The document presents a proposal for a new Renewable Energy Engineering program to be offered at Menoufia University's Faculty of Engineering in Shibin El Kom. The 4-year program would offer 180 credit hours covering courses in mechanical engineering, electrical engineering, production engineering, basic sciences, and renewable energy. The program aims to develop innovative engineers with skills in various renewable energy fields and research to meet national, regional and global market needs through hands-on learning and quality education.

1. هندسةالطاقة المتجددة
Renewable Energy Engineering
1
بسم الله الرحمن الرحيم
جامعة المنوفيه
كلـــــية الهندسة بشبين الكوم
طلب
للتقدم ببرنامج فى إطار
البرامج الجديدة للتعليم العالي
نوفمبر 0241

2. هندسةالطاقة المتجددة
Renewable Energy Engineering
2
المحتويات
مسلسل الموضوع الصفحة
1 صفحة الغلاف 1
2 المحتويات 2
3 البرنامج 3
4 الجامعة 3
5 الهدف من طرح البرنامج الجديد 3
6 أسماء البرامج الحالية التى تقدمها الكلية 3
7 الإطار العام للبرنامج 3
8 مقدمة 2
9 رؤية البرنامج 4
11 رسالة البرنامج 5
11 مواصفات خريج البرنامج 5
12 مقررات الخطة الدراسية للبرنامج 6
13 متطلبات الجامعة 6
14 متطلبات الكلية 6
15 متطلبات أساسية للتخصص 7
16 متطلبات فرعية للتخصص 8
17 الخطة الدراسية للبرنامج 8
18 إمكانيات الكلية والجامعة للمساهمة فى البرنامج 11
19 علاقة البرنامج بسوق العمل 12
21 دراسة الجدوى 13
21 الملحق 15
22 توصييف المقررات 15

3. هندسةالطاقة المتجددة
Renewable Energy Engineering
3
أولا: البرنامج
Renewable Energy Engineering (REE)
هندسة الطاقة المتجددة
ثانيا: الجامعة الكلية -
جامعة المنوفية
كلية الهندسة بشبين الكوم
ثالثا: الهدف من طرح البرنامج الجديد
1 توفير تعليم عالي الجودة يركز علي الاستخدام الفعال لتكنولوجيا المعلومات وتحليل البيانات. -
2 تطوير المقررات الدراسية في ضوء معايير الجودة المحلية والإقليمية والعالمية. -
3 تزويد الطلاب بالخلفية النظرية والتطبيقية المتخصصة التي تتناسب مع التغيرات المتزايددة فدي -
مجال البحث العلمي وسوق العمل.
4 توفير مصادر المعرفة لتنميدة قددرات الطدلاب فدي الابتكدار والدتعلم الدلاتي والمسدتمر والمعرفدة -
التكاملية لحل مشاكل الطاقة مع مراعاة قواعد الأمن والأمان والعوامل الاقتصادية والبيئية.
5 تددوفير التعلديم عددالى الجدودة والتددريب العملددي المتميددز للطددلاب فددي تخصصددات هندسددة الطاقددة -
والطاقة المتجددة وحماية البيئة من أجل ربط الدراسة الأكاديمية بالتطبيقيدة حتدى يسدهل دمجهدم فدي
الحياة العملية.
6 إعداد خريج يتمتع بمهارات الاتصال الفعال والقيادة والعمدل الجمداعي والمنافسدة وفقدا للمعدايير -
الأخلاقية والاجتماعية للمهنة والمجتمع.
رابعا: أسماء البرامج الحالية التى تقدمها الكلية
تمنح كلية الهندسة بشبين الكوم درجة البكالوريوس فى الهندسة فى التخصصات الآتية:
1 الهندسة الكهربية )شعبة القوى والآلات الكهربية(. -
2 هندسة القوى الميكانيكية -
3 هندسة الإنتاج والتصميم الميكانيكى -
4 الهندسة المدنية -
5 الهندسة المعمارية -
6 برنامج الهندسة الكهربية والحاسبات )بنظام الساعات المعتمدة( -
خامسا: الإطار العام للبرنامج
مقدمة
 يقددم البرنددامج درجددة البكددالوريوس فددى "هندسددة الطاقددة المتجددددة " مددن خدطة خطددة دراسددية
تحتوى على عدد من المقررات الدراسية والتطبيقيدة الحديثدة بنظدام السداعات المعتمددة ) 180 سداعة
معتمدة(، ويقدم جزء من المقررات إلكترونيا بنظام التعلديم الدتات ، حيد يددرس الطالدق مقدررات
مدن تخصصدات هندسدة القدوى الميكانيكبدة ،الهندسدة الكهربيدة والآلات ، هندسدة الإنتداج والتصدميم ،

4. هندسةالطاقة المتجددة
Renewable Energy Engineering
4
وهندسة العلوم الأساسية.
 تسددتخدم وسدداكة تكنولوجيددا التعلدديم فددى تحقيددا التعاعددة داخددة القاعددات التعليميددة لتدددريس المندداهج
الدراسية للبرنامج المقترح و تطبا معايير الجودة العالمية ف اختيار المحاضدرين مدن ضعضداء هيكدة
التدددريس لتنعيددت الخطددة الدراسددية ، ويددتم عمددة الاسددتبيانات المكتوبددة لأخددت رضى الطددطق فدد العمليددة
التعليميددة وكدتلى رضى المحاضددرين فدد المددواد الدراسدية التددى يقومدون بتدريسددها والعمددة بشددكة جدداد
لمواكبة التطور التكنولوج فى التخصص مع الاهتمام بتعادي ضي سلبيات يمكن ضن تؤثر على العملية
التعليمية.
 ويستند البرنامج المقترح عل قاعدة من المشاركات الععالة من جميع ضطرافه: المنسقين والموجهين
الجامعيين والأساتتة و الطلبة والجهات المستعيدة من الخريجين سواء ضكانت حكومية وغير الحكومية
وكتلى من الأنشطة البحثية، ولا يقف دور الطالق ف البرندامج علد التلقد فقدط مدن ضجدة الحصدوة
عل الدرجة العلمية بة يتجاوزه إلى المساهمة ف إنشاء وتطوير البرنامج بجميع إمكانياته وتسهيطته
وضساليبه، كما يستند البرنامج عل مبدض التعليم من خطة تطوير البح العلمى و المشاركة الععالة بين
جميع ضطرافه ف التعليم و ضيضا البح العلم .
 يمتداز هدتا البرندامج عدن البدرامج التددى يدتم تنعيدتها حاليدا بالكليددة باحتواكده علددى عددد مدن مقددررات
الدراسية الحديثة التى تكسق الخريج المهارات العنية الطزمدة للتطدوير والإبدداي فد مجدالات الطاقدة
وتحويطتها والطاقة الجديدة والمتجددة وحماية البيكة من التلو الصناعى الناتج عن محطدات الطاقدة
واحتددراا ضنددواي الوقددود الأحعددورى المختلعددة وتلددى لمواكبددة التطددور فددى الجامعددات الأجنبيددة وتلبيددة
متطلبات سدوا العمدة لديس داخدة جمهوريدة مصدر العربيدة فقدط لكدن ضيضدا علدى المسدتوى الإقليمد
والدولى.
 يعتمددد تقددديم البرنددامج علددى اسددتخدام وسدداكة وتكنولوجيددا التعلدديم فددى التدددريس وكددتلى علددى الجانددق
التطبيق من خطة معامة متقدمه تهتم بالجانق العمل للمقررات الدراسية المعتمدة فى البرنامج.
 رؤيـــة البرنامج
يسع برنامج هندسة الطاقة المتجددة لتخدريج مهنددس ابتكدارى خدطا تو مهدارات عاليدة فدى مجدالات
الطاقددة المتجددددة مددن مصددادرها المختلعددة وتلددى للحددد مددن الإعتمدداد علددى الوقددود الأحعددورى لتندداقص
إحتياطياتدده وزيددادة تكدداليف اسددتخدامه ومشددكطت التلددو البيكيددة الناتجددة مددن عددوادم محطددات الطاقددة
واحتدراا الوقدود والصدناعات المختلعدة ليواكدق الاحتياجدات المتزايددة بسدوا العمدة المحلد والإقليمدد
والعدالم والبحد العلمدد مدن خدطة تعظديم الاسدتعادة مدن الإمكانيددات التكنولوجيدة والعلميددة والمعمليددة
الحديثة والتعليم والتعلم المستمر والتدريق.

5. هندسةالطاقة المتجددة
Renewable Energy Engineering
5
 رسالة البرنامج
تخددريج مهندددس حاصددة علدد تعلدديم متميددز ومهددارات تطكددم سددوا العمددة المحلدد والإقليمدد والعددالم
والبحدد العلمدد فدد مجددالات الطاقددة المتجددددة وقددادر علدد خدمددة المجتمددع فدد مجددالات تخصصدده
والوصوة إلى ضنسق الحلوة التطبيقية لمشاكة منظومات الطاقة الت تستخدم مصادر الطاقة المسدتدامة
والمتجددة وتلو البيكة.
 مواصفات خريج البرنامج
يؤهل برنامج هندسة الطاقة المتجددة خريجا ليكون قادرا على:
.1 دراسة وتحلية منظومات الطاقة المختلعة وتحويطتها وطرا توليد القدرة الميكانيكية والكهربية.
.2 تشددلية منظومددات الطاقددة الشمسدية فددى تحليددة وتسددخين الميداه والخطيدا العوتوفلتيددة وطاقدة الريدداح
والطاقة الحيوية وطاقة الأمواج والحرارة الأرضية.
.3 الإلمام بأنظمة حماية البيكة والتلو الصناعى واللازات الحبيسة للحرارة .
.4 تطوير منظومات الطاقة الجديدة والمتجددة بما يتطكم مع الظروف المناخية والبيكيدة محليدا وإقليميدا
من خطة مواكبة التطور التكنولوجى.
.5 تشلية وإدارة مراكز تطوير وصيانة وإصطح معدات الطاقة الجديدة والمتجددة.
.6 إجراء البحو والدراسات والترشيد ف مجاة الطاقة وإيجاد البداكة من مصادر الطاقة المتجددة.
.7 التعامددة مددع الأجهددزة والمعدددات الميكانيكيددة التدد تعمددة فدد مجددالات الطاقددة المتجددددة والددتخطط
والإشرف عل صناعتها وتركيبها وتشليلها وإصطحها.
.8 فحص الأعماة المنجزة للتأكد من كعاءة التشدلية ومطابقدة المواصدعات ومسدتويات الأمدن والأمدان
لأنظمة الطاقة المتجددة.
.9 تصميم وتنعيت وتشلية وصيانة محطات الطاقات المتجددة كمحطات توليد الكهرباء باستخدام الطاقة
الشمسية ضو طاقة الرياح وتحلية وتسخين المياه وإنتاج الهيدروجين وخطيا الوقود.
.11 توظيددف النظريددات والمعلومددات والبيانددات والأفكددار التدد تحقددا ترشديد الطاقددة والخامددات واتخددات
القرارات الكعيلة بحسن الإدارة وجودة الأداء.
.11 القدرة عل مجابهة المشاكة ضثناء تأدية المهام ومهدارات الاتصداة وتدأمين الأداء للمعددات وكعداءة
التشلية.

6. هندسةالطاقة المتجددة
Renewable Energy Engineering
6
سادسا: نبذة عن الخطة الدراسية للبرنامج الجديد
قائمة المقررات الدراسية
Table 1: List of University Requirements (22 Credits)
Core Courses ( 18 Credits)
Code
Course Title
Prerequisite
Cont. hrs.
Credits
L
T
P
Σ
GEN001
English Language
2
2
4
3
GEN002
Introduction to Computers
2
2
4
3
GEN101
Human Rights
2
2
2
GEN102
Engineering Ethics and Skills
GEN101
2
2
2
GEN103
Foundation of Economics
2
2
2
GEN310
Writing Technical Report
2
2
2
GEN402
Accounting
2
1
3
2
GEN403
Project Management
2
2
2
)I( Elected Courses ( 4 Credits)
Code
Course Title
Prerequisite
Cont. hrs.
Credits
L
T
P
Σ
GEN003
English Oral Communication
GEN001
2
1
3
2
GEN004
Advanced Spoken English
GEN001
2
1
3
2
GEN201
Marketing
2
1
3
2
GEN301
Engineering Economy
GEN103
2
1
3
2
Table 2: List of College Requirements (43 Credits)
Core Courses ( 37 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
BES001
Mathematics(I)
2
2
4
3
BES002
Physics (I)
2
2
4
3
BES003
Applied Mechanics
2
2
4
3
BES004
Chemistry
2
2
4
3
BES005
Mathematics(II)
BES001
2
2
4
3
BES006
Manufacturing Engineering
2
2
2
BES007
Physics (II)
BES002
2
2
4
3
BES008
History of Engineering Science
2
2
2
BES009
Engineering Drawing
1
3
4
3
BES101
Computer Language and Applications
GEN002, BES005
2
2
4
3
BES102
Probability and statistics
BES001, BES 005
2
2
4
3
BES103
Introduction to Numerical
BES101, BES005
2
3
5
3

7. هندسةالطاقة المتجددة
Renewable Energy Engineering
7
Methods
ENG401
Graduation Project
6
6
3
(II) Elected Courses ( 6 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
BES104
Applied Mathematics
BES001,BES005
2
2
4
3
BES105
IT Systems
2
2
4
3
BES106
Statistical Methods
BES001
2
2
4
3
BES201
Linear Programing
BES101
2
2
4
3
Table 3: List of Specialization Requirements Major (62 Credit)
Core Courses ( 53 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
ENG101
Introduction to Energy Science
2
1
3
2
ENG102
Statics and Dynamics
BES001, BES002
2
2
4
3
ENG103
Mechanical Drawing
BES009
1
3
4
3
ENG104
Computer Aided Drawing
BES009,ENG103
1
3
4
3
ENG105
Instrumentation Measurement
2
2
4
3
ENG201
Thermodynamics (I)
BES005,BES007
2
2
1
5
3
ENG202
Fluid Mechanics
BES005,BES007, ENG102
2
2
1
5
3
ENG203
Electric Power Engineering
2
2
1
5
3
ENG204
Power Electronics for Renewable Energy Systems
ENG203
2
2
1
5
3
ENG205
Solar Energy Systems
ENG101
2
2
1
5
3
ENG206
Engineering Materials
BES004,ENG102
2
1
1
4
3
ENG207
Thermodynamics (II)
ENG201
2
2
1
5
3
ENG208
Aerodynamics
ENG202
2
2
1
5
3
ENG301
Heat Transfer
ENG101
2
2
1
5
3
ENG302
Machine Design
ENG206
2
1
1
4
3
ENG303
Combustion and Pollution Control
ENG207
2
2
1
5
3
ENG304
Wind Energy Systems
ENG208
2
2
1
5
3
ENG305
Automatic Control and Data Acquisition
ENG104
2
3
5
3
(III) Elected Courses ( 9 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
ENG402
Solar Thermal Energy Systems
ENG207
2
2
1
5
3
ENG403
Advanced Solar Cells systems
ENG205
2
2
1
5
3
ENG404
PV Technology and Manufacturing
ENG204,ENG205
2
1
1
4
3
ENG405
PV in the Built Environment
ENG204,ENG205
2
2
4
3
ENG406
Design for Energy Efficiency
ENG101
2
2
4
3
ENG407
Energy Storage and Transmission
ENG205,ENG402
2
2
4
3

8. هندسةالطاقة المتجددة
Renewable Energy Engineering
8
Table 4: List of Specialization Requirements Minor (53 Credit)
Core Courses ( 44 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
ENG306
Industrial Training
120 Credits
6
6
3
ENG307
Economics of Energy Systems
ENG101
2
2
4
3
ENG308
Quality Control Management
2
2
4
3
ENG309
Mass Transfer
ENG301
2
1
3
2
ENG408
Electronic Materials and Devices
ENG204
2
2
4
3
ENG409
Microcontroller-Based Systems
ENG204, ENG305
2
2
4
3
ENG410
Solar Cooling and Air Conditioning
ENG205,ENG402
2
2
1
5
3
ENG411
Hydrogen and Fuel Cells
ENG406
2
2
1
5
3
ENG412
Solar Desalination Systems
ENG205
2
2
4
3
ENG413
Hydro Power Systems
ENG208
2
2
4
3
ENG414
Solar Power Plants
ENG205
2
2
4
3
ENG415
Thermal Power Plants
ENG101, ENG201
2
2
1
5
3
ENG416
Bio Mass Energy System
BES004
2
2
4
3
ENG417
Geothermal Energy Systems
ENG101
2
2
1
5
3
ENG418
Design of Wind Turbines
ENG304
2
2
1
5
3
(V) Elected Courses ( 9 Credits)
Code
Course Title
Prerequisite
Cont. hrs
Credits
L
T
P
Σ
ENG419
Special Machines for Wind Turbines
ENG304
3
3
ENG420
Environmental Engineering and Pollution Control
ENG303,ENG415
3
3
ENG421
Waste Management and Energy Recovery
ENG416
3
3
ENG422
Bio-Energy Conversion & Processing of Waste
ENG416
3
3
ENG423
Green Buildings
ENG303
3
3
سابعاً: الخطة الدراسية لبرنامج هندسة الطاقة المتجددة – Syllabus
First Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
GEN001
English Language
3
GEN002
Introduction to Computers
3
BES001
Mathematics (I)
3
BES002
Physics (I)
3
BES004
Chemistry
3
BES008
History of Engineering Science
2
Total
17

9. هندسةالطاقة المتجددة
Renewable Energy Engineering
9
Second Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
BES003
Applied Mechanics
3
BES005
Mathematics (II)
BES001
3
BES007
Physics (II)
BES002
3
BES009
Engineering Drawing
3
BES006
Manufacturing Engineering
2
GEN101
Human Rights
2
Elective I
2
Total
18
Third Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG201
Thermodynamics (I)
3
ENG103
Mechanical Drawing
3
GEN102
Engineering Ethics and Skills
GEN101
2
ENG102
Statics and Dynamics
BES001, BES002
3
BES101
Linear Programming
BES101
3
ENG101
Introduction to Energy Science
2
Elective I
2
Total
18
Fourth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG104
Computer Aided Drawing
GEN002, BES005
3
ENG202
Fluid Mechanics
BES005,BES007,ENG102
3
BES102
Probability and statistics
BES001, BES 005
3
BES106
Introduction to Numerical Methods
BES101, BES005
3
ENG207
Thermodynamics (II)
ENG201
3
Elective II
3
Total
18
Fifth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
GEN103
Foundation of Economics
2
ENG105
Instrumentation Measurement
3
ENG203
Electric Power Engineering
3
ENG208
Aerodynamics
ENG202
3
ENG301
Heat Transfer
ENG101
3
Elective II
3
Total
17

10. هندسةالطاقة المتجددة
Renewable Energy Engineering
11
Sixth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG204
Power Electronics for RES
3
ENG205
Solar Energy Systems
ENG101
3
ENG206
Engineering Materials
3
ENG304
Wind Energy Systems
ENG208
3
ENG303
Combustion and Pollution Control
ENG207
3
Elective III
3
Total
18
Seventh Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG302
Machine Design
ENG206
3
ENG309
Mass Transfer
ENG301
2
ENG305
Automatic Control and Data Acquisition
ENG104
3
ENG307
Economics of Energy Systems
ENG101
3
ENG308
Quality Control Management
3
Elective III
3
Total
17
Eighth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG306
Industrial Training
3
ENG408
Electronic Materials and Devices
ENG204
3
ENG410
Solar Cooling and Air Conditioning
ENG205,ENG402
3
ENG411
Hydrogen and Fuel Cells
ENG406
3
ENG412
Solar Desalination Systems
ENG205
3
Elective III
3
Total
18
Ninth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
ENG409
Microcontroller-Based Systems
ENG204, ENG305
3
ENG413
Hydro Power Systems
ENG208
3
ENG414
Solar Power Plants
ENG205
3
ENG415
Thermal Power Plants
ENG101, ENG201
3
ENG416
Bio Mass Energy System
BES004
3
ENG401
Graduation Project
Elective V
3
Total
18

11. هندسةالطاقة المتجددة
Renewable Energy Engineering
11
Tenth Semester
CRS. No.
Course Title
Prerequisite
Cr. Hrs.
GEN401
Writing Technical Report
2
GEN402
Accounting
2
GEN403
Project Management
2
ENG417
Geothermal Energy Systems
ENG101
3
ENG418
Design of Wind Turbines
ENG304
3
ENG401
Graduation Project
Elective V
3
Elective V
3
Total
18
ثامن اً: إمكانيات الكلية / الجامعة الت تساهم ف إنجاح البرنامج
ض إمكانية الكلية: -
-1 مكتبة الكلية تحتوى على عدد من الكتدق العلميدة المختلعدة والتد تدم تنظيمهدا مدن خدطة
برامج قواعد البيانات ALIS .
-2 شبكة الإنترنت بالكلية.
-3 مركز الااستشارات الهندسية بالكلية.
-4 المعامة الهندسية المختلعة بالكلية.
-5 الورش الهندسية بالكلية.
-6 وجود ضعضاء هيكة تدريس حاصدلين علدى درجدة الددكتوراه مدن مددارس علميدة مختلعدة
ضوروبية وضمريكيدة ومصدرية ومدن جامعدات معتدرف بهدا فد المحافدة العلميدة العالميدة،
وتوى خبرة فى مجالات تكنولوجيه وصناعية.
-7 وجود قاعات دراسية متعددة ومدرجات بها ضجهزة العرض المرك .
-8 وجود هيكة إداري بالكلية تو خبرة فى استخدام الحاسبات الآلية.
ق إمكانيات الجامعة: -
.1 وجود عدد من الكليات المتخصصة فى الجامعة مثة كلية العلوم وكلية التربية النوعية
)قسم تكنولوجيا التعليم( كلية الحاسبات والمعلومات كلية الهندسة الإلكترونية. – -
.2 وجود مركز تدريق حاسق آلى بالجامعة.
.3 وجود نوادى تكنولوجيا المعلومات بكليات الجامعة المختلعة.
.4 توجد شبكة الربط والمعلومات بالجامعة.
.5 وجود المكتبة السمعية والبصرية بالجامعة.
.6 الإدارة العامة لمركز المعلومات بالجامعة.
.7 مركز الدراسات الإستراتيجية وإعداد القادة بالجامعة.
وتستطيع الكلية استخدام العاكد المتوقع من تنعيدت البرندامج المقتدرح إيجابيدا لصدالح تددعيم بنيتهدا
التحتية ودعم البرامج الت تقدم حاليا وتحسين الخدمة بها عن طريا :

12. هندسةالطاقة المتجددة
Renewable Energy Engineering
12
.1 طرح منح دراسية للططق المتعوقين فى البرنامج مما يخلا جوا تنافسيا لصدالح العمليدة
التعليمية.
.2 تجهيز معامة تكنولوجية حديثة بالكلية بالإضافة لتحدي المعامة الحالية.
.3 تزويد المكتبة بعدد من الكتق الحديثة.
.4 عقد دورات تدريبية وورش عمة مختلعة للتنمية المستمرة للهيكة المعاونة بالكلية.
.5 حضور مؤتمرات علمية لأعضاء هيكة التدريس المشاركين فى المشروي وتلى لتطدوير
البح العلم .
.6 تعرغ هيكة التددريس للعمدة داخدة الكليدة سدوف يسداعد إلدى حدد كبيدر فد إثدراء العمليدة
التعليمية وينعكس إيجابيا على ضسلوق العمة والتطوير داخة الكلية.
تاسع ا : علاقة البرنامج بسوق العمل
تتنددوم مجددالات العمددل لمهنددد الطاقددة المتجددددة بشددكل كبيددر حيددث تشددمل هددلم المجددالات مختلددف مسددتويات
الأعمال الهندسية التي تبدأ من مجرد عمليات هندسية محدودة وبسيطة وتصل إلي عمليات عالية التكلفة وذات
مجالات متعددة فعلى سبيل المثال لا الحصر فإن مهند الطاقة المتجددة يمكنه ممارسة مهامده فدي المجدالات
التالية:
• يدير عملا خاصا به فهو يملك القدرة علي إدارة مكتب استشارات وتنفيل إعمال فى تطبيقات الطاقة الشمسية
المختلفة وطاقة الرياح ومحطات تحلية الميام بالطاقة الشمسية.
• يعمل كمهند مبتدىْ وصولا إلى رئيس الشدركة أو الهيئدة فدي كدل مجدالات توليدد القددرة والطاقدة المتجدددة
والتي تبدأ من أبسط أنوم المعدات ووصولا إلى اكبر المجالات كمحطات توليد الكهرباء والمحطات الشمسدية
لتوليد الكهرباء ومزارم طاقة الرياح.
• • تحتاج كل المؤسسات والهيئات التي تتعامل مع شكل من أشكال الطاقة المتجددة إلى مهند طاقة متجددة
لتلبية خطط التنمية فى الإعتماد على توليد الكهرباء من مصادر الطاقة الشمسية والرياح.
• يمتد عمل مهند الطاقدة المتجدددة إلدي شدركات الصدناعات البتروكيماويدة والأصدباو والراتنجدات ووةارة
البيئة.
• يلعب مهند توليد الكهرباء من مصدادر الطاقدة المتجدددة دورا أساسديا فدي تصدميم وتشدغيل المعددات التدي
تعمل بالطاقة المتجددة )طاقة الرياح الطاقة الشمسية طاقة المد والجزر(. – -
كما تتنوم مجالات العمل لمهند الطاقة المتجددة فى المجالات التالية:
 محطات الطاقة الشمسية ومزارح الرياح لتوليد الكهرباء.
 محطات الطاقة المستدامة الغير تقليدية مثل الطاقة الحيوية من المخلفات المنزلية والزراعية.
 تحلية الميام وتسخينها بالطاقة الشمسية.

13. هندسةالطاقة المتجددة
Renewable Energy Engineering
13
 تبريد وتدفئة المناةل بالطاقة الشمسية وتجفيف الحاصلات الزراعية.
عاشر ا : دراسة جدوى
يمكددن ضن يبددض تنعيدت هدتا البرنددامج بعددد طددطق هدو ) 111 طالددق( وعددد السدداعات للبرنددامج التدى يجددق ضن يدرسدها
الطالق هو 181 ساعة معتمدة، ويتم تدريس البرنامج على 11 فصوة دراسية وبعدد دراسدة تكلعدة السداعة المعتمددة
فى مؤسسات التعليم المشابهة يقترح ضن تكون تكلعة الساعة المعتمدة هى 251 جنيها.
ويمكن حساق تكلعة الدراسة للبرنامج ككة= عدد الساعات x عدد الططق x 251 جنيه =
181 ساعة معتمدة = " " " " x 111 طالق x 251 جنيه= 4.511.111 جنيها
وتكلعة الدراسة للعصة الدراسى الواحد=)عدد الساعات فى العصة الدراسى( x عدد الططق x 251 جنيه
18 ساعة معتمدة = " " " " x 111 طالق x 251 جنيه = 451111 جنيه
ويمكن توزيع بنود الصرف للفصل الدراسى الواحد وفقا لمايلى:
تحدد بنود الإنعاا من موارد البرنامج على النحو التالى:
-1 يددتم توريددد نسددبة 5% مددن إجمددالى مددوارد البرنددامج للجامعددة لتلطيددة الأعبدداء الإداريددة المتعلقددة
بالبرنامج مثة مراجعة وإستخراج الشهادات وبدة حضور جلسات اللجنة العليا للإشراف بالجامعة.
-2 يتم الصرف بحد ضقصى 51 % من إجمالى موارد البرنامج لتلطية مايلى:
ض تكلعة مكافآت التدريس . -
يتم تحديد ضجر الساعة لأعضاء هيكة التدريس والهيكة المعاوندة وفقدا لمدا يحددده مجلدس إدارة البرندامج،
مع مطحظة ضن لايزيد عدد ططق برنامج الساعات المعتمدة فى المحاضرة عن 81 طالق، وضن لايزيد
عدد ططق برنامج الساعات المعتمدة فى حصص التمارين ضو المعامة عن 15 طالق لكة عضو هيكدة
تدريس ضو مدرس مساعد ضومعيد.
ق تكلعة مكافآت لجان رصد الدرجات والكنتروة وإعداد السجطت الأكاديمية للططق -
ج مكافأت تصحيح ضوراا الإجابة والتقييم . -
د مكافأة ركيس مجلس إدارة ومنسا )مدير( البرنامج بما لا يجاوز 111 % من الراتق الأساسى شهريا -
لكة منهما.
ه مكافآة العاملين الإداريين والسكرتارية والعماة المشاركين فى العملية التعليمية وضعماة الامتحانات. -
-3 يتم صرف المتبقى من إجمالى موارد البرنامج )بحد ضدنى 45 %( داخة الكلية على مايلى:
ض تطوير المعامة والمكتبات والورش التعليمية والتى تخددم كافدة طدطق الكليدة مدع وضدع الأولويدة فدى -
المرحلة الأولى لططق البرنامج مما يعمة على رفع جودة العملية التعليمية بالكلية.
ق تطوير البنية الأساسية للكلية وبما يعمة علدى خلدا مدردود إيجدابى لبدرامج السداعات المعتمددة علدى -
العملية التعليمية ككة بالكلية.
ج بدة حضور جلسات مجلس الإدارة. -
وعلددى تلددى يمكددن ضن يدؤثر تنعيددت هدتا البرنددامج بالإيجدداق علددى الدراسددة بالكليددة مدن خددطة تطدوير وتحدددي
المكتبة، والمعامة وقاعات التدريس --- إلخ. كما يمكن إعادة ضخ فاكض الميزانية لصالح العملية التعليميدة -
بالكلية.

14. هندسةالطاقة المتجددة
Renewable Energy Engineering
14
ضعضاء هيكة التدريس بقسم هندسة القوى الميكانيكية بكلية الهندسة شبين الكدوم جامعدة المنوفيدة المتوقدع – –
مشاركتهم فى التدريس فى البرنامج المقترح علما بأن الاختيار سوف يكون وفقدا للتخصدص الددقيا والمعدايير
الأكاديمية والإستعانة بتخصصات من كلية العلوم جامعة المنوفية.
م الإسم التخصص الدرجة العلمية
1 ض.د/طاهر إبراهيم صبرى محطات حرارية ضستات
2 ض.د/نبية إبراهيم إبراهيم هويدى ديناميكا اللازات ضستات
4 ض.د/صبيح محمد عباس سليم آلات هيدروليكية ضستات
6 ض.د/ضحمد صبرى حجازى تحوية طاقة ضستات
7 ض.د/نبية حنعى محمود ضحمد محطات حرارية ضستات
8 ض.د/ على رحيم الللبان ضلات حرارية ضستات
9 ض.د/ محمد عبد المجيد القاضى ميكانيكا مواكع ضستات
11 ض.د/ محمد خلية بسيونى ضنتقاة حرارة ضستات
11 ض.د/شديد حسن شمس الدين إنتقاة حرارة ضستات
12 ض.د/موسى محمد محمد موسى مواكع حرارية وطاقة شمسية ضستات
13 ض.د/عبدالكريم مرسى حجاق دياميكا اللازات ضستات
14 ض.د/ضشرف علوى بطبة ضنظمة مواكع ضستات
15 ض.د/مصطعى نصر محمد نصر ميكانيكا المواكع ضستات
16 ض.د/فتحى محمد عبدالعظيم محعوظ ضنتقاة حرارة ضستات
17 ض.د/وجيه ضحمد عبدالعتاح العسكرى ميكانيكا المواكع ضستات
18 ض.د/ صعوت محمد بدره تحكم الى استات مساعد
19 ض.د/ محمد عبد الوار حبيق ضنتقاة حرارة وكتلة ضستات مساعد
21 ض.د/صعوت عبدالمسيح ولسن آلات الإحتراا داخلى ضستات مساعد
21 ض.د/عماد حامد السيد عامر طاقة شمسية ضستات مساعد
22 ض.د/ضحمد عاشور الحارون تحوية طاقه ضستات مساعد
23 ض.د/ محمد عبد العزيز الات مواكع استات مساعد
24 ض.د/ عصام وهبه ديناميكا غازات استات مساعد
25 ض.د/ مصطعى ضحمد عبد الباقى تبريد وتكييف استات مساعد
ضعضدداء هيكددة التدددريس بقسددم الهندسددة الكهربيددة بكليددة الهندسددة شددبين الكددوم جامعددة المنوفيددة – –
المتوقددع مشدداركتهم فددى التدددريس فددى البرنددامج المقتددرح علمددا بددأن الاختيددار سددوف يكددون وفقددا
للتخصص الدقيا والمعايير الأكاديمية.
م الإسم التخصص الدرجة العلمية
1 ض.د/فتحى السيد عبدالقادر آلات كهربية ضستات
2 ض.د/شعبان مبروى عشيبة التحكم فى نظم القوى الكهربية ضستات
3 ض.د/حسين عبدالعظيم يس التحكم فى نظم القوى الكهربية ضستات
4 ض.د/محمد مصطعى الشنوانى آلات كهربية ضستات
5 ض.د/شكرى سعد شكرالله التحكم فى الآلات الكهربية ضستات
6 ض.د/عبدالمقصود إبراهيم تعلق وقاية نظم كهربية ضستات

15. هندسةالطاقة المتجددة
Renewable Energy Engineering
15
7 ض.د/صبحى محمد فراج نظم قوى كهربية ضستات
8 ض.د/عزة محمد عزت شاهين إلكترونيات قوى وتطبيقاتها ضستات
9 ض.د/مصطعى السيد الشبينى آلات كهربية ضستات
11 ض.د/ضشرف صطح الدين محمد زين الدين إلكترونيات قوى وتطبيقاتها ضستات
11 ض.د/جماة عبدالوهاق مرسى تحكم فى نظم القوى الكهربية ضستات
12 د/عطية السباعى عزام حاسبات إلكترونية ضستات مساعد
13 د/تامر ضمين سعيد كوادى وقاية نظم كهربية ضستات مساعد
ضعضاء هيكة التدريس بقسم هندسة الإنتاج والتصدميم الميكدانيكى بكليدة الهندسدة شدبين الكدوم – –
جامعة المنوفية المتوقع مشداركتهم فدى التددريس فدى البرندامج المقتدرح علمدا بدأن الاختيدار سدوف
يكون وفقا للتخصص الدقيا والمعايير الأكاديمية.
م الإسم التخصص الدرجة العلمية
1 ض.د/صبحى محمد حسن غنيم هندسة إنتاج وتصميم ضستات
2 ض.د/ضحمد محمود على عيسى ميكانيكا الماكينات ضستات
3 ض.د/محمود شعبان عبدالمطلق هويدى قطع كهرباكى الأسطى ضستات
4 ض.د/عبدالمجيد ناجى عطية عمر هندسة إنتاج وتصميم ضستات
5 ض.د/ طه الطوية هندسة المواد استات
6 د/صطح عبدالوهاق ضصيلة هندسة إنتاج وتصميم ضستات مساعد
7 د/ضحمد عبدالحميد ضحمد حمادة هندسة إنتاج وتصميم ضستات مساعد
ضعضاء هيكة التدريس بقسم الهندسة العلوم الأساسدية بكليدة الهندسدة شدبين الكدوم جامعدة المنوفيدة المتوقدع – –
مشاركتهم فى التدريس فى البرنامج المقترح علما بأن الاختيار سوف يكون وفقدا للتخصدص الددقيا والمعدايير
الأكاديمية والإستعانة بمتخصصين من كلية العلوم جامعة المنوفية.
م الإسم التخصص الدرجة العلمية
1 ض.د/السيد محمد فرج فيزياء ضستات
2 د/محمد التابعى محمد السيد فيزياء ضستات مساعد
3 د/السيد محمد محمد زكى رياضيات هندسية مدرس
4 د/عادة محمد عبدالعتاح الرفاعى رياضيات هندسية مدرس
5 د/محمد عبدالرحمن الشوربجى رياضيات هندسية مدرس
6 د/إسطم محمد إبراهيم الدسوقى ميكانيكا هندسية ض.د/مساعد
7 د/بطة محمد على ماهر ميكانيكا هندسية مدرس
8 د/شهرزاد يوسف عزالدين محمد هندسة كيماوية مدرس
9 د/رضا على محمد ضبوالعزم هندسة كيماوية مدرس

16. هندسةالطاقة المتجددة
Renewable Energy Engineering
16
Appendix
GEN001 English Language
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
To provide the knowledge and skills required to achieve of public speaking and power presentations. Discovering personal opinion, composing essay, importance of figurative language, typical English writing errors, Effective reading skills, organizing written materials. The course contains basic principles of verbal and non-verbal communication. To gain the knowledge about history, divisions and main subjects of Engineering to understand scientific English in a proper manner, with special reference to Engineering and other associated fields.
GEN002 Introduction to Computers
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
This course provides an overview of computer systems- Computer hardware (CPU, input/output devices) - Computer software, Program, operating systems, algorithms, programming languages, problem solving. Also, the course introduces the student to basic knowledge and understanding of computers and programming. The course starts with a brief history about how computers were developed. The students learn the function of the main components and how computer works. Features of numbering systems and Software development are other objectives. The student also learn about computer algorithms, flow charts and how to develop computer programs.
GEN003 English Oral Communication
Prerequisite: GEN001
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
The course focuses on basic communication skills, including writing, oral and professional. It helps students to communicate effectively in both informal and formal settings. The course introduces techniques to improve clarity and conciseness, positive interaction and avoiding misunderstanding. This course also focuses on pronunciation and oral delivery.
GEN004 Advanced Spoken English
Prerequisite: GEN001
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
The course offers training in the listening and speaking skills required to understand lectures and to contribute to seminars and tutorials. The course covers: The transactional exchange of

17. هندسةالطاقة المتجددة
Renewable Energy Engineering
17
information Clarity of expression Planning, structuring and delivering a presentation Expressing opinions, turn-taking, agreeing and disagreeing How lectures are structured Note-taking practice Prediction, summarizing and filtering of spoken information.
GEN101 Human Rights
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
This course introduces students to the development of universal human rights norms in the international system; efforts to implement these at the national, regional and international levels; and contemporary debates concerning the universal implementation of human rights. The course explores human rights.
GEN102 Engineering Ethics and Skills
Prerequisite: None GEN101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
An introduction to the key issues in engineering ethics; Ethical dilemmas; Development of techniques of moral analysis and their application to ethical problems encountered by engineers, such as professional employee rights and whistle blowing; environmental issues; ethical aspects of safety, risk and liability and conflicts of interest; emphasis on developing the capacity for independent ethical analysis of real and hypothetical cases. Skills needed to motivate employees for productivity and commitment; manage groups in a teamwork setting. Help to become effective speakers by focusing on building presentation skills through several individual and team presentation assignments. Emphasis is placed on elements of an effective presentation, style of delivery, and interaction with audience and important speech.
GEN103 Foundation of Economics
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
The course provides principal of economics, cost benefit analysis, feasibility studies, economic risk analysis and economic life. Also, the course covers basic micro economic concepts as well as issues relating to economic growth, rich display of economic forces in action, motivation of thinking, global financial crisis, slump, and faltering recovery.
GEN201 Marketing
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics

18. هندسةالطاقة المتجددة
Renewable Energy Engineering
18
The course learn about the real nature and scope of marketing management of which advertising and sales are simply two facets, introduce to other aspects of marketing, such as: marketing strategy, promotion, market Planning, distribution, industrial marketing, retailing and wholesaling, target marketing, international marketing, market segmentation, services marketing, and pricing. This course presents an overview of the nature and scope of the marketing function and the environment affecting marketing managers. The course covered include, marketing environment, consumer buying behavior, market segmentation, and marketing mix strategies.
GEN301 Engineering Economy
Prerequisite: GEN103
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
Fundamental concepts involving the time value of money. Evaluation of loans and bonds, consideration of inflation and handling changing interest rates. Economic measures for determining a projects worth (annual, present, future), rates of return, savings, investment ratio and payback period. Comparing investment alternatives. Depreciation and benefit cost analysis, cost concepts and an introduction to project cost estimation.
GEN401 Writing Technical Report
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
Students are introduced to the practical aspects of preparing business and industrial reports. Techniques of collecting and presenting data are emphasized through quality communication exhibited in formal and informal reports, presentations and discussions. Also, the course is task- based and intended for engineering students to increase their proficiency in managing technical data and writing for a workplace, namely memorandums, letters, reports, applications, and research projects.
GEN402 Accounting
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
Basic accounting concepts – balance sheet - income statement - cash flow statement - accounting ratio – measuring the performance – cost concepts - cost accumulation – cost/volume/profit analysis- budgets. This course aims to convey sufficient knowledge for an adequate interpretation, analysis and use the information provided by financial accounting, Accounting Information System, Accounting Principles, Accounting Concepts, Financial Statement Concepts, Accounting Cycle, Recording of Transactions, Balance Sheet – Current Assets, Balance Sheet – Long-term Operating Assets, Balance Sheet - Marketable Securities and Long Term Investments, Balance Sheet – Liabilities, Balance Sheet – Owner’s Equity, Statement of Cash Flows, and General analysis and Interpretation of Financial Statements – a Case Study.

19. هندسةالطاقة المتجددة
Renewable Energy Engineering
19
GEN403 Project Management
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
Introduction to management - quantitative and qualitative aspects of managements - decision making - man power allocation- basics of project managements - constrains of resources and project managements - An example of software packages used to manage projects. Factors for project initiation, estimation, project planning, scheduling and control, project quality manage- ment, risk management, standards methods, PMI standards. Practice using project management software.
BES001 Mathematics (I)
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
This course is designed to give the students a basic idea regarding the principle of Engineering
Polynomials, rational functions, and the elementary functions, Binomial expansion – Theory of equations, Horner's division, Matrices, linear equations, types of solutions, equivalence of matrices. Inverse functions; transcendental functions; techniques of integration, Improper integrals; graphing in polar coordinates; vectors and analytic geometry in space; Functions of several variables; extreme values and saddle points; double integrals in rectangular and polar coordinates; triple integrals in rectangular coordinates.
BES002 Physics (I)
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
3
3
Topics
Properties of matter (units - law of gravity - fluids at rest - fluids in motion - flow rate - Bernoulli's equation - sound) - Heat and Thermodynamics (Thermal expansion of solid and liquids - Kinetic theory of gases - Heat and work - First law of thermodynamics - Heat transfer - Second law of Thermodynamics and Entropy)
BES003 Applied Mechanics
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Vector algebra and application – Forces and couples – equivalent force- Equilibrium of a particle – equilibrium of a rigid body subject to forces- center of mass – introduction to moment of inertia – applications. The course are to provide the student, with basic knowledge of applied mechanics, structure analysis, dynamics of particles and rigid bodies during their accelerated motion .As well as, this course provides the student with required skills of applying knowledge of mathematics, science and engineering concepts for creating solutions of engineering

20. هندسةالطاقة المتجددة
Renewable Energy Engineering
21
problems. This course also provides students, with the required skills for solving dynamic problems dealing with particles through introducing the basis of plane motion of rigid bodies.
BES004 Chemistry
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
3
3
Topics
The aims of this course are to provide the students, full understanding regarding the chemical phenomena such as the ideal gases and its applications in the real life, the basic concepts of the electrochemistry. Attain the knowledge of the solutions and how it is formed and its presence in nature. In addition, give an introduction to structure of metals and alloys in the solid state. Presenting types of pollution such as water and air pollution and their effects on the environment besides the methods of combating them. It is also aimed to study of the building materials industry systems, such as cement, glass and bricks manufacturing and study the petrochemicals and polymers. Understand the basics of dynamic equilibrium in chemical engineering.
BES005 Mathematics (II)
Prerequisite: BES001
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The aims of this course are to provide the Student, To know the basic knowledge and skills for solving differential equations and To use the multiple integral methods for finding the area, mass, center of gravity, and the moment of inertia. This course will also provide students, after graduation, with an understanding of use Laplace transformation and inverse Laplace transformation for solving differential equations and develop skills of testing series for convergence and how to find Fourier expansion for functions related to Electrical Engineering applications.
BES006 Manufacturing Engineering
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
Introduction and classification of engineering materials and their properties. Traditional manufacturing processing of materials (ferrous and non-ferrous) including metal cutting, rolling, forging, and drawing. Modern manufacturing processes and related topics including ceramics, composites, powder metallurgy, property enhancing and surface processing operations, different manufacturing facilities, elements of manufacturing process- material flow- energy flow- forming in liquid state – Casting and molding processes – Material joint process, welding – Assembly process – Metal cutting and finishing process.
BES007 Physics (II)
Prerequisite: BES002
Lecture
Tutorial
Lab
Credit Hrs.

21. هندسةالطاقة المتجددة
Renewable Energy Engineering
21
No. of Hrs./Week
2
3
3
Topics
Electricity and magnetism- Electric Field- Gauss's' law – Electrostatic potential- Capacitance and resistance- Direct current circuits – sources of fields- Faraday's law- Maxwell's equations Magnetic properties of matters.
BES008 History of Engineering Science
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
Topics
This course gives students a general idea about the history of engineering science with particular emphasis on Egypt. The topic covers development of engineering science. Provide the students with the basic knowledge of the engineering history as a dynamic process in Egypt and its relation to the state of independency of the country. Provide the basic concepts of science and technology and historical relation between them.
BES009 Engineering Drawing
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
1
3
3
Topics
The course integrates the basic theories in the engineering drawing and projection. Give the student a correct understanding of the fundamentals of engineering drawing, ability of thinking in three dimensions, visualize quickly and accurately to build a clear mental image about objects, and preparing engineering drawings for different designed objects.
BES101 Computer Language and Applications
Prerequisite: GEN002, BES005
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The aims of this course are to provide the Student, upon completing the Mechanical Engineering Program, with the basic knowledge and skills of analyzing problems and selecting a suitable method to solve such problem and translate manual method into computer steps (program). The adopted computer language must be simple and powerful to be used for mechanical power applications. This course will also provide students, after graduation, with the ability to design and write appropriate computer program for any system they may meet. Moreover, they may easily learn and apply any other computer language within very short time.
BES102 Probability and statistics
Prerequisite: BES001, BES 005
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics

22. هندسةالطاقة المتجددة
Renewable Energy Engineering
22
Descriptive statistics and sampling, sample space and events, axioms of probability, conditional probability, statistical independence, bayes theorem, discrete probability distri- butions (uniform, binomial, geometric, Poisson), continuous probability distributions (normal, exponential, gamma and Weibull), point estimation, central limit theorem, interval estimation, use of statistical software. Theory of probability- conditionaly probability- Distribution function – randam variables – discrete and continuous distribution function – Statistical measures – Statistical analysis – test of hypothesis – Marckovian Chains.
BES103 Introduction to Numerical Methods
Prerequisite: BES101, BES005
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
3
3
Topics
The aims of this course are to provide the basic knowledge of fundamentals and solution methods of non-linear algebraic equations as well as ordinary and partial differential equations based on finite difference technique. This course will also provide students with the ability to appraise and select the appropriate solution method for a given problem. The skills of error analysis and assessments are also provided. Interpolation; numerical integration; solution of non- linear equations; least square fit method. Numerical differentiation, Solution of ordinary differential equations using Euler method. Improved Euler and Rung Kutta method.
BES104 Advanced Mathematics
Prerequisite: BES001, BES005
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The course develop skills of how to differentiate and integrate a vector field function. The use of integral theorems (Green, stocks, Gauss) for simplifying integral calculations of vector field functions. Develop skills of using coordinate system transformation that make integral calculation very easy. Develop skills of linear programming problems using simplex method. Using special functions with application on finding improper integral.
BES105 Information Technology Systems
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Fundamental planning, principles and practices to help personnel develop and maintain effective IT contingency plans. Examples of IT systems- evaluate information systems operations- structured approach to develop cost-effective IT requirements- Integrate contingency planning principles into aspects of IT operations.

23. هندسةالطاقة المتجددة
Renewable Energy Engineering
23
BES106 Statistical Methods
Prerequisite: BES001
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Principles of Statistics, Methods of analyzing and interpreting experimental and survey data, Statistical concepts and models; estimation; hypothesis tests with continuous and discrete data; simple and multiple linear regression and correlation; introduction to analysis of variance.
BES201 Linear Programing
Prerequisite: BES101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Single variable optimization, multivariable optimization with equality and inequality constraints Linear Programming: simplex method, simplex algorithm, one dimensional minimization methods, unrestricted search, golden search method, interpolation methods. Unconstrained optimization technique and direct search method. Formulation of the Problem, Mathematical Formulation, Calculus Method, Linear and Dynamic Programming Method, Geometric Programming Method, The Lagrange multipliers Method.
ENG101 Introduction to Energy Science
Prerequisite: ENG001
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
3
Topics
Introduction to principles, theories and processes of devices and systems that convert thermal, chemical, nuclear energy to electrical, mechanical and alternative chemical form. The course will explore society’s present needs and future energy demands, examine conventional energy sources and systems, including steam, fossil fuels and nuclear energy, and then focus on alternate, renewable energy sources such as solar, biomass (conversions), wind power, geothermal, and hydro. Energy conservation methods will be emphasized. The energy sources and conservation of energy, energy efficiency, energy production and uses, sources of energy, both conventional and renewable will be considered.
ENG102 Statics and Dynamics
Prerequisite: BES001, BES002
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Force and moment vectors, resultants, principles of statics and free-body diagrams, applications to simple trusses, frames, and machines. Properties of areas, second moments, internal forces in beams. Laws of friction. Principles of particle dynamics. Mechanical systems and rigid-body

24. هندسةالطاقة المتجددة
Renewable Energy Engineering
24
dynamics. Kinematics and dynamics of plane systems. Energy and momentum of 2-D bodies and systems.
ENG103 Mechanical Drawing
Prerequisite: BES009
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
1
3
3
Topics
The Aims of the course teach the student to draw and read the mechanical drawings, assemble the mechanical parts and draw in three planes-teach the student to draw and read tolerances & fits, screw, springs, keys, and machining marks. Defining the basic and principles information of mechanical drawing. Describing the types of orthographic projection. Describing the types of fasteners (bolts, nuts, studs, screw threads and keys). Draw and read tolerances, fits, screw, keys, springs and machining marks. Design the mechanical parts and draw in three planes.
ENG104 Computer Aided Drawing
Prerequisite: BES009, ENG103
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
1
3
3
Topics
Engineering graphics for product design and manufacturing. Emphasis on graphic communication used for processing parts and layouts. Orthographic projection, pictorial views, section and auxiliary views, dimensioning for production-processing, and the four fundamental views of descriptive geometry. Use of AUTOCAD and SOLID WORK software for engineering drawings.
ENG105 Instrumentation Measurement
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The overall aim of the course is to present the topics of sensors and instrumentation, and their use within measurement systems, as an integrated and coherent subject. Measurement systems, and the instruments and sensors used within them, are of great importance in a wide range of domestic and industrial applications. The growth in the sophistication of instruments used in industry has been particularly significant as advanced automation schemes have been developed. Upon completing the subject of this course, the student will be able to scientifically identify different sensors and measurement instruments broadly used in energy systems.
ENG201 Thermodynamics (I)
Prerequisite: BES005, BES007
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics

25. هندسةالطاقة المتجددة
Renewable Energy Engineering
25
Basic concepts of thermodynamics: temperature, work, heat, internal energy and enthalpy. System and control volume concepts. Properties of pure substances. Work and heat. The first law of thermodynamics as applied to a system and control volume. The second law of thermodynamics. Carnot cycle, entropy, reversible and irreversible processes. Applications of steady-state, steady-flow, uniform state, uniform-flow, and other processes.
ENG202 Fluid Mechanics
Prerequisite: BES005,BES007,ENG102
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Fluid properties, Units, Kinematics, dynamics of fluid motion: concepts of streamline, control volume, steady and one-dimensional flows; continuity, Euler, Bernouilli, steady flow energy, momentum, moment of momentum equations; applications. Furthermore, the ability to analyze the force exerted by fluid flow on stationary and moving surfaces is also provided.
ENG203 Electric Power Engineering
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
The electric power system, Major components: induction and synchronous machines, power transformers and connections, transmission. Analysis: balanced and unbalanced three-phase systems, symmetrical components, load flow. Operation: frequency control, steady state and transient generator stability, voltage collapse, thermal constraints. Variable speed drives, power quality.
ENG204 Power Electronics for Renewable Energy Systems
Prerequisite: ENG203
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Introduction to semiconductor materials and devices. DC, AC analysis of transistor circuits (BJT, MOSFET). Amplifier circuits, bandwidth considerations; feedback and stability. Operational amplifiers and applications in filter and oscillator circuit design. Voltage regulator and timer circuits. Switching properties of transistors and digital gates (Inverter, NAND/AND, NOR/OR); overview of TTL and CMOS technologies.
ENG205 Solar Energy Systems
Prerequisite: ENG101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics

26. هندسةالطاقة المتجددة
Renewable Energy Engineering
26
The Nature of Electromagnetic Radiation, Solar Radiation When It Strikes an Object, Solar Position Parameters, Solar Declination, Solar Hour Angle, Solar Altitude Angle, Sunrise Hour Angle, Sunset Hour Angle. Methods of Utilizing Solar Energy, Solar Space Heating Solar Water Heating, and Solar Generation of Electricity. Station Description, Flat-Plate Collector Facing South at a Fixed Tilt, One-Axis Tracking Flat-Plate Collectors with Axis Oriented, North-South, Two-Axis Tracking Flat Plate Collectors, Concentrating Collectors, Solar Radiation, Graph and Climate Conditions.
ENG206 Engineering Materials
Prerequisite: BES004,ENG102
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
3
Topics
Materials (metals, alloys, polymers); relationship of interatomic bonding, crystal structure and defect structure to material properties; polymers, phase diagrams and alloys; microstructure control and mechanical properties; material failure; corrosion.
ENG207 Thermodynamics (II)
Prerequisite: ENG201
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Measure of Work Potential and Exergy. Gas Power Cycles, Air Standard Cycles Assumptions. Vapor cycles, Rankine, Reheat, and Regenerative Cycles. Refrigeration Cycles and Heat Pump. Thermodynamics Property Relations, Maxwell Relation for Ideal Gases. Gas mixtures, Ideal Gases. Gas Vapor Mixture and Air Conditioning, Psychrometric Chart and Air Conditioning Processes. Chemical Reactions, Combustion Processes and Adiabatic Flam Temperature.
ENG208 Aerodynamics
Prerequisite: ENG202
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
The aims of this course are to provide the basic Knowledge of fundamentals of steady compressible fluid flow of a perfect gas in such a way to appreciate the assumptions of theoretical analysis, the derivation and application of explicit parameter. The ability of using tabulated data as a solution of such relationships for air which considered as a perfect gas with a constant ratio of specific heat and gas constant. This course enables the student to understand and analyze shock and expansion waves as well as the working principle of nozzles, diffusers and wind tunnel stat up.
ENG301 Heat Transfer
Prerequisite: ENG101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3

27. هندسةالطاقة المتجددة
Renewable Energy Engineering
27
Topics
Heat transfer mechanisms, conduction, convection and radiation. Steady heat conduction, in- sulation, Transient heat conduction. Forced convection; natural convection. Radiation heat transfer. Heat exchangers. Applications to energy systems.
ENG302 Machine Design
Prerequisite: ENG206
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
3
Topics
Introduction to engineering design, the design process, formulation of design problems, enerating alternatives, design evaluation, selection and implementation. Knowledge of the design procedure of machine elements. As well as, this course will give the student the required skills for modeling the engineering problems dealing with machine elements design.
ENG303 Combustion and Pollution Control
Prerequisite: ENG207
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
The course aims to provide the fundamental information of combustion process from chemical, aerodynamics and thermodynamics point of view and combustion technology and applications. Improving combustion characteristics, air pollution, and heat engines performance. Control the combustion process in heat engines. Optimizing the operation of boilers, gas turbines, internal combustion engines and burners. Describing combustion technology and applications. Provide an ability to solve problems of the fundamental and definition of environmental pollution terms, to the principle of environmental balance and environmental composition, and the ozone layer , green house phenomena and photochemical smog phenomena .
ENG304 Wind Energy Systems
Prerequisite: ENG208
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Material in this course will cover the principles of wind energy and wind power as well as the design and operation of different types of wind energy converters. It will also present machines for water pumping, remote area power supply and grid electricity generation. Design and economic analysis of wind energy converters will be examined, including site selection, monitoring and analysis of wind data, estimating output from wind generators and their integration into hybrid power systems or the grid.
ENG305 Automatic Control and Data Acquisition
Prerequisite: ENG104
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
3
3

28. هندسةالطاقة المتجددة
Renewable Energy Engineering
28
Topics
Transfer function; block diagrams; flow graphs; state space canonic forms; stability analysis; steady state and transient analysis; feedback control; continuous to discrete conversion; digital control. The course covered Mathematical Foundation, Block Diagrams and Signal-Flow Graphs, Theoretical Foundation and Background Material: Modeling of Dynamic Systems, Time-Domain Analysis of Control Systems, Root-Locus Analysis, Frequency-Domain Analysis, State Variable Analysis. Data Acquisition, synthesis and analysis of automatic control systems with application of MATLAB.
ENG306 Industrial Training
Prerequisite: 120 Credits
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
6
3
Topics
The purpose of this training is to introduce students, first hand, to local and regional practices in area of specialization. Further, it exposes students to possible career opportunities. Upon completion, students are required to submit a technical report to the training supervisor.
ENG305 Economics of Energy Systems
Prerequisite: ENG101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
This course reviews the objectives, strategies and economic factors of renewable energy policies worldwide. The course examines policy drivers, including environmental impact, community service obligations and industrial/technological developments, as well as policy and financial instruments. The policies, economic analysis and strategies are illustrated with international case studies for renewable energy programs.
ENG308 Quality Control Management
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Quality control and process improvement, cost of quality and the effects of quality on productivity; concepts of variation; statistical process control (SPC tools); control charts for variables and attributes. Total Quality Management, advance methods for process control, Six Sigma approach to quality, design of experiments and Taguchi approach to quality and param- eter optimization.
ENG305 Mass Transfer
Prerequisite: ENG301
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
2

29. هندسةالطاقة المتجددة
Renewable Energy Engineering
29
Topics
Introduction, analogy between heat and mass transfer, mass diffusion, Fick’s Law, boundary conditions, steady mass diffusion through a wall, cylinder and sphere, water vapor migration in buildings, transient mass diffusion, mass transfer in a moving medium, diffusion of vapor through a stationary gas: Stefan Flow. Boiling heat transfer, pool boiling, flow boiling, condensation heat transfer, film condensation, heat transfer correlations.
ENG401 Graduation Project
Prerequisite: None
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
6
3
Topics
The Aims of the Project are to provide the skills of investigation, planning, management, and executing technical research specific to discipline. It will also provide students with the ability of analyzing and tackle a realistic problem and dealing with real – life problems and broaden his/her experience, self-assurance and sense of responsibility. Students undertake projects ,in groups, to implement concepts, techniques and methodology they learned to solve a particular problem – Students, in groups, carry out an investigation to solve one of technical problems and enabled them to present and prepare a detailed report- Students should submit a technical report about their projects.
ENG402 Solar Thermal Energy Systems
Prerequisite: ENG207
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Characteristics of solar radiation and solar collectors. Collector efficiency evaluation and prediction of long term performance. System modeling, energy storage; computer simulation and modeling of performance and economic worth.
ENG402 Advanced Solar Cells systems
Prerequisite: ENG205
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Properties of sunlight and solar irradiation. Overview of semiconductors and PV junctions. Solar cells operation. and design; solar PV modules design. PV power system components; power conditioning circuits and batteries. PV power system applications, system design and installation. Advanced topics in solar PV cells; high efficiency cell design; thin film cells, amorphous Si cells, CdTe cells, CIGS cells. Cell and module reliability. System performance monitoring, optimization and maintenance.
ENG404 PV Technology and Manufacturing
Prerequisite: ENG204,ENG205
Lecture
Tutorial
Lab
Credit Hrs.

30. هندسةالطاقة المتجددة
Renewable Energy Engineering
31
No. of Hrs./Week
2
1
1
3
Topics
The operating principles of solar cells. The strengths and weaknesses of the dominant commercial cell technologies. Different trends in commercial cell technology and the corresponding manufacturing processes and environment. The impact of various processing and device parameters on performance and product reliability. Insight is given into complete produc- tion processes for both screen-printed solar cells and buried contact solar cells with in-line quality control procedures.
ENG405 PV in the Built Environment
Prerequisite: ENG204, ENG205
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
This course will examine the use of PV in the urban environment, with a particular focus on the integration of PV modules into the building envelope. The design of energy efficient buildings, building thermal and lighting performance and solar access will be introduced as an appropriate context for the use of PV. A competency in the use of building energy simulation software will be developed. Technical issues associated with the use of PV in buildings and the urban environment, such as heat transfer processes, inclusion of solar energy sources within the power grid.
ENG406 Design of Energy Efficiency
Prerequisite: ENG101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Analysis to achieve comprehensive understanding of the efficiency of systems that involve energy generation, storage and distribution is presented. The material targets core areas of ef- ficiency in space heating and cooling and lighting design. Design examples will be discussed in detail for applications in combustion engines, solar and wind conversion systems. Computer simulation tools will be used to calculate efficiency of power consumption.
ENG407 Energy Storage and Transmission
Prerequisite: ENG205,ENG402
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The structure, design and efficiency of electrical transmission grids will be introduced. Power electronic devices and their use in energy storage and conversion will be presented. Emphasis will be on the development of an integrated approach for the storage and transmission of energy and cost versus efficiency trade-off analysis of such systems. Investigates the possibility of utilizing different types of batteries to store energy, and how to keep energy conversion and transmission process efficient.

31. هندسةالطاقة المتجددة
Renewable Energy Engineering
31
ENG408 Electronic Materials and Devices
Prerequisite: ENG204
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Review of solid-state theory, conductors, semiconductors, superconductors, insulators, and optical and magnetic properties. Devices used in modern high speed electronic and communication systems: transistors, lasers, photodiodes, fiber optics, Josephson junctions. Implications of material properties on fabrication and operation of devices and circuits.
ENG409 Microcontroller-Based Systems
Prerequisite: ENG204, ENG305
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Study of the basic architecture of a microcontroller including its applications in a microcontroller system. Implementation of the principles of microprocessing, interfacing, and total system design by implementing projects. Application of top-down design to microcontroller software development in C language. Introduction into the evaluation of hardware and software trade-offs.
ENG410 Solar Cooling and Air Conditioning
Prerequisite: ENG205,ENG402
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Passive solar building explores the use of solar energy to passively heat and cool buildings. Topics include solar radiation, building heating and cooling loads, energy efficient design and construction, passive solar heating, proper implementation of thermal mass, and passive cooling. Thermal comfort and air condition cycles for residence.
ENG411 Hydrogen and Fuel Cells
Prerequisite: ENG406
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
Introduction to fuel cell technologies: PEM, PAFC, AFC, SOFC, MCFC and DMFC systems. Fuel cell components and systems; field flow plates, electrolytes, electrode materials, electrode catalysts, on-board reformers. Portable devices, utility-scale power production, transportation systems. Fuel types and fuel storage. Hydrogen production with solar energy.
ENG412 Solar Desalination Systems
Prerequisite: ENG205
Lecture
Tutorial
Lab
Credit Hrs.

32. هندسةالطاقة المتجددة
Renewable Energy Engineering
32
No. of Hrs./Week
2
2
3
Topics
The general purpose of this course is to provide the basic knowledge of the different existing technologies involving the use of solar energy to drive desalination techniques. Direct Utilization of Solar Radiation in the Solar Still, Solar Collectors, Solar Concentrating System. Simple distillation systems based on the passive evaporation of saline water in greenhouse‐type devices. Solar heating, as multi‐effect distillation (MED) and multi‐stage flash distillation. Solar thermal membrane distillation, Solar thermal humidification/dehumidification.
ENG413 Hydro Power Systems
Prerequisite: ENG208
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
Introduction to hydro-resource power production. Hydropower in history. Physics of hydrology. Power, head, flow-rate. Turbine hydrodynamics; Francis, Kaplan, Pelton, Turgo, cross-flow. System components; generators, governors, penstocks, spillways, valves, gates, trashracks. Large-scale and microhydroelectic systems. Pumped storage. Economic, environmental considerations.
ENG414 Solar Power Plants
Prerequisite: ENG205
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
The course will focus on a best practice for utility-scale solar power plants. It focuses primarily on ground mounted, fixed tilt PV panel and also covers solar tracking system technology. Concentrated Solar Power (CSP) technology and highlights aspects of the CSP will be development process. It also has annexes on construction, operation and maintenance. Design and installation of solar panels for residential and industrial applications and connections to the national grid and cost analysis will be discussed. In addition, basic manufacturing processes for the production of solar panels, environmental impacts, and the related system engineering aspects will be included to provide a comprehensive state-of-the art approach to solar energy utilization.
ENG415 Thermal Power Plants
Prerequisite: ENG101, ENG201
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
1
3
Topics
The course provides the basic knowledge for steam and gas power cycles, thermal efficiency, cycles components such as, boiler, turbine, condenser and pumps. Classification of thermal power plants, Steam and gas -turbine power plants, process improvement, Cogeneration power plants, Combined power plants, Condensers and cooling towers, Modeling and optimization of thermal power plants, Advanced coal combustion technologies, Calculation

33. هندسةالطاقة المتجددة
Renewable Energy Engineering
33
of power generation costs, Assessment methods for splitting production costs on heat and power. Economic analysis of thermal power plants to fit a given load – curve among various units and between the base and peat plants. This course will also provide the ability to design the draught system (chimney, and power of fans) for a particular boiler and estimate the maximum ground level concentration and its position for different pollutants emitted from the chimney.
ENG416 Bio Mass Energy System
Prerequisite: BES004
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
2
3
Topics
This course will introduce a range of biomass energy sources, including forestry, wastes and crops, as well as various technologies for capturing the stored chemical energy in biomass: direct combustion, pyrolysis, anaerobic digestion, gasification, fermentation, landfill gas and cogeneration.
ENG417 Geothermal Energy Systems
Prerequisite: ENG101
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
3
Topics
An introduction to geothermal energy resources. Discussion of heat flow mechanisms. Investigation into heat exchange systems including: binary, flash, double flash, total flow. Appli- cation of thermal dynamics in analysis, design and control of heating/cooling systems.
ENG418 Design of Wind Turbines
Prerequisite: ENG304
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
3
Topics
Introductory issues related to the production of electricity from wind power. The study of the atmospheric science necessary to locate wind turbines for the production of electricity. Inter- pretation and understanding of experimental data. The study of design and control will allow for comprehensive knowledge of all sub-components of a wind turbine. Sizing and citing of wind turbines. Connection between wind turbines and smart grids.
ENG419 Special Machines for Wind Turbines
Prerequisite: ENG304
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
1
3
Topics
Review of different structures for wind farm generators. Characteristics of constant-speed and variable-speed wind turbine generators. Mechanical interface system between the generators and wind turbines. Operational characteristics of wind generators with variable-angle of turbine

34. هندسةالطاقة المتجددة
Renewable Energy Engineering
34
blades. Advanced power electronics for wind generation, and different structures of cycloconverter circuits. Connection of wind generators to power grids, smart grids.
ENG420 Environmental Engineering and Pollution Control
Prerequisite: ENG303,ENG415
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
To impart knowledge on the atmosphere and its present condition, global warming and eco- legislations. To detail on the sources of air, water and noise pollution and possible solutions for mitigating their degradation. To elaborate on the technologies available for generating energy from waste. Global atmospheric change, greenhouse effect, Ozone depletion, natural cycles, mass and energy transfer, material balance, environmental chemistry and biology, impacts, environmental. Legislations, Pollutants sources and effect, air pollution meteorology, atmospheric dispersion, indoor air quality, control methods and equipment, issues in air pollution control, air sampling and measurement.
ENG421 Waste Management and Energy Recovery
Prerequisite: ENG416
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
To motivate the importance of waste management, high grade energy generation from waste and hygienic waste disposal options. Definition - types – sources – generation and estimation. Properties: physical, chemical and biological – regulation. Onsite handling, storage and processing – types of waste collection mechanisms - transfer Stations : types and location – manual component separation – volume reduction : mechanical, thermal – separation : mechanical, magnetic electro mechanical. Basics, types, working and typical conversion efficiencies of composting – anaerobic digestion – RDF – combustion – incineration – gasification – pyrolysis. Hazardous waste – definition - potential sources - waste sources by industry – impacts – waste control methods – transportation regulations - risk assessment -
remediation technologies – Private public paternership – Government initiatives. Landfill – classification – site selection parameters – design aspects – Leachate control – environmental monitoring system for Land Fill Gases.
ENG422 Bio-Energy Conversion & Processing of Waste
Prerequisite: ENG416
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
Biomass: types – advantages and drawbacks – Indian scenario – characteristics – carbon neutrality – conversion mechanisms – fuel assessment studies. Microbial systems – phases in biogas production – parameters affecting gas production – effect of additives on biogas yield – possible feed stocks. Biogas plants – types – design – constructional details and comparison – biogas appliances – Burner, illumination and power generation – effect on engine performance. Perfect, complete and incomplete – equivalence ratio – fixed Bed, fluid Bed – fuel and ash

35. هندسةالطاقة المتجددة
Renewable Energy Engineering
35
handling – steam cost comparison with conventional fuels. Briquetting: types of Briquetting – merits and demerits – feed requirements and preprocessing – advantages – drawbacks. Types – comparison – application – performance evaluation – economics – dual fuel engines – 100 % Gas Engines – engine characteristics on gas mode – gas cooling and cleaning train.
ENG423 Green Buildings
Prerequisite: ENG303
Lecture
Tutorial
Lab
Credit Hrs.
No. of Hrs./Week
2
1
2
Topics
This course provides an introduction to the materials, theories and practices of Green building planning, design, construction, operation and deconstruction. Conventional versus green building delivery systems - Green building project execution - the integrated design process - green building documentation requirements - design versus ecological design - historical perspective - contemporary ecological design - future ecological design - green design to regenerative design. Sustainable sites and landscaping – enhancing ecosystems - building envelop – selection of green materials - products and practices - passive design strategy – internal load reduction – indoor environment quality – building water and waste management – relevance to LEED / IGBC standards. Site protection planning- health and safety planning - construction and demolition waste management - reducing the footprint of construction operations – maximizing the value of building commissioning in HVAC System, lighting and non-mechanical Systems - costs and benefits relevance to LEED / IGBC standards.