SOLAR THERMAL POWER - · PDF fileEmail: export@newindiaelectricals.com ; info@korusenegy.com...

SOLAR THERMAL POWERHigh Risk High Returns

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SCALE OF SOLAR ENERGY

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SOLAR POWER PLANT - BENEFITS

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SOLAR IRRADIANCE - INDIA

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� 20,000 MW by year 2020 Generating 2530 TWh per year

� Envisages an investment of $ 18 billion in the next 30 years

� Initial investment of $ 867 million provided by Indian Govt

� Solar PV and Solar Thermal in ratio 50:50

� Target for 1st Phase ending 2013 1300 MW

� Grid Connected PV + CSP 1000 MW

� Rooftop PV 100 MW

� Off- Grid PV 200 MW

� Attractive Subsidies and Feed in Tariff

� By year 2050, about 70 % electricity produced from renewables

INDIA - NATIONAL SOLAR MISSION

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SOLAR ENERGY GENERATION TECHNOLOGY

Non-concentrating Concentrating

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SOLAR PV PLANT

� Generating Electricity From Solar

Radiation Using Photoelectric

Effect Of Semiconductors

� Solar Module Arrays Collects Solar

Energy And Converts It Into Dc

� Solar PV Inverters Converts Dc

Power To Ac Power

� Electrical Connection To Grid

Trough Transformers Switch Gears

And All Allied Systems

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SOLAR PV PLANT IN OPERATION3 MW GRID CONNECTED GROUND MOUNTED PLANT IN KARNATAKA, INDIA

Side view of solar arrays Panoramic view

HV Substation for

grid Connectivity

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� Solar Thermal by converting solar radiation into high temperature heat.

� Huge potential of medium temperature Heating & Cooling remains untapped

� Heating

� Centralized cooking

� Laundry

� Milk Pasteurization

� Make up water heating

� Furnace oil heating

� Cooling

� Comfort Cooling

� Process Cooling

SOLAR THERMAL

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� CSP converts solar radiation into high temperature heat using various

mirrors/reflectors and receiver configuration.

� Channeled through conventional generator Plant consisting

� Solar Field : Collects solar energy and converts it into heat

� Power Block :Converts heat energy to electricity

� The basic Subsystems are

� Collector

� Receiver

� Transport/Storage

� Conversion

� CSP Technologies

� Parabolic trough

� Power Tower

� Parabolic Dishes

SOLAR THERMAL -CSP

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PARABOLIC TROUGH

� Parabolic Trough shaped mirrors

concentrate solar radiation to thermally

efficient receiver tubes placed in trough

focal line

� Thermal transfer fluid is circulating in tubes

� Heated to approximately 400 o C this fluid

pumped through series of heat exchangers

to produce superheated steam

� Steam heat converted into electricity by

conventional steam turbine generator

� Operating temperature ~350-400 0 C

� Plant Efficiency 14 %

� Best Land use Factor

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SOLAR TOWER

� Circular array of heliostats concentrate

sunlight onto a central receiver mounted

on top of the tower

� Heat transfer medium in tower converts

concentrated radiation into thermal

energy

� Superheated steam for turbine operation

generated from this thermal energy

� Heat transfer medium include Water,

Liquid sodium, molten salts etc.

� Operating Temperature ~ 550-600 o C

� High Conversion Efficiency

� Storage at high temperature

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PARABOLIC DISHES

� Parabolic dish shaped reflector

concentrate radiation to receiver

located at its focal point

� Receiver absorbs this radiation to

heat the fluid

� This fluid is used to generate

electricity in small piston or sterling

engine or micro turbine attached to

the receiver

� Operating temparature~750 o C

� Very high Conversion Efficiency

30%

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SCHEMATIC DIAGRAM OF A CSP

PLANT (SOLAR TOWER)

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� Capital Cost per MW $ 3.2 Million

� Cost Break Up

� Solar Tower Modules 70 %

� Installation- &

� Other Infrastructure 30 %

� Operation- &

� Maintenance $ 0.03 Million per MW

� 1 MW CSP generates 18.4 million units (kWh)

� Auxiliary Consumption 10 %

� Feed-in tariff of electricity is Rs. 13.78/ kWh i.e. $ 0.275/ Kwh

� Water Requirement 2700 Cu M /Day

� Project Payback 5.83 years

� Project IRR 15.91 %

� Equity IRR 19.74 %

COST OF SOLAR PLANT - CSPCase Study of 50 MW CSP Plant

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� 1 Sq. Km of concentrated radiation is sufficient to generate 100-120 GW

(Equivalent of Annual Production of a 50 MW Conventional Plant)

� Each Sq. m of solar reflector avoids annual production of 250 –300 kg

of CO2

� Future of Solar Thermal (Greenpeace & ESTIA Scenario 2025)

� Annual Capital Investment in Solar Thermal From $ 60 million in 2006 to $ 16.4 Billion in 2025

� Expansion will create about 50,000 jobs

� Up to 2025 emission into the atmosphere avoided 395 Million tons of CO2

� Annual emission avoidance in 2025 57.5 Million tons of CO2

� By 2030 100,000 MW

� By 2040 600,000 MW

(5% of world electricity demand)

FUTURE OF SOLAR THERMAL

By Year Annual Installation Total

2015 970 MW 6,454 MW

2025 4660 MW (100 million Mwh) 36,000 MW

∗ CONCEPT DESIGN

∗ DETAIL ENGINEERING

∗ COST EFFECTIVE SOURCING

∗ INSTALLATION & COMMISSIONING

∗ TRAINING & HANDOVER

∗ MAINTENANCE

NEW INDIA ELECTRICALS OFFERS:

END TO END SOLUTIONS

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NEW INDIA ELECTRICALS GROUP

ABB system houseABB system house

Exports to over 30 countries; Exports to over 30 countries;

Select list of International CustomersSelect list of International Customers

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Contact:

Korus Energy Solutions Pvt. Ltd.

New India Electricals Ltd

Address: Power House, No. 18 J.C. Road,

Bangalore - 560 002, India

Phone: +91 80 4243 4343; 2223 5230

Fax: +91 80 2222 6666

Email: export@newindiaelectricals.com; info@korusenegy.com

URL: www.nielgroup.com

THANK YOU

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