Design of Photovoltaic System: The Path to Expertise

Master the Art of Photovoltaic System Design: From Concepts to Real-World Applications

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Description

                                                                                                     عايز تفهم كل حاجه ليها علاقة بالطاقة الشمسية الفنية والاقتصادية والتأثير البيئي

عايز تعرف ازاي تعمل تصميم بطريقه احترافيه لمحطات الطاقة الشمسية

عايز كورس مبني على الاكواد العالميه مش مجرد معلومات مش معروف مصدرها

عايز كورس من الخبرة العملية مش مجرد كورس نظري

عايز تمشي في الاتجاه الصحيح عشان تكون خبير في تصميم محطات الطاقة الشمسية


هساعدك توصل لهدفك وبطريقه سهله ومبسطه عشان تحقق هدفك بطرق كتير.

1. Quiz after each section

2. Assignment at the end of the course

3. WhatsApp Group “ Photovoltaic community”

4. Re-explain for any un-understanding part

5. Consultation support for any performed projects by you by providing any kind of consultation to reach to the optimal design.


The photovoltaic system is one of the leading renewable energy sources worldwide and all the governments & investors are working to increase the contribution of the PV system due to the technological upgrade on PV systems which lead to having a significant positive impact on electricity generation, safe environment to meet the SDG goals and improve the economics of the PV Plants. 


In The Design of Photovoltaic System: Path to Expertise Course, we guarantee a professional and deep understanding of PV systems from all aspects technical, economic & environmental.


By the end of the course you will have the full knowledge about the followings:

1. Global Contribution of Renewable Energy & Photovoltaic System.

2. Difference between Active & Passive Solar Systems.

3. The Operation Philosophy of Solar Cell.

4. Photovoltaic System impact on the environment.

5. What is the GHGs & GHG's scope.

6. Understand the PV System Configurations (On-Grid, Off-Grid & Hybrid Systems).

7. Types of PV Modules.

8. Understand the different technologies of PV Modules " P-Type & N-Type".

9. Understand the difference between PV modules " Mono-Facial & Bi-Facial".

10. IEC & International standards for PV Modules.

11. Understand the difference between STC & NOCT.

12. Understand the PV Module efficiency.

13. Understand the PV Module Accessories.

14. Understand the importance of PVL & PQP.

15. Operation Philosophy of the inverter.

16. Familiarization with string & centralized inverters.

17.  ISC & International standards for the inverters.

18.  Understand the inverter DC/AC Ratio.

19. Understand the meaning of Maximum power generated by PV plants.

20. Understand the installation methods for PV Modules " fixed & tracking mounted".

21. IEC Standard for DC & AC Cables.

22. Understand the construction of DC & AC cables

22. How to perform the cable sizing for DC & AC Cables as per IEC standards.

23. International standards of storage batteries.

24. How to calculate the battery cells of lead acid & Nickle cadmium as per IEEE.

25. How to perform the design of the storage battery capacity as per IEEE.

26. Understand all PV System definitions (Tilt angle, Azimuth angle, collector bandwidth, pitch distance, Horizon & Solar path curve, GCR%, Ground Albedo, Performance Ratio %).

27. How to use the Solar Atlas for PV system design?

28. How to perform the full design for ON-Grid PV System?

29. How to perform the full design for Off-Grid PV System?

30. How to calculate the effective PV plant area?

31.  Familiarization with PV Plant SLD.

32. Understand the economic analysis of the PV System (CAPEX, OPEX, LCOE, NPV, ROP, SPB & DPB).


Your successful completion of the PV System Course is a testament to your hard work and determination, and we have no doubt that you will continue to achieve great success in all your future endeavors.



نظام الطاقه الشميه هو واحد من أبرز مصادر الطاقة المتجددة عالميًا، وجميع الحكومات والمستثمرون يعملون على زيادة مساهمه الطاقه النظيفه بزياده الاستثمارات في محطات الطاقه الشمسيه لتقليل الاعتماد علي الوقود وذلك نظرًا للتطور التكنولوجي السريع في أنظمة الخلايا الكهروضوئية الذي يؤدي إلى وجود تأثير إيجابي كبير على توليد الكهرباء، والتأثير الايجابي علي البيئه و لتحقيق أهداف التنمية المستدامة، التطور التكنولوجي في مجال الطاقه الشمسيه يساهم ايجابيا في تحسين المردود الاقتصادي من انشاء محطات الطاقه الشمسيه


في دورة "تصميم نظام الطاقة الشمسية: الطريق إلى الاحتراف"، نضمن فهمًا محترفًا وعميقًا لأنظمة الطاقة الشمسية من جميع الجوانب التقنية والاقتصادية والبيئيه


إن اجتيازك الناجح لدورة أنظمة الخلايا الشمسية هو شهادة على عملك الجاد وتصميمك، وليس لدينا أدنى شك في أنك ستستمر في تحقيق النجاح الكبير في جميع مساعيك المستقبلية.

What You Will Learn!

  • The Global contribution of renewable energy sources
  • The Global Growth in Photovoltaic system
  • The difference between Active & Passive Solar System
  • The operation philosophy of solar cell
  • The Photovoltaic impact to the Environment
  • What is the GHGs & How these are generated?
  • What are the GHGs scopes?
  • PV System Configurations "ON-GRID, OFF-GRID & Hybrid"
  • What is the Impact of PV on GHGs reduction?
  • Types of PV Modules
  • Construction of PV Module
  • Understand the different technologies of PV modules "P-type & N-type"
  • Understand the different types of PV modules "Mono-Facial & Bi-Facial"
  • IEC & International Standards for PV modules
  • Understand the difference between STC & NOCT of the PV module.
  • Understand the importance of Linear Performance Warranty Annual Degradation, LID, LeTID
  • Understand the V/I & Power Curve of the PV module
  • Understand How to calculate the PV module efficiency.
  • Understand about PV module accessories "Junction Box, Wiring & Connectors"
  • Full understanding, how to read the manufacturer datasheet of PV module & select the important data for PV system design.
  • Understand the importance of PVEL & PQP " Product Quality Program" to ensure proper design for PV system
  • Operation Philosophy of the inverter.
  • What is the MPPT controller?
  • Familiarization with String Inverter
  • Familiarization with Centralized Inverter
  • Understand the difference between String & Centralized Inverters
  • Understand the meaning of On-Grid & Off-Grid Inverters
  • Familiarization with Charger Controller
  • IEC & International Standards for Inverters
  • Full understanding, how to read the manufacturer datasheet of String Inverter & select the important data for PV system design.
  • Full understanding, how to read the manufacturer datasheet of Centralized Inverter & select the important data for PV system design.
  • Understand the protection functions of the inverter.
  • Simple Schematic Diagram of String Inverter
  • Understand the meaning of Maximum Power Generated (MWp or kWp)
  • Understand the inverter DC/AC ratio; the importance of DC/AC ratio to perform optimal PV system design from technical and economics point of view.
  • Understand the construction of the PV string
  • Understand the types of PV string wiring " Daisy-chain & smart wiring"
  • Understand the Installation Methods of PV Modules " Fixed Mounted & Tracking Mounted"
  • Understand the types of Fixed mounted installation
  • Understand the types of Tracking mounted installation
  • Comparison between Fixed & Tracking Mounted
  • IEC standards for sizing the for DC cables
  • IEC standards for sizing the for LV AC cables
  • How to perform LV AC cable sizing calculation as per IEC Standard?
  • How to perform DC cable sizing calculation as per IEC Standard?
  • Understand the Cable Construction
  • Understand the Cable Insulations Types
  • Understand the Cable Insulation Voltages
  • Understand the Storage batteries
  • Understand the Difference Between Types of Batteries
  • Understand what is the Autonomy time of batteries for Photovoltaic application as per IEC61427-1
  • Understand what is the battery Battery rated Capacity for Photovoltaic application as per IEC61427-1
  • Understand what is the Battery cell Floating Voltage
  • Understand what is the Battery cell Equalizing Voltage
  • Understand what is the Battery cell End-of-Discharge-Voltage (EODV)
  • How to calculate the number of battery cells as per IEEE for lead acid batteries
  • How to calculate the battery cells end of discharging voltage as per IEEE for Nickel Cadmium Batteries
  • International Standards of the storage batteries
  • Understand what is the Battery rated Capacity as per IEC61427-1
  • Understand How to perform a proper design for the storage batteries as per international Standard.
  • Understand what is the Solar Irradiance.
  • Understand what is the Tilt Angle.
  • Understand what is the Azimuth Angle.
  • Understand what is the Collector Band Width.
  • Understand what is the Pitch Distance.
  • Understand what are the Horizon & Solar Path Curve.
  • Understand what is Ground Coverage Ratio.
  • Understand what is the Ground Albedo & It's effect on the Energy Production
  • understand what is the meaning of performance ratio and it's effect on the quality of PV Plant.
  • How to use the Solar Atlas & it's importance in PV system design?
  • How to use the Solar Calc & it's importance in PV system design?
  • Understand what is the Metrological Data.
  • Understand how to perform quick & preliminary sizing of the PV system at early stage of the project
  • Understand how to ensure the computability between the PV module & inverter in the system design.
  • Understand How to design the optimal PV modules per string.
  • How to design the Tables Configuration?
  • How to perform the Shadowing Analysis?
  • How to calculate the effective PV plant area?
  • How to Perform a Practical Design of On-Grid PV Plant .
  • How to Perform a Practical Design of Off-Grid PV Plant .
  • Familiarization with a Mega scale project Single Line Diagram including String Inverter
  • Familiarization with a Mega scale project Single Line Diagram including Centralized Inverter
  • Understand the economical analysis of bout PV System "CAPEX, OPEX, LCOE, NPV, ROI& SPB"

Who Should Attend!

  • All levels from no previous Experience , Beginners, Intermediate level & experience levels of Solar / Photovoltaic System
  • Electrical Engineers & Renewable Energy Engineers.
  • Electrical & Renewable Energy Undergraduate Students.