!! New Batch of Solar Power Plant Design & Electrical system Design will going starts from 21st December 2024
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Floating Solar Plant Design Course

AEDEI has aim is to provide Training on solar plant energy based on new technology for the future. Floating Solar power Plant remains the most secure source of energy for the future and we providing Training on floating solar power plant design to set global standards in achieving this goal. Solar Design Training institute provides design, develop, plan, install, commission and operate domestic, commercial, utility-scale and industrial photovoltaic(solar) power plants.

Aedei is committed to delivering high quality of education on floating solar power plant Designing with a mission to Design a practical Projects on solar power plant to unparalleled standards. Continuous technological innovations, proven expertise and innovative solar energy solutions to satisfy a broad spectrum of customers.

The high energy demand and the constant depletion of the fossil fuels lead us to shift our focus to renewable energy sources which are not only the future unlimited source of energy, it is also eco-friendly and viable for the environment. Hydro and Wind though are renewable sources but are area specific. Solar energy on the other hand can be installed in any place. The major issue with the solar energy is the requirement of land which is scarcely available in the world and even costly to get. But floating solar plants can be installed in any water bodies which will not only reduce the cost of the land but will increase the amount of generation with the cooling effect of water. This paper concentrates upon the design parameters of the floating platform but will also focus upon the effect of panel shade on the ecosystem.


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Who should attend:
Anybody who wants to gain valuable hands-on experience, especially electrical and mechanical engineers; electrical and general contractors, electrical designers, solar companies and solar industry professionals who want to further their knowledge of solar design.

Prerequisites: Participants should have a basic understanding of solar PV or basic solar design, PV installation or related experience. Participants should also have Basic knowledge of electrical.

What time:

  • Weekend Batch : Saturday and Sunday
  • Time : 4 Hours/per day
  • Duration: 2 Months

How much:  Call to ASK.  Fee includes
course materials.

How to Register: We offer the following options to register for this class. Class size is limited, so we recommend that you register early to guarantee a seat.

1. Online - click on the Enroll Now button below and register using a credit card or check card. You will be redirected to our online payment page for a safe, secure transaction. You will receive an email confirmation when the transaction is complete.
2. By phone – simply call us at (+91)-8467024957 and we'll process your registration over the phone.



Syllabus of Floating Solar Plant Design Course

syllabus-advance-electrical-design-institutue

Chapter 1 - Selection of Floating Solar Power Plant Site

  • Assessment/ site survey of floating solar power plant
  • Dam/ Pond dimension calculations
  • topography and bathymetry survey
  • Wind speed and environment factor assessment to impact the solar power plant
  • Mapping of solar floating site in Auto CAD
  • Water level of bank ( Min/Max ) and surrounding soil type for civil work construction
  • Sloping criteria of Floating solar and minimum distance from bank level
  • Bottom soil composition / soil type for anchoring system for floats
  • Power evacuation level for floating solar
  • DC system voltage selection (1500V/1000V DC )
  • PV module structure interrow spacing calculation /
  • Pitch analysis.
  • Selection of PV module tilt angle/ pontoon angle
  • Near shading object calculation.
  • Type of solar radiation (GHI, DNI ,DHI)/Meteorological Terms.
  • Irradiance assessment and comparison.
  • Solar Radiation Data.
  • Temperature factor of floating solar.
  • Magnetic North & True North with variation of azimuth angle.

Chapter - 2 Selection of floating pontoon

  • Types of Pontoon
  • Material composition of Pontoons
  • Specification of main Pontoons
  • Selection criteria for PV module pontoons
  • Load bearing capacity of pontoons
  • Pontoons Buoyancy of each square meter
  • Connections of main Pontoons
  • Selection of Passage Pontoons.
  • Material composition of passage Pontoons
  • Connections of main Pontoons to Passage Pontoons
  • Selection of SMB/Inverter structural Pontoons
  • Material composition of structural Pontoons
  • Selection of accessories of pontoons
  • Anchoring Methodology
  • Selection of mooring/anchoring system
  • Rope Methodology
  • Selection of rope material
  • Connections of rope.
  • PV array to Array safe distance calculation
  • Criteria of minimum water level
  • Central inverter and Switchgear Laminated ferro cement technology material

Chapter- 3 Preparation Floating Solar Power Plant Drawing

  • Preparation of Overall Plant Layout
  • Preparation of Overall Plant Layout with main Pontoons and passage pontoons
  • Preparation of DC Blocking layout
  • Connection drawing of PV modules cabling
  • Preparation of Blocking with SCB/ String Inverter
  • Preparation Earthing Layout for Floating solar Power Plant
  • Preparation of ESE type lighting arrestor drawing
  • Preparation of AC and DC cable layout and section
  • Preparation of Module clearing system drawing
  • Preparation bill of quantity (BOQ)
  • Preparation of Single line diagram AC side
  • Preparation of single line diagram DC Side
  • Connection of Leap frog method for string connection
  • Optimization of BOQ

Chapter 4 - Selection of PV module (cells and BOM) and sizing

  • Types Crystalline module cells
  • Manufacturing process of PV cells
  • Comparison between mono crystalline
  • Selection of PV cells
  • Selection of front and rear sheet
  • Selection of PV module glass
  • Selection of EVA sheet , Bus bar and frame
  • Characteristics of a Solar Cell
  • Power Characteristics of a Solar Cell
  • Fill factor and Equivalent Solar cell Circuit

Chapter 5 - Inverters Selection and Sizing (Grid Connection and Off Grid)

  • Types of solar inverter
  • Selection of string /central / off grid inverter
  • Selection of power conditioning unit (PCU)
  • Sizing of solar inverter for roof top and grid connected projects
  • Selection and sizing of string inverter
  • Selection and sizing of central inverter
  • AC/DC overloading calculation and losses
  • Protection requirement of solar inverter
  • Passive and active protection
  • Anti- islanding protection
  • Mounting arrangement of string inverter
  • IEC/IEEE /Grid Compliance of inverters
  • Grid-Connected Inverters vs. Stand-Alone Inverters
  • Inverter Communication and remote monitoring
  • Inverter Products For Use In India

Chapter 6 -Connection of PV Module(Series and Parallel Circuit)

  • Series Circuits
  • Parallel Circuits
  • Combining Series & Parallel Circuits
  • PV module string connection
  • Matching The PV Array ToThe Voltage Specifications of An Inverter
  • Matching the PVArray to the Inverter's Current Rating
  • Matching the PVArray to the Inverter's Power Rating
  • Summary of Calculations for Matching Array and Inverter

Chapter 7 -Solar Power Plant String Combiner Box/ ACDB/ MDB/Metering cubical

  • Selection and sizing of SCB/SMB
  • Selection of Isolator/ fuse
  • Selection of Monitoring of SCB/SMB
  • Mounting arrangement of SCB/SMB
  • ACDB Switchgear sizing
  • Types of energy meter and selection

Chapter 8- Solar power plant HT switchgear selection and sizing

  • Selection and sizing of inverter duty transformer
  • Selection and sizing of HT switchgear
  • Selection and sizing of ICOG/ Main switchboard
  • Selection and sizing of Aux. transformer
  • Aux. Losses calculation
  • Inverter duty No-load and load losses calculation

Chapter 9 - Selection and sizing of AC and DC Cable

  • Ampacity calculation of solar cable
  • Sizing of solar cable /DC cable
  • Sizing of String cable
  • Derating factor of cables
  • Sizing of AC cable (Inverter to ACDB ,ACDB to MDB)
  • Sizing of DC cable (Module to SMB , SMB to Inverter )
  • HT Cable sizing ( Transformer to HT switchgear and HT switchgear to Pooling station /Metering Point
  • Derating factor s of HT cables
  • HT cable Short circuit withstand capability calculation
  • Sizing of energy meter /ABT Meter

Chapter 10 - Selection and sizing of AC /DC Side Earthing

  • Types of earthing
  • Types of Earthing strip/ ground conductor
  • Types of Vertical electrodes
  • Sizing of Cross section area of GI strip
  • Resistance calculation of GI strip
  • Resistance calculation of Pipe electrode
  • Solar Plant resistance calculation
  • Preparation AC /DC earthing layout

Chapter 11 -Selection and sizing Lightening Protection (LA )

  • Types of Lightening Protection Arrestor
  • Lightening protection assessment calculation
  • Protection zone calculation of Conventional type LA
  • Down conductor cross section area calculation
  • Method of Lightening protection
  • Basic Consideration for Protection
  • Calculations for Evaluating the Need for Protection
  • Calculation of Protective Angles and Zone of Protection For Various
  • Forms of Air Termination
  • Selection of lightening protection device
  • Selection of ESE type Lightening Protection
  • ESE LA down conductor and earthing calculation
  • Preparation LA layout

Chapter 12 - System Losses of Solar Power Plant

  • Determining the Size of the DC and AC Cables
  • Losses in a Grid-Connected PV System

Chapter 13 -Solar Power System Yield Performance(Energy Guarantee)

  • What Determines the Energy of a System
  • Preliminary Planning
  • Calculating the Energy Yield for a PV Grid-Connected System
  • Specific Yield
  • Performance Ratio
  • CUF Calculation