electrical engineering department · student name & id yasser fuhaid alshammari id:201410032...
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Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Students Names & IDs
Company Advisor Name &
Contact Details
Departmental Supervisor
Project Title
Field of study (state
relevant courses)
Problem Statement
Abstract
Project Objectives
Applied code practices and
Standards
Design Specifications with
realistic engineering
constraints
Design Methodology 1.
Targeted Outcome
(hardware &software)
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID
Ibrahim Mohammed ALfouzan ID#201402124
Abdulaziz Mahmoud alobied ID#201400459
Fouad Saleh AlHarbi ID#201313544
Company Advisor Name &
Contact Details
Abdullah Othman Alshamsan Contact number: 0567688187 Address: Ibn Sina – SABIC Affiliate, Jubail, 31961
Departmental Supervisor Dr Muhammad Tajammal Chughtai
Project Title RFID Based Automatic Access Control System
Field of study (state
relevant courses)
Digital Logic, Electronics, Communication and Control Eng.
(EE 200 Digital, EE 203-303 Electronics, EE 370
Communication, EE 380 Control Engineering)
Problem Statement
This project will provide a solution to the problem of controlling
access to restricted areas by using RFID tags. This will contribute
to reduce deployment of man power for such areas hence
maintaining the cost and time.
Abstract
RFID based access is a project that offers supervisor free access to
controlled areas with the help of RFID tag technology. To start
with it is meant to be used with car park authorizing system where
the system can only allow a car to access the parking area when a
valid RFID ID card is presented to it. Algorithms and electronics
will be developed to sense the length of entering/leaving vehicles.
Moreover, total number of parking spaces available will be
displayed
Project Objectives
1. Reduce manpower.
2. Maintenance of cost.
3. Accurately identify and authorize vehicle movement.
4. Time keeping.
5. Extra security.
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6. Use of information as database.
Applied code practices and
Standards
BS 1026, BA 6480, EATS 09-12, IEC 61508
Design Specifications with
realistic engineering
constraints
Development of control algorithm using software.
Selection of suitable servo motor.
Application of AND logic between the IR sensor, RFID reader
and servo motor for entry barrier.
Application of AND logic between the IR sensor and servo
motor for exit barrier.
Design Methodology
1. Calculation of motor load.
2. Selection of suitable servo motor.
3. Programming of Ardueno according to requirement.
4. Development of electronic system to decide the
opening time of the gates.
5. Design methodology of RFID tags.
6. Integration of the whole system in to a modular form.
Targeted Outcome
(hardware &software)
The final project will be a model of a car park.
The barrier will open once the RFID tag is presented to the
system.
The barriers will be opened or closed using a servo motor.
The entrance and leaving barrier will remain open
according to the length of the vehicle plus a delay. The
variation in length will be sensed with the help of infrared
LED and PD module.
The LCD display will show the number of available parking
spaces. This information will be updated each time a
vehicle enters or leaves the car park.
The barriers will remain opened in case of vehicle
breakdown under the these.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Names & IDs Mohammad Yousef Alomaim; ID:201411926 Salim Meshall Al Nekhelan; ID: 201409852 Ziyad Mohammad Almotairi ID: 201408248
COOP Company Advisor
Name & Contact Details
Project Engineer: Mana Alyami, ARAMCO Email: [email protected]
Departmental Supervisor Professor/ Mohamed Eleiwa
Project Title Wireless Power Transmissions
Field of study
(state relevant courses)
EE 201 & EE 205 (Electric circuits !&2), (EE 203, EE 303) Electronics1& 2 , EE 204 Electrical & Magnetic Fields, EE 330 Power System analysis.
Problem Statement Transfer the power wirelessly with simple design and with low cost to charge loads
Abstract
Wireless power transmission is transferring the electrical energy from power source to
a load without interconnecting conductors. Several Wireless Power Transfer (WPT)
techniques are studied, analyzed and compared. The concept of WPT is verified using
two techniques; inductive coupling and microwaves. Several resonant inductive
coupling circuits have been designed, constructed, measured and analyzed. Also, a
monopole antenna is designed, modelled and constructed to be used as an element in
the rectenna array system of the ground station of the solar power satellite (SPS),
which uses microwaves for wireless power transfer. The WPT technology provides
efficient, fast, and low maintenance cost as compared to some other technologies.
Project Objectives - Study and analysis of different techniques for wireless power transfer (WPT). - Design, simulation and implementation of WPT systems components. - Measurements, compliance and verification analysis
Applied code practices and
Standards
TA 15 : Wireless Power Transfer.
PT 62827: Wireless Power Transfer – Management.
PT 63006: Wireless Power Transfer (WPT) Glossary of Terms .
Design Specifications with
realistic engineering
constraints
Design and construct WPT system using inductive coupling circuits.
The desired efficiency of the inductive coupling circuit is about 50% with
outputs of 5 V and about 2 A.
Design and construction of Rectenna for WPT using microwaves. The
designed antenna should have VSWR of about 2 within the specified
bandwidth (200MHz from 0.8 GHz up to 1GHz).
Design Methodology
Using the circuit analysis techniques, electromagnetic concepts and theories
(Faraday’s law) to design the inductive coupling circuit for WPT.
Circuit Modeling and simulation using Multisim.
Circuit construction, measurements and verification
Using antenna theory and HFSS software to design and model the monopole
Saudi Aramco: Company General Use
antenna for rectenna array system.
Antenna Measurements and verification.
Targeted Outcome
(hardware &software)
Resonant inductive coupling circuit design and simulation using Multisim.
Circuit construction, measurements and verification results.
Antenna model and simulation using HFSS.
Antenna construction, measurements and verification results.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID Meshal Sulaiman Abdulaziz Alnuzhah ID : 201401298 Mousa Mohammed Ali Alateeq ID : 201408299 Umair Butt Mahboob Butt ID : 201316379
Company Advisor Name &
Contact Details
Eng. Mouth Alkhalaf Saudi Electricity Company
Departmental Supervisor Dr. Badr Alshammari
Project Title Power Generation & Inverter Design ( DC AC )
Field of study
(state relevant courses)
Electric Energy Engineering (EE 206 )
Power System Analysis I (EE 330 )
Power System Analysis II (EE 463 )
Power Electronics (EE 460 )
Problem Statement Development of energy harvesting system from multiple
renewable energy sources.
Abstract
This project is an attempt to improve communication in areas
where there is no electricity by releasing a DC charger outside the
grid that uses different forms of renewable energy. The various
forms of energy used in this project are solar energy and wind due
to its ease and mobility between regions. The project is capable of
harvesting energy from sources that cannot be earned using
conventional energy conversion methods. In this project, a
proposed adapter for DC charger and AC socket is designed and
will be constructed and tested. The results show the function of
the proposed adapter for charging or socket. Further design
improvement will be described.
Project Objectives
Design renewable energy based sources in isolated areas.
Design charger for batteries.
Participate in the achievement of the Saudi Vision 2030
goals such as ( Sustainable Energy ).
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Reduction of electricity costs.
Applied code practices and
Standards
IEEE 1547
IEEE Std 1366-2012
* IEEE SCC21 2030
Design Specifications with
realistic engineering
constraints
The project specifications should be able to charge batteries (12
V) without using electricity from the grid. Power supply must be
portable and must be easy to use. Provide two sources AC (220 V)
and DC (12V).
Design Methodology
Literature review.
Suggest the required electrical components for the
realization of project.
Selection and setting of the dimensions of the PV panel
and fans.
Circuit Modeling and simulation using Matlab
Realization of the project.
Targeted Outcome
(hardware &software)
Generation of energy (AC and DC) through renewable energy
sources.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID Yasser Fuhaid Alshammari ID:201410032 Khaled Marfoua Alshammri ID:201410767
Company Advisor Name &
Contact Details
Omer Alghamdi Saudi ARAMCO [email protected]
Departmental Supervisor Dr. Ahmed S. Althunian
Project Title Simulation and implementation of flame detection system
Field of study
(state relevant courses)
Electronics and Control
(EE 303 Electronics 2, EE 380 Control Engineering )
Problem Statement Automatic Flame detection and prompt fire extinguishing
Abstract
In this project, the flame detection system is designed to detect a
fire in 3-Axis. The system can be used at the industrial plants,
buildings or houses. The system design consists of two main
functions:
1- An early alarm will be raised so that people can be evacuated
to an assembly area.
2- A fire pump is activated to provide a water flow at a high
pressure.
The system design contains flame sensor, controller, LED and
buzzer. When the fire has occurred. The flame detector will
detect the fire. Then the alarm and water pump will be activated
in synchronicity .
Project Objectives
- To study the system theoretically.
- To design and simulate the flame detection system using
software.
- To convert the simulation design into hardware design.
- To compare the simulation result with the hardware result.
Applied code practices and
Standards
• NFPA Codes and Standards
• Arduino programming notebook (Brian W. evans).
Design Specifications with
realistic engineering
constraints
• Sensitive flame sensor
• Arduino Uno board
• flame sensor will cover 3 angles at (45,90,135)
• Servo motor
•water pump to produce water stream toward the detected
flames.
Design Methodology
- Theoretical study of the project design.
- Design and simulation test using Protues Software.
- When the desired result has been obtained, the design will
be implemented in hardware using the Arduino board.
- Compare the simulation test result and Hardware test result
Targeted Outcome
(hardware &software)
- To be familiar with the Arduino board programing.
- To be familiar with Protues Software design and
Simulation.
- Construct the working flame detection system model with
fire extinguishing using water pump.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID
Mohammed Faraj AlShammari ID : 201400297 Mohammed Nasser AlTamimi ID : 201403360 Hatem Rsheed AlMangour ID : 201007973
Company Advisor Name &
Contact Details
Eng : Omar Alamer : Head of Operations unit in SEC Hail phone number :0506187557
Departmental Supervisor Dr . Ayoob AlAteeq
Project Title Optimal Solution of the overload issues in South Ha'il
Field of study
(state relevant courses)
Electrical Energy Engineering (EE 206)
Power system analyses I & II
Problem Statement The over load issue in south Ha’il during the summer season.
Abstract
This project deals with designing a distribution Substation and
Switchyard of 33/13.8 KV to overcome the overload issue.
Nodaway’s life electricity plays a very vital role. The demand
of electricity is being increased day by day. Therefore many
new projects are being introduced not only in town as well as
in remote areas also to provide the facilities of electricity by
Constructing new transmission lines and Switchyard.
Project Objectives
Means collection of data where high voltage electricity is
switched using of various components.
Electrical Switchyard is usually a part of Substation
where electricity is transferred from one Voltage to
another for the Transmission and Distribution purpose.
Propose the optimal solutions for the overload problems
in south Hail area
Applied constraints, code
practices and Standards
The code of the Saudi electricity company.
Design Specifications with The electricity load data and distribution will be
realistic engineering constraints collected from Saudi electricity company (SEC).
Load and reliability analysis
Over load simulation
Proposing solutions
Solution verification.
Design Methodology
1. Literature survey.
2. Data collection.
3. Analyzing the data using power World software.
4. Results and verification.
Targeted Outcome (hardware
&software)
Computer simulation using Power World software to produce
the proposed solutions for the over load problems.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID Student 1 ID: 201309157 Bander Yousif Student 2 ID: 201514313 Mukhlef Alshammeri Student 3 ID: 201408453 Fahad Abdulmhsen
Company Advisor Name &
Contact Details
Eng. Bander M. Rayzah Saudi Aramco, Contact: 0504817375
Departmental Supervisor Dr. Anouar Farah
Project Title Sun Tracking Solar Panel (Dual Axis)
Field of study (state relevant
courses)
(Electronics, Control, Power, Power Electronics)
EE 303 Electronics 2, EE 380 Control Engineering, EE 463 &
EE 330 Power Analysis I & II, EE 460 Power Electronics
Problem Statement To create a system that is capable of tracking the sun and face
the solar panel in its direction.
Abstract
This project presents a solution to increase, the efficiency and
maximize the potential of the solar panel. The need for renewable
energy rises as our planet suffers from all the pollution caused by our
current power generation methods and fuels. We need to polish and
maximize the efficiency of renewable energy. Which is the objective
of this project. With the help of light sensors, microcontrollers and
motors, we are going to create a system to track the sun and rotate the
panel to be at the ideal position. We will program the controller to
detect the output of the light sensors and compare them to each other,
to figure out the position of the sun and commands a motor to turn
the panel towards that direction.
Project Objectives
•To use sensors for sensing the sun light..
• To program the circuit to compare the sensors’ output.
• To program a controller to command the motor to rotate
towards the sun.
• To use modern programming languages.
• To create an automated system that operate on its own.
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Applied code practices and
Standards
1) Electronics and control
2) BS 1026, BA 6480, EATS 09-12 (Sensors
standards)
3) IEC 61508 (Functional Safety of
Electrical/Electronic/Programmable Electronic
Safety related Systems)
Design Specifications
• Sensing the sun light using Light Dependent
Resistors.
• Compare the output of the LDRs.
• To program the controller to control a motor.
• To rotate the motor towards the sun.
Design Methodology
• Light sensing and comparing outputs
• Programming of controllers using any
programming platform e.g. Arduino.
• Using motors to rotate the solar panel.
Targeted Outcome
(hardware &software)
Solar panel that tracks the sun and rotates towards it
automatically.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID 1. Ali Khalaf Alkhalaf (201402469)
2. Adel Khalid (201406017) 3. Abdullah Muflih Saray Alghaythi ( 201406926 )
COOP Company Advisor
Name & Contact Details
ENG. Sultan H Algurashi Saudi ARAMCO
Departmental Supervisor Ahmed Alzamil
Project Title Traffic Board powered by solar PV
Field of study
(state relevant courses)
Electronics 2 ( EE303 ) / renewable energy / control ( EE380 )
Power electronic
Problem Statement
Traffic electronic board that works on solar power is very
useful and important for traffic system and it can be operated
on solar cells with low cost to relieve the pressure from the
electrical grid. Using traffic board working on solar cells save
the time and the efforts of traffic officers. Also, it helps drivers
to follow the instructions of the traffic and roads with limited
speed.
Abstract
Since one of the Saudi Arabia vision in 2030 is to build the largest
solar farm in the world , I decided that my senior design project
will be about solar PV powering the street light . Neither the less ,
the company that I am currently with (Saudi Aramco) is interested
in renewable energy and they opened a new department called
“Renewable & Technology Department” . Traffic electronic board
that work on solar power save the consumption of electricity
generated from oil or diesel. Also, these board helps traffic system
to control the movement of vehicles on road. Through this system
we can reduce the accidents because it oblige drivers to respect
and follow the traffic rules and laws. This system need design and
simulation with a set of sensors and LED lamps. This board is
used with a ladder to tell the driver with the limited speed giving
red light in the case of passing the limited speed. This system also
can be used to give punishments to the vehicles pass the limited
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rules and speed on roads. This system can be fixed and installed in
any road, streets or at the traffic lights.
The project goal is to design and implement an electric power
system that collects and stores solar energy, and delivers power to
an LED smart traffic board on the streets.
Project Objectives
1- To generates a scenario in how the system is going to be
constructed
2- To use solar PV to power street light
3- to take in consideration rainy days so the system must power
the street light to days without the sun
4- To write technical documents and give oral presentations
related to design project results
Applied code practices and
Standards
1-IEEE SCC21, IEEE 1547, • IEEE 1547.1
2- International Residential Code (IRC)
3- International Energy Conservation Code (IECC)
4- International Fire Code (IFC)
Design Specifications with
realistic engineering
constraints
1- The system is to be self-sustaining and powered only by
sunlight
2- System is to be mounted at street light height, so special
considerations must be made.
3- System must be kept affordable if it is to be used widely in
cities.
4- System must take into account rainy days, or days that sunlight
is not present.
5- This project consists of many parts such as solar cells,
electronic board, Sensors, flash, Show screen, Battery; etc..
Design Methodology
Design and simulation of solar system
Design and select the proper components of solar system
Testing the traffic board working on solar cells.
Results and discussion
It will be constructed by hardware and may use ETAP
software
Targeted Outcome
(hardware &software)
Constructed working hardware system
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name& ID 1. Hammam Fawzi 201407721 2. Faisal Abdullah 201403778 3. Majid Mohammed 201400264
COOP Company Advisor
Name & Contact Details
Eng. Talal Alkahtani Phone: 0555412340 Saudi Electric Company (SEC)
Departmental Supervisor Dr. Khalid Al-Qunun
Project Title Minimization of Losses in Transformer
Field of study
(state relevant courses)
Electrical Energy Engineering (EE 206)
Power Systems Analysis (EE 330).
Problem Statement
MATCO is a huge transformer manufacturing
company, which made of transformers for private
customers (private industries) and for their main
customer Saudi electricity company “SEC”, the
transformer losses are based on customer submittal
and tested according to international standards (IEC
60076) and national law (KSA law). During routine
test of transformer some of the transformer failed
due to exceeded losses (No load losses fail, or Load
losses fail) which is not acceptable and cannot be
deliver to customer. Listed below some problems
cause high transformer losses (Load losses and No
load losses):
1- Design calculation failure.
2- Core and Conductors materials.
3- Processing and manufacturing factors
Abstract
I have completed six-months period of training at
MATCO (Mohammed AL-Ojaimi Transformers
Company). I was assigned as a quality engineer,
transformer testing engineer and supervision of
transformer assembly area. I have worked as a part
of AL-Ojaimi team and I gained experience of
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transformer manufacturing. I have decided to study
the High Losses in transformers with reference of
International Electro technical Page 2 of 3
Commission standard IEC 60076. This study is a
theoretical experimental study to reduction of losses
(no load losses or core losses & load losses or copper
losses) in transformers which is very important
project to Improve transformer efficiency and
performance
Project Objectives
Primary objectives:
❖ Reduce losses in transformers based on design
techniques.
❖ The treatment of high power losses after
manufacturing.
❖ Increasing of transformers efficiency.
Secondary objectives:
❖ Using high technology to minimize losses.
❖ Using an advance manufacturing process.
Applied code practices and
Standards
IEC 60076
Design Specifications with
realistic engineering
constraints
There are mechanical and electrical components in
the transformers which they affect the performance
of the transformers.
Each one has different process to be made. This
transformer has started with engineering design
which they are using AutoCAD to draw each part
then manufacturing the parts by using CAM
program to make G code to make the machine cut
the parts, one of these machines is laser
machine, after that all the parts go to fabrication
department then assembly. Although there is an
electrical part which are core and coil which has
different manufacturing process starting from the
silicon steel cutting to stacking and clamping together
then the coil design process starting from winding
wires and insulation as layers.
Design Methodology
Upon my understanding design methodology to
approach the projected problem by using below
equipment’s and techniques.
1- By using power analyzer.
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2- Winding resistance measurement machines.
3- Measurement of transformer turn ratio by TTR
machine.
4- Testing results calculation and matching with
design references.
5- Measurement of HV / LV winding diameters.
6- Measurement of conductive materials like enamel
wire or foils and bus bars.
7- Checking of core material / grade / measurement
of bur thickness during silting and cutting process.
8- Measurement of core stacking.
Targeted Outcome
(hardware &software)
The proposal has a goal to reach maximum
performance of the transformers in MATCO Factory
with less percentage of failure in power losses, so this
a hardware project that I will involve into my
capstone project. Moreover, I will write more details
in the full report.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name & ID
Turki Khaled Altamimi – 201411973
Saad alsaif – 201412074
Thamer Motlaq – 201300670
Omar Abdulwahab - 201000387
Company Advisor
Name & Contact
Details
Eng. Salem Alfaraj
Saudi Electric Company (SEC)
Departmental
Supervisor
Dr. Mansoor Alturki
Project Title Solar Powered Backpack
Field of study (state
relevant courses)
EE 206 Electric Energy, EE 330 Power System Analysis, EE 203
Electronics.
Problem Statement
The objective of this project is to design a backpack that can produce energy
by converting sunlight to electricity. This design will provide a valuable
solution for people (on the go) to have a limitless source of energy that can
charge portable devices.
Abstract
The main objective of this project is to design a solar powered backpack that
has the ability to convert the sunlight into reusable electric energy. This
project aims to provide an on the go power source that can charge portable
devices. For example, many people walk with different electronic devices
such as cell phone, which may run in low batteries at least once when they
need to use them; therefore, this backpack will allow people to charge their
devices “on the go". The attached solar panel allows to charge portable
devices as well as to charge the attached batteries in the bag, which allows to
store the energy and use when the lack of sunlight.
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Project Objectives
The main objectives of the project are to:
1- Design a solar powered backpack.
2- Generate electricity from the solar panel.
3- Store the generated electricity in the attached batteries.
Applied code
practices and
Standards
IEC 61508
Design Specifications
with realistic
engineering
constraints
Reliable, light weight, efficient and cheap solar powered Backpack:
Weight < 2 kg, Cost < $120.
Case1: (12V, 500 mA) Solar panel to charge battery with 5A total capacity.
Case 2: (6V, 250 mA) Solar panel to charge battery with 2.6 A total capacity.
Maximum total charging time: 10 H
Design Methodology
Targeted Outcome
(hardware
&software)
- The targeted outcome is to have a reliable, light weight, efficient and
cheap solar powered Backpack that can provide electricity even for
people who do not have access to electricity.
- The output voltage is 5 V.
Electrical Engineering Department
EE411 (Senior Design Project) Proposal for Semester 182
Student Name& ID Student 1 Essam Raed Gaffar Ali ID:201316466
Student 2 Mohammed Mohsen Fadhl Salem ID:201316502
Student 3 Anas Taha Salem Fadaaq ID: 201316468
Company Advisor Name &
Contact Details
Eng. Mohammed Essam
UOH Project Management , Contact: 0548002034
Departmental Supervisor Dr. Ahmed AL Zamil
Project Title Design of a hybrid wind and solar electric system.
Field of study (state relevant
courses)
(Power Electronics, Power System I , and Control)
EE 460 Power Electronics, EE 330Power System I , EE 380
Control System
Problem Statement
It’s hard to rely on single renewable source of energy whether
it is solar or wind due to the permanent fluctuation of the
climate especially in winter and summer. For instance, in
winter the clouds block the sun radiation as a result it’s
difficult to depend on such power. However, in winter the
winds blow almost all day, so it is wise to use the wind turbines
to generate power and vice versa. So instead of switching the
two sources of renewable energy we came up with this idea
which is designing hybrid solar-wind system to tackle the
problems of climate and decline the demands on fossil fuel.
Abstract
Energy is playing an important role in human and economic
development. Relying on Fossil Fuel (coal, oil and gas) have
been an issue which concern many countries because they are
finite. Consuming them for long enough will eventually run
out. After going deeply through such problem, we have
decided to make our project in renewable energy. However,
some problems won't be solved unless we mix different types
of clean power generation. This project aims to combine solar
and wind power to make a hybrid power generation system.
Objectives • Discuss the importance and future of renewable
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energy.
• Discuss problem of the energy sector and the need of
renewable energy in Yemen.
• Studying wind turbine energy system.
• Studying PV solar energy system.
• Studying hybrid solar–wind energy system.
• Studying wind power generation.
• Studying solar power generation.
• Overview of the software tool (HOMER) for the
simulation of a hybrid energy system.
• Design a wind-solar hybrid power system for a selected
location in Yemen by using HOMER.
Applied code practices and
Standards
1) International Standardization in the Field of Renewable
Energy (IRENA)
2)Power electronics and control.
2) IEC 61508 (Functional Safety of
Electrical/Electronic/Programmable Electronic
Safety related Systems.
Design Specification with
realistic constraints.
•Study of solar energy generation potential in different
locations
• Study of wind energy generation potential in different
locations
•Scenario generation to simulate solar and wind potential
•Design of a hybrid system using HOMER
Design Methodology
•Identify the different location where wind and solar energy
are high.
•Analyze wind and solar data available in different identified
locations.
•Choosing the best location which has available both wind and
solar energy.
•Knowing the power demands for the selected location.
•Design a wind-solar hybrid system for the selected location
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using the software tool (HOMER)
Targeted Outcome
(hardware &software)
Design and simulation of a hybrid system using HOMER .
Department of Electrical Engineering
Senior Projects EE-411 (182)
S. N0.
Student Name Student ID
Supervisor Project Title
1 1. Ibrahim Mohammed Alfouzan
2. Abdulaziz mahmoud alibied
3. Fouad Saleh AlHarbi
201402124 201400459 201313544
Dr. Muhammad Tajammal
RFID Based Automatic Access Control System
2 1. Mohammad Yousef Alomaim
2. Salim Meshall Al Nekhelan
3. Ziyad Mohammad Almotairi
201411926 201409852 201408248
Dr. Eleiwa Wireless Power Transmissions
3 1. Meshal Sulaiman Alnuzhah
2. Mousa Mohammed Alateeq
3. Umair Butt Mahboob Butt
201401298 201408299 201316379
Dr. Badr Alshammri
Automatic temperature in stations
4 1. Yaseer Fuhaid Alshamari
2. khaled marfoua alshammary
201410032 201410767
Dr. Ahmed Al saud
Flame detector
5 1. Mohammed Faraj A Alshammari
2. Mohammed Nasser ALTamimi
3. Hatem Rsheed Almangour
201400297 201403360 201007973
Dr. Ayoob Design and Construction of 33/11 KV Line & Substation
6 1. Bander Yousif Alshammry
2. Fahad Abdulmhsen
201309157 201408453
Dr. Anour Farah
Sun Tracking Solar Panel
7 1. Ali Khalaf Alkhalaf 2. Adel Khalid 3. Abdullah Muflih Saray
Alghaythi
201402469 201406017 201406926
Dr. Abdullah Al Baker
Traffic Board Works on solar Power
Department of Electrical Engineering
Senior Projects EE-411 (182)
8 1. Hammam Faouzi Salim 2. Faisal Abdullah Al-
Abeekah 3. Majid Mohammed A
Alibrahim
201407721 201403778 201400264
Dr. Khalid Al-Qunun
Minimization of Losses in Transformer
9 1. Turki Khaled Altamimi 2. Saad Ali Alsaif 3. Thamer Motla1q
Alanzi
201411973 201412074 201300670
Dr. Mansoor Solar Powered Backpack
10 1. Mohammed mohsen fadhl salem
2. Essam Raed Gaffar Ali 3. Anas Taha Fadaaq
201411926 201316466 201403778
Dr. Ahmed AL Zamil
Design and implantation hybrid wind and solar electric system
Department of Electrical Engineering
Senior Projects EE-411 (182)
KEY DATES: EE411 - Senior Project Date Required Action Deadline
Week 2:
Proposal Submission
By this date, you should have
submitted your senior project proposal to
the committee.
Week 8:
Midterm progress
report and
presentation
By this date, you should submit your
midterm progress report that include the
project definition and objectives. Also,
include your strategy and plan of action.
Prepare a 10 minutes PP presentation as a
group.
Submit three hard copies and 1
soft copy to Dr. Imran Khan.
Midterm progress report
submission: February, 19, 2019
Midterm presentation: Week 8
Week 13:
Final report
submission
By this date, you should submit your
final report that includes introduction,
Background, Motivation, and Methodology.
Also, include your Results and Conclusions.
Submit three hard copies and 1
soft copy to Dr. Imran Khan.
Final term progress report
submission: April, 04, 2019
Week 15:
Final presentation
Prepare a 15 minutes PP presentation as a
group Final presentation: Week 15