Project On Solar City

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PRESENTED BY ARCHIT SHAH NIRAJ KHAMAR GAURAV

PROJECT ON SOLAR CITY

TECHNICAL ANALYSIS  TECHNOLOGY 

PV

Expected future efficiencies are nearly 90% 

Concentrating photovoltaics

CSP 

Concentrating solar power plants produce electric power by converting the sun's energy into high-temperature heat using various mirror configurations. The heat is then channelled through a conventional generator. The plants consist of two parts: one that collects solar energy and converts it to heat, and another that converts heat energy to electricity.



Concentrating solar power systems can be sized for village power (10 kilowatts) or gridconnected applications (up to 100 megawatts). Some systems use thermal storage during cloudy periods or at night. Others can be combined with natural gas and the resulting hybrid power plants provide high-value, dispatchable power. These attributes, along with world record solar-to-electric conversion efficiencies, make concentrating solar power an attractive renewable energy option in the Southwest and other sunbelt regions worldwide. There are four CSP technologies being promoted internationally. For each of these, there exists various design variations or different configurations.  The amount of power generated by a concentrating solar power plant depends on the amount of direct sunlight. Like concentrating photovoltaic concentrators, these technologies use only direct-beam sunlight, rather than diffuse solar radiation



50% efficiency

MATERIAL INPUTS    

PANELS PV CELLS BATTERY INVERTER

PRODUCT MIX  ELECTRICAL  MECHANICAL  HEAT

PLANT CAPACITY      

A 4 kW photovoltaic system was integrated into the roof structure along with 5 m2 of solar thermal panels. In addition to being used as a working example of a domestic photovoltaic installation

LOCATION AND SITE  NOT NEAR TO MULTISTORAGE

BUILDING  NEAR TO GIFT CITY

MACHINERY & EQUIPMENT

STRUCTURE&CIVILWORK

ENVIRONMENTAL ASPECTS  ECO FRIENDLY  GREEN PROJECT

FINANCIAL ANALYSIS  Table:  Design 4 kw  So one battery 24w=167 battery    

require 1 battery cost 6000 rs/So 167*6000=10,02,000 rs/Inverter efficiency 85% So 4000/.85=4705 w inverter

 One inverter cost 50,000 rs/ Panel 1.85$/watt aten panel  So 1.85*4500=8325$    

So 8325*50=4,16,250 rs/So total cost = 1468250 rs/Grid connection = 31750 rs/So total 15,00,000 rs/-. Ans.

REFERANCE  WWW.GEDA.ORG.IN  WWW.SOLARBUZZ.COM  www.powerstream.com

 THANK YOU

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