In an era marked by pressing environmental concerns and the need for sustainable energy sources, solar energy emerges as a shining star. Harnessing the power of the sun, solar energy has rapidly gained momentum as a viable and essential solution to our energy needs. This article aims to highlight the importance of solar energy, shedding light on its numerous advantages and implications for a greener and more sustainable future.Â
Solar energy is a renewable and inexhaustible source of power, derived from the radiation emitted by the sun. Unlike fossil fuels, which are finite and deplete over time, solar energy offers a virtually unlimited supply. Moreover, solar power generation produces no greenhouse gas emissions or air pollutants, leading to cleaner air and reduced carbon footprint. By adopting solar energy, we can mitigate the adverse effects of climate change and pave the way toward a more sustainable future.Â
As the demand for solar power systems continues to rise, the need for skilled professionals in solar energy design becomes paramount. By providing individuals with the necessary expertise and skills, we empower them to design and implement efficient, safe, and high-performing solar energy systems. Through training, we promote innovation, create job opportunities, and contribute to a sustainable future.Â
At the end of this course, you will learn.Â
This course is suitable for participants who have pre-knowledge on the Solar Energy basic course outline.
- Manual design of On-grid and Off-grid systemÂ
- PV Syst software featuresÂ
- Software-based design of On-grid and Off-grid systemÂ
Formulas required for solar systemsÂ
- Electrical basics and mathematical formulas
- 2-Manual design of an Off-grid systemÂ
- Off-grid solar system designÂ
- Schematic of Off-grid solar systemÂ
- Obtaining the total energy value of electrical appliancesÂ
- Energy of panels should produceÂ
- Obtaining the total power of the panels and the number of panelsÂ
- Obtaining PSH using the geographical location of the solar power plant installationÂ
- Determining the charge size of the solar controllerÂ
- Battery selectionÂ
- Inverter calculationÂ
- AC and DC cable size calculationÂ
- Fuse protection sizingÂ
Manual design of an On-grid systemÂ
- Getting the number of panelsÂ
- Calculation of the number of stringsÂ
- Calculation of the number of panels in each rowÂ
- Calculation of the required inverterÂ
- DC fuse calculation and selectionÂ
- AC fuse calculation and selectionÂ
- Select AC and DC cable sizesÂ
Offgrid solar system design with PVSYSTÂ
- Define New project , find lactation on map , import data from different sourcesÂ
- Explain each data that is from meteo source(solar path ,PSH,GHI,HDI, Temperature ,wind speed)Â
- Define best plane tilt and azimuth based on yearly, summer, winter and transposition factorÂ
- Define user needs, hourly distribution
- System summeryÂ
- Define storage –PV array-charge controller based on PLOL and autonomyÂ
- Define new system componentsÂ
- Explanation Stand-alone reportÂ
- Near shadingÂ
Ongrid solar system design with PVSYSTÂ
- How to define project nameÂ
- Define new project , find lactation on map , Import meteo data from different sourcesÂ
- Explain each data that is from meteo sourceÂ
- Define best plane tilt and azimuth based on yearly, summer, winter and transposition factorÂ
- PV arrays sizingÂ
- Inverter sizingÂ
- Module layoutÂ
- Detail losesÂ
- Advanced simulationÂ
- Define new system componentsÂ
- Explanation ongrid reportÂ
- Near shadingÂ
- Horizon shadingÂ