layout webinar presentation

Welcome

LIVE WEBINAR

SOLAR MODULE LAYOUT REPORT

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Agenda

Agenda

2. Two important steps that help you transform your idea to go solar, into reality.

3. Seven prime steps for creating a module layout for rooftop & ground projects.

4. Why ezysolare

1.Why invest in solar PV power projects?

Why invest in Solar PV Power Projects

80% Accelerated Depreciation

Tax Benefits

18-25% Return on investment

Cheaper than conventional power

Why invest in Solar PV Power Projects

Please visit our website or youtube channel for the video on our webinar on SEAR

Steps that help you transform your idea to go solar, into reality.

SEAR- Solar Energy Assessment Report

Solar Module Layout Report

Please visit our website or youtube channel for the video on our webinar on SEAR

SEAR- Solar Energy Assessment Report

Solar Module Layout Report

DECISION

DESIGN

Steps that help you transform your idea to go solar, into reality.

Solar Energy Assessment Report

Please visit our website or youtube channel for the video on our webinar on SEAR

Solar Energy Assessment Report

Please visit our website or youtube channel for the video on our webinar on SEAR

It gives you the generation and savings/revenue analysis for your solar PV power plant

Details of number of units of electricity that would be generated from that plant, monthly/annually

Savings or revenue for next 25 years (which depends on your electricity tariff or Power Purchase Agreement )

Solar Module Layout Report

Solar Module layout report

Gives you the accurate idea about the capacity that can be installed on the roof or land available with you.

Gives you the view of the site design and overall layout of the plant.

Details on the number of modules and inverter required.

7 prime steps to creating an accurate Solar Module Layout report

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof Hipped Roof

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof Hipped Roof Shed Roof

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof Hipped Roof Shed Roof Gable Roof

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof Hipped Roof Shed Roof Gable Roof

The method of module placement varies with the type of roof

While on a flat roof, we are able to follow Optimum Tilt of the panel easily, panels on a tilt roof are mostly mounted at the angle of roof tilt itself.

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The most common type of roof are :

Flat Roof Hipped Roof Shed Roof Gable Roof

The method of module placement varies with the type of roof

While on a flat roof, we are able to follow Optimum Tilt of the panel easily, panels on a tilt roof are mostly mounted at the angle of roof tilt itself.

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

A solar plant in India would generate maximum when it is facing true South direction

Orientation of the building has a direct impact on the generation

For a country in Southern Hemisphere, the panels need to face true North direction

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

Most common shadow casting objects and obstacles are nearby building, pipelines, parapet walls, trees, stubs, ventilators and water tanks.

Shadow objects may reduce the generation and effect the planned module area.

Shadow analysis is done to find the shadow free area for most of the daytime hours in all seasons.

Shadow objects & Obstacles

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

Most common shadow casting objects and obstacles are nearby building, pipelines, parapet walls, trees, stubs, ventilators and water tanks.

Shadow objects may reduce the generation and effect the planned module area.

Shadow analysis is done to find the shadow free area for most of the daytime hours in all seasons.

Shadow analysis is done by simulating the Shadow objects in the software.

Simulation in software

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

Optimum tilt is necessary to maximise the total radiation received by the panels.

The optimum tilt and the distance between the module rows depends on the geographical location of the site.

Tilt also has an impact on inter row shading. Therefore we also need to be careful about maintaining an optimum distance between the module rows to avoid inter-row shading.

Pitch distance varies with the site location

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The number of modules that can be placed in the available shadow free area depends on the area available and the dimensions of the module.

Module placement is done once we have the shadow free area, optimum tilt and the pitch distance.

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimises layout

The actual capacity that can be accommodated is known after module placement.

Yield generation report is simulated to get the annual energy generation, losses associated with the various configuration of the tilt angle, orientation and row spacing.

7 prime steps to creating an accurate Solar Module Layout report

Type of roof assessment

Orientation of the building

Shadow object identification, analysis & plotting

Optimum Tilt & Pitch for the roof

Module placement in the shadow free area

Yield generation report

Final optimised layout

Final optimised layout is prepared by considering the economically optimised module arrangement with balance of systems.

Balance of system consists of Inverters, Lightning protection system, weather monitoring system, etc.

Layout is planned with minimum cable runs and associated electrical losses, also considering access route.

DEMO

How are we different ?

ezysolare is new in the market but our team has an experience of more than 1 GW in solar industry.

Our reports are very accurate and cover all the information that our customers are looking for to clear their doubts.

Thank you

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