This document is a resume for Ahmed Mohamed Salah-El-Din El-Saed. It summarizes his personal and contact information, education history, professional experience, technical training, languages and computer skills. He has a Master's degree in Electrical Engineering and over 15 years of experience in instrument maintenance and DCS system installation. His professional experience includes projects installing and maintaining instrumentation and fire/safety systems for several petrochemical companies in Egypt.
Final year project ideas for electrical engineering eepowerschool.comMuhammad Sarwar
Final year project is the ultimate achievement of an electrical engineering graduate. The idea
of a final year project is to practically implement the technical and professional skills learned.
Graduates work on different final year project ideas. The title of an FYP should be novel and
the project must have a positive impact on the society. Many students choose their FYP topic
in a haste, and at the end of completion, it’s no good for them. So, choose your final year
project wisely and give a lot of thinking while choosing final year project ideas for your
electrical engineering degree.
This post gives a complete list of final year project ideas for electrical engineering students. A
short summary (or synopsis) of the project has also been given to get the complete
understanding of the project. The summary contains a short introduction, methodology and
project outcomes.
Undergraduate students of BSEE are encouraged to pick a topic that would implement a novel
research idea. Though, only simulations can also be used instead of a design project. Various
simulation softwares are available to implement the FYP e.g, Matlab/Simulink, Power World
Simulator, ETAP, Digsilent PowerFactory, PSCAD etc.
SVC device optimal location for voltage stability enhancement based on a comb...TELKOMNIKA JOURNAL
The increased power system loading combined with the worldwide power industry deregulation requires more reliable and efficient control of the power flow and network stability. Flexible AC transmission systems (FACTS) devices give new opportunities for controlling power and enhancing the usable capacity of the existing transmission lines. This paper presents a combined application of the particle swarm optimization (PSO) and the continuation power flow (CPF) technique to determine the optimal placement of static var compensator (SVC) in order to achieve the static voltage stability margin. The PSO objective function to be maximized is the loading factor to modify the load powers. In this scope, two SVC constraints are considered: the reference voltage in the first case and the total reactance and SVC reactive power in the second case. To test the performance of the proposed method, several simulations were performed on IEEE 30-Bus test systems. The results obtained show the effectiveness of the proposed method to find the optimal placement of the static var compensator and the improvement of the voltage stability.
Modeling and Simulation of Electrical Power Systems using OpenIPSL.org and Gr...Luigi Vanfretti
Title:
Modeling and Simulation of Electrical Power Systems using OpenIPSL.org and GridDyn
Presenters:
Luigi Vanfretti (RPI) & Philip Top (LNLL)
luigi.vanfretti@gmail.com, top1@llnl.gov
Abstract:
The Modelica language, being standardized and equation-based, has proven valuable for the for model exchange, simulation and even for model validation applications in actual power systems. These important features have been now recognized by the European Network of Transmission System Operators, which have adopted the Modelica language for dynamic model exchange in the Common Grid Model Exchange Standard (v2.5, Annex F).
Following previous FP7 project results, within the ITEA 3 openCPS project, the presenters have continued the efforts of using the Modelica language for power system modeling and simulation, by developing and maintaining the OpenIPSL library: https://github.com/SmarTS-Lab/OpenIPSL
This seminar first gives an overview of the origins of the OpenIPSL and it’s models, it contrasts it against typical power system tools, and gives an introduction the OpenIPSL library. The new project features that help in the OpenIPSL maintenance (use of continuous integration, regression testing, documentation, etc.) are also described.
Finally, the seminar will present current work at LNLL that exploits OpenIPSL in coordination with other tools including ongoing work integrating openIPSL models into GridDyn an open-source power system simulation tool, as well as a demos of the use of openIPSL libraries in GridDyn.
Bios:
Luigi Vanfretti (SMIEEE’14) obtained the M.Sc. and Ph.D. degrees in electric power engineering at Rensselaer Polytechnic Institute, Troy, NY, USA, in 2007 and 2009, respectively.
He was with KTH Royal Institute of Technology, Stockholm, Sweden, as Assistant 2010-2013), and Associate Professor (Tenured) and Docent (2013-2017/August); where he lead the SmarTS Lab and research group. He also worked at Statnett SF, the Norwegian electric power transmission system operator, as consultant (2011 - 2012), and Special Advisor in R&D (2013 - 2016).
He joined Rensselaer Polytechnic Institute in August 2017, to continue to develop his research at ALSETLab: http://alsetlab.com
His research interests are in the area of synchrophasor technology applications; and cyber-physical power system modeling, simulation, stability and control.
Philp Top (Lawrence Livermore National Lab)
PhD 2007 Purdue University. Currently a Research Engineer at Lawrence Livermore National Laboratory in Livermore, CA. Philip has been involved in several projects connected with the DOE effort on Grid Modernization including projects on modeling and simulation, co-simulation and smart grid data analytics. He is the principle developer on the open source power system simulation tool GridDyn, and a key contributor to the HELICS open source co-simulation framework.
Final year project ideas for electrical engineering eepowerschool.comMuhammad Sarwar
Final year project is the ultimate achievement of an electrical engineering graduate. The idea
of a final year project is to practically implement the technical and professional skills learned.
Graduates work on different final year project ideas. The title of an FYP should be novel and
the project must have a positive impact on the society. Many students choose their FYP topic
in a haste, and at the end of completion, it’s no good for them. So, choose your final year
project wisely and give a lot of thinking while choosing final year project ideas for your
electrical engineering degree.
This post gives a complete list of final year project ideas for electrical engineering students. A
short summary (or synopsis) of the project has also been given to get the complete
understanding of the project. The summary contains a short introduction, methodology and
project outcomes.
Undergraduate students of BSEE are encouraged to pick a topic that would implement a novel
research idea. Though, only simulations can also be used instead of a design project. Various
simulation softwares are available to implement the FYP e.g, Matlab/Simulink, Power World
Simulator, ETAP, Digsilent PowerFactory, PSCAD etc.
SVC device optimal location for voltage stability enhancement based on a comb...TELKOMNIKA JOURNAL
The increased power system loading combined with the worldwide power industry deregulation requires more reliable and efficient control of the power flow and network stability. Flexible AC transmission systems (FACTS) devices give new opportunities for controlling power and enhancing the usable capacity of the existing transmission lines. This paper presents a combined application of the particle swarm optimization (PSO) and the continuation power flow (CPF) technique to determine the optimal placement of static var compensator (SVC) in order to achieve the static voltage stability margin. The PSO objective function to be maximized is the loading factor to modify the load powers. In this scope, two SVC constraints are considered: the reference voltage in the first case and the total reactance and SVC reactive power in the second case. To test the performance of the proposed method, several simulations were performed on IEEE 30-Bus test systems. The results obtained show the effectiveness of the proposed method to find the optimal placement of the static var compensator and the improvement of the voltage stability.
Modeling and Simulation of Electrical Power Systems using OpenIPSL.org and Gr...Luigi Vanfretti
Title:
Modeling and Simulation of Electrical Power Systems using OpenIPSL.org and GridDyn
Presenters:
Luigi Vanfretti (RPI) & Philip Top (LNLL)
luigi.vanfretti@gmail.com, top1@llnl.gov
Abstract:
The Modelica language, being standardized and equation-based, has proven valuable for the for model exchange, simulation and even for model validation applications in actual power systems. These important features have been now recognized by the European Network of Transmission System Operators, which have adopted the Modelica language for dynamic model exchange in the Common Grid Model Exchange Standard (v2.5, Annex F).
Following previous FP7 project results, within the ITEA 3 openCPS project, the presenters have continued the efforts of using the Modelica language for power system modeling and simulation, by developing and maintaining the OpenIPSL library: https://github.com/SmarTS-Lab/OpenIPSL
This seminar first gives an overview of the origins of the OpenIPSL and it’s models, it contrasts it against typical power system tools, and gives an introduction the OpenIPSL library. The new project features that help in the OpenIPSL maintenance (use of continuous integration, regression testing, documentation, etc.) are also described.
Finally, the seminar will present current work at LNLL that exploits OpenIPSL in coordination with other tools including ongoing work integrating openIPSL models into GridDyn an open-source power system simulation tool, as well as a demos of the use of openIPSL libraries in GridDyn.
Bios:
Luigi Vanfretti (SMIEEE’14) obtained the M.Sc. and Ph.D. degrees in electric power engineering at Rensselaer Polytechnic Institute, Troy, NY, USA, in 2007 and 2009, respectively.
He was with KTH Royal Institute of Technology, Stockholm, Sweden, as Assistant 2010-2013), and Associate Professor (Tenured) and Docent (2013-2017/August); where he lead the SmarTS Lab and research group. He also worked at Statnett SF, the Norwegian electric power transmission system operator, as consultant (2011 - 2012), and Special Advisor in R&D (2013 - 2016).
He joined Rensselaer Polytechnic Institute in August 2017, to continue to develop his research at ALSETLab: http://alsetlab.com
His research interests are in the area of synchrophasor technology applications; and cyber-physical power system modeling, simulation, stability and control.
Philp Top (Lawrence Livermore National Lab)
PhD 2007 Purdue University. Currently a Research Engineer at Lawrence Livermore National Laboratory in Livermore, CA. Philip has been involved in several projects connected with the DOE effort on Grid Modernization including projects on modeling and simulation, co-simulation and smart grid data analytics. He is the principle developer on the open source power system simulation tool GridDyn, and a key contributor to the HELICS open source co-simulation framework.
USING ELECTROSTATIC FILTER TECHNOLOGY BASED ON SMART CONTROLMohammedQasim60
he most power plants used in Iraq are gas power stations, and one
of the most important factors that affect the efficiency of the gas turbine is the
inlet air quality due to the dusty weather in most of the year especially in the
summer season it’s a problem in terms of limiting electricity production.
1. Page ( 1 of 6 ) Ahmed Salah-El-Din September 2014
BORG EL RAHMAN,MOHAMED NAGIB
STREET,SIDIBESHR,ALEXANDRIA,EGYPT.
(002)(03) 5718490, (002) 01223643162
Ahmedsalah2001@gmail.com
Ahmed Mohamed Salah-El-Din El-Saed
PPeerrssoonnaall
IInnffoorrmmaattiioonn
• Marital status: Married
• Nationality: Egyptian
• Date of Birth: 26 March 1979
QQuuaalliiffiiccaattiioonnss Master Degree in Electrical Engineering, June 2005
Faculty of Engineering, Alexandria University
• Title: The Use of Renewable Power Sources
for Supplying Cathodic Protection System
B.Sc. of Power and Control Engineering, June 2001
Faculty of Engineering, Alexandria University
Power and Control department
• Graduation Grade: Good
• Power Project Grade: Excellent
• Control Project Grade: Excellent
PPrroojjeeccttss • Power project: Harmonic analysis in power system
using computerized measuring system with A/D
converters and data base analysis of a constructed
project and software and hardware design of harmonic
analyzer (using Hall Effect current transformer).
• Control project: Usage of wind power for
generating electrical power by using induction
generators (self exited & connected to network) and
simulating the induction generator using MATLAB and
SIMMULINK.
2. Page ( 2 of 6 ) Ahmed Salah-El-Din September 2014
Period:
1 November 2008 – till now
Position:
SENIOR INSTURMENT SERVICE ENGINEER AND DCS
SYSTEM INSTALLATION
Company:
ENTRAG ( EMERSON AGENT )
Experience:
• Working in the field of instrument service and maintenance
for the following devices
• Rosemount and Micro Motion
1. Pressure transmitters
2. Differential pressure transmitters
3. Temperature transmitters
4. Level transmitters
5. Vortex flow transmitters
6. Magnetic flow transmitters
7. Mass flow transmitters
• Fisher valves and positioners
1. Fisher control valves
2. DVC 5000,6000
• Analyzer
1. Liquid analyzer
2. Gas analyzer
• DCS INSTALLATION (DELTA V)
• Major projects
1- APRCO : installed and commissioned 1500 DST’s
Delta V system
2- BAPETCO : CRP ( Co2 removal Planet ) : I have
supervised the work of the following companies
(Enppi, Petrojet, Petromaint) in the following :
a. Installation of all system process Instrumentation
b. Installation of fire system
c. Loop checking for site instruments
d. Loop checking for fire alarm system
3- APRCO : install and commissioned 4 truck loading
systems
4- KHALDA : installation and commissioning of 25
guided wave level transmitters
5- BAPETCO : Slug Cather project (complete
installation, commissioning and start up) of all field
instrument
6- RASHPETCO : installation of 10 field bus mass
flow meters
7- ABO QIR Fertilizer : responsible for the revamp of
unit 1 (valves, field instrument and analyzer)
3. Page ( 3 of 6 ) Ahmed Salah-El-Din September 2014
PPrrooffeessssiioonnaall
EExxppeerriieennccee
Period:
1 January 2003 – 1 November 2008
Position:
Fire Alarm & Fire Fighting System Maintenance Engineer
And Cathodic Protection Engineer
Company:
Alexandria Petroleum Maintenance Company (PetroMaint)
Site:
Sidi-Krier Petrochemicals Company (SIDPC)
Experience:
• Working in the field of fire sensing and fire fighting system
and cathodic protection.
• Fire Alarm & Fighting system in the following:
1. Maintenance of deluge and check alarm valves
2. Ethylene fire and gas panel maintenance
3. Polyethylene fire and gas panel maintenance
4. Utility fire and gas panel maintenance
5. Inergen system maintenance and test for
(ethylene, polyethylene and utility plants)
6. Maintenance of smoke and heat detectors
7. Maintenance and test of gas detectors
• Cathodic protection in the following:
8. Installation of cathodic protection system for utility plant
9. Preventive maintenance for cathodic protection
transformers
10.Analyzing readings of test points
11. Maintenance of problems in the system
12.Making data base for test points for tracing the behavior
of the cathodic protection system
Period:
1 May 2002 - 1 January 2003
Position:
Instrumentation Project Engineer
Company:
Alexandria Petroleum Maintenance Company (PetroMaint)
Site:
Honeywell , ABO-SULTAN Project
Experience:
• Worked with Honeywell in the field of installation of new
DCS for abo-soultan power station for 6 months
• Installation of flow transmitters, level transmitters, pressure
transmitters, automatic control valves and level radar system
• Installation of control valves
4. Page ( 4 of 6 ) Ahmed Salah-El-Din September 2014
Period:
1 Augest 2001 - 1 May 2002
Position:
Sales Engineer
Company:
Lector for electrical products and contracting
Experience:
• Worked for 6 months in the market of low voltage
products sales for the following
1. Earthing system sales (earthing rods, down conductors,
T-unions, couplings, cad-weld pots)
2. Lightning protection systems (air terminals, down
conductors, T- unions, couplings, prevectrons, preventrons)
3. Panels (low voltage panels, medium voltage panels)
4. Circuit breakers (miniature C.B, molded case C.B,
power C.B)
5. Bus bars and bus ducts (lighting bus bars, low
voltage bus bars)
• Making cost calculation for different projects
• Making Technical offers for projects
CCoollllaaggee
TTrraaiinniinngg
eexxppeerriieennccee
Petrochemical Egypt Company
• Training at Electrical Station
El-Nakl & El-Handasa
• Training on Automatic Control (PLC & Panels)
El-Alamia for Computers
• Working in Hardware maintenance (2 months)
• Personal-Computers sales and maintenance
Alexandria Electrical Company
• Training on the use of low voltage contactors.
• Low voltage cable installation
STIA Company for Textile
• The graduation power project (4 months)
• Training on automatic control of textile machines
• Design of complete database for the factory including
(AutoCAD drawings & load analysis using Access &
power point)
5. Page ( 5 of 6 ) Ahmed Salah-El-Din September 2014
TTeecchhnniiccaall
TTrraaiinniinngg
I have attended the following courses
1. Delta V implementation course
2. Delta V hardware and troubleshooting
3. Liquid analyzer operation and maintinance
4. Applied instrument engineering tecnology
5. Fire protection system
6. Low voltage power factor correction
7. Electrical protection system
8. Medium voltage and low voltage switching
9. Lighting in hazard area
10.Power and instrument transformers
11.Earthing and lightning protection system
12.Cathodic protection (level 2)
13.Control and protection devices
14.Batteries, battery chargers and UPS systems
15.Moving from DCS to field bus
16.Basic operation and maitinance of liquid analyzer
LLaanngguuaaggeess
SSkkiillllss
• English:
Conversation: Excellent
Reading: Excellent
Writing: Excellent
(Graduated From English School)
6. Page ( 6 of 6 ) Ahmed Salah-El-Din September 2014
CCoommppuutteerr
SSkkiillllss
• Technical Software programs
- AMS (Asset Management System)
- EA (engineering assistant soft ware)
- RRM (Rosemount Radar Master)
- Prolink
- Easy upgrade soft ware for H475 and H375 (
including configuration and repair)
• Programming Languages:
- Pascal
- Basic
- Matlab
• Office Working & Applications:
- Microsoft Office
- Matlab and Simmulink
- Mathcad
- Electronic Work Bunch (EWB)
- Pspice
- Calclux (for illumination)
- Cutler hammer protection program