[a]Purpose/Aim
The aim of the project is to construct such a material handling device, which will be helpful
to the material unload easily from traditional system, in traditional tipper system can unload
the material from only one side (Rear side). Because of this time and fuel consumption is
more, road blockage and also not easy for unload material in narrow space. So, for this three-
way tipper system is unload the material from three sides right, rear and left side which
overcome this traditional tipper system’s problem.
[b]Design/Methodology/Approach
There are many aspects related with the project to gain the aim of project. The project is
designed to attain the following objectives. To develop a mechanism which can be helpful toreduce time consumption for unload
material from tipper trolley and Movement of truck for unload material at specified space. In some construction site have use more than one trolley truck for material so, at this time
the material unloading in back side is not useful or preferable. So, at this time make
system for this the trolley can unload material without any complication and easily. As
well as In Residential site construction some area has narrow space so we cannot unload
material easily. Resolve the problem while we use traditional truck some time the road is block, reduce
effort for unload material from tipper truck hence, Reduce fuel consumption. This model’s main parts are ball joint, hydraulic cylinder with trunnion. This trunnion and
ball joint is give flexible movement to hydraulic cylinder.
[c]Utility/Commercialization Scope/ Innovation / Originality/Value
They are commonly designed for material transportation and material handling. Generally we
show the truck is transport the material from one place to another and it is unload the material
at its destiny. But for unload the material from truck only from rear side so, for unloading
truck must arrange regarding at particular space and because of it the road may be block. So,
regarding this problem. The three way tipper system is use for the material unload because in
this the tipper is unload the material from three side (Right, left and rear) by this resolve the
problem like road block, less movement of truck,less time consumption. Generally this is use
in construction site, agriculture area, industrial and residential area.
[e] Project Picture/Diagram
Rear Side Lift Tipper Right Side Left side
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Third Winner
Title: Experimental Analysis Of Hydrogen and its Competitive Fuels Students: Bhosale Amit .R (121120119025)
Kapadia Kunal.A (121120119033)
Sangani Mitesh.D (121120119034)
Chothani Umesh.A (121120119050)
Dhanani Chirag (121120119009)
Guide: Prof. Bhavesh Patel
[a] Purpose/Aim
Everywhere there is researches and fundings going on for using hydrogen as core fuel for
cars and vehicles but no one has though to use hydrogen as core fuel in homemade
appliances. This can increase the efficiency and reduces the pollution.
[b] Design/Methodology/Approach
Part I: Starting the engine with petrol
First we start the engine using petrol and produce the energy so that that energy can be used
to produce the hydrogen from electrolysis process to use the hydrogen as our core fuel.
Part 2: Using Hydrogen
The energy produced from the electrolysis process in form of hydrogen, that is directly used
as a core fuel in the intake valve with a simple ratio of hydrogen-petrol fuel.
[c]Utility/Commercialization Scope/ Innovation/Originality/Value
1. Used in agriculture.
2. Construction and mechanical appliances and equipments.
3. Water pumps and generators.
[d] Project Picture/Diagram
25
SECTION - 3. REVIEWS
Guest:
[1]. Effort given by a student to present their ideas and also these types of project fair is
helpful to other students who appear for final year. Technical heads from industries visit this
fair and appreciate student and also give feedback that “some of the student ideas are
practically applicable for industries”. Mr. Govind Patel
CEO, EnerG, Surat
[2]. It is the innovative experiment that this type of arrangement must be there in each
colleges so that 1st, 2
nd& 3
rd year students are encouraged to have such type of different ideas
or thought in their mind and try to think as well as implement on it. This type of activity must
be there at the end of 7th
& 8th
semester before they are going for external project exam. The
project fair was well organised.
Prof. Rushabh Panchal
Student:
[1] After visiting project fair we get idea that how to prepare project for final year and what
kind of project we have to prepare.
Vihol sahil
4th
year student [2] We also get some extra knowledge from our seniors and faculty members. It was a great
kind of idea to present such a kind of projects so that some new and innovative kinds of
`projects must be prepared in the upcoming years by us which would be helpful for the
progress of the state and the nation.
Konnur Chinmay
4th
year student
26
= = = Photo Gallery = = =