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The Use of Solar Energy a Presentation made in 2008 at Institution of Engineers Sri Lanka
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Customers with large generators being paid SLRs. 21.15 per unit for generating their own power. News two days before!
NANOSOLAR POWERSHEETTHE NEW DAWN OF SOLAR
Copper indium gallium (di)selenide (CIGS) verified by NREL to be as efficient as 14.6% in 2006,
http://www.popsci.com/popsci/flat/bown/2007/index.html
Solar cell Price and production 2009=6700 MW
1 2 3 4 5 6 7
Incoming solar energy to EarthON AVERAGE AROUND THE WORLD, SUNLIGHT DELIVERS A BARREL OF OIL OF ENERGY ON EVERY SQUARE METER OF LAND
EVERY YEAR
Sri Lanka gets at 6 kWh/m2/day7000kWh/year Colombo
Efficiency
(Lumens/Watt)
Rated Life
(Hours)
Cost per 50,000
hours
Kerosene .03 Supply of
Kerosene $1251
Incandescent Bulb 5-18 1000 $175
Light Emitting Diode
(LED) 25-50 50,000 $20
Buy power during the night
CEB TARIFFDomestic effective from Nov 2008
Fuel Adjustment Charge 30% on all unit charges except DP & RP consumers consuming less than 90 units per month
Residential tiered tariff
30.00X1.3=Rs39
25.00X1.3=Rs32.50
16.00X1.3=Rs20.80
Rs7.50Rs4.70Rs3.00
Rs 39Rs 39Rs 39Rs 39Rs 39
Rs39/kWh
Technology
transfer to
rural Sri
Lanka
Annual Savings Before and After
3
0 1 2 3 4 5 Years
..
.
10000
.8000
6000
4000
200020
. 0
Accumulated Net Savings
1 2 3 4 5 6 7 8 9 10 11 12 13 YEAR
. RS8000
6000
4000
200020
. 0
How Storage will Help Smoothing of Out Put
1 2 3 4 5 6 7 8 9 101
Conversion factor(multiply top row by factor to obtain side column)
W/m² kWh/(m²·day) sun hours/day kWh/m²•y kWh/kWp/yW/m² 1 41.66666 41.66666 0.1140796 0.1521061 kWh/(m²·day ) 0.024 1 1 0.0027379 0.0036505 sun hours/day 0.024 1 1 0.0027379 0.0036505 kWh/m²•y 8.765813 365.2422 365.2422 1 1.333333
kWh/kWp/y 6.574360 273.9316 273.9316 0.75 1
Solar Radiation in W/m sq
Efficiency of Solar cells
1 2 3 4 5 6 71314
2009
1 2 3 4 5
Cost of Generation by Solar CEB DOM tariff for>600kWh/m
SUN POWER PRODUCTION vs LOAD PROFILE
A Typical CEB Load curve
1 2 3 4 5 6 7
The annual results for Sri Lanka, which range from 4.5 to 6.0 kWh/m2/day, are consistent with, and slightly higher than earlier studies using sunshine recorders, which gave results of 4.2 to 5.6 kWh/m2/day.
The slightly higher results are due most likely to the fact that, for Sri Lanka, we chose tocalculate the resource for a flat plate collector tilted to latitude, rather than the more
traditional method of calculating the resource on a horizontal surface that the earlier studiesused. With two axis tracking one axis done manually for seasons we can get 7.32 kWh/m2/day.
http://www.nrel.gov/docs/fy03osti/34645.pdf http://rredc.nrel.gov/solar/codes_algs/PVWATTS/version1/#map
With a 4kW system we can get this amount of Energy• Radiation Energy Energy• (kWh/m2/day) (kWh) Axis tracking per Watt/day• Colombo Ratmalana• 6.58 7411 2 1.85 22.5% Extra• 6.35 7172 1 1.79• 5.38 6028 0 1.51• Colombo/Katunayake• 6.71 7632 2 23.56% Extra• 6.47 7377 1• 5.46 6177 0• Hambantota• 7.32 8494 2 2.12 29% Extra• 7.00 8140 1• 5.71 6583 0• Trincomalee (AFB)• 7.11 8033 2 26.1% Extra• 6.83 7731 1• 5.64 6343 0
Solar Power Costs for Sri LankaPower needed 1577 kWh/yr OR 131 kWh/Month AC output needed 0.75 kW
Module area 1.33 sq.ft Area needed 11 sq.ft No of Modules 8 Power per module 100 watts DC power 789 watts Inverter efficiency 95 % AC power 750 watts
Module cost rate $2.00 watt Module Cost $1,500 Rs/house 178,406(assuming today’s exchange rate) Inverter cost rate $0.50 watts Inverter cost $395 Installation
cost rate $0.50 per watt Installation cost $395 Capacity factor 24 % Sri Lanka 2102.4 kWh/Year/kW Output per year 1577 kWh Degradation rate -0.30 %/Output after
year: 25 Total power delivered – kWh 37,991
Cost per kWh amortized with out batteries = $0.11(With net metering no Batteries are required). Simple Payback period < 4 Years
Cost per kWh amortized with batteries = $0.25Money saving for consumers >331kWh/M = Rs1,252,693/Y (At today’s tariff of Rs32.50 for>180
units Net metering but surely the CEB tariff will increase ) Typical CO2 emission from oil 583 kg/MWh
Emissions saved (kg) 22,148 Typical fuel consumption per MWh 125 gal. Fuel saved (gal)
4,749. Cost of fuel saved for the country Rs 1,258,336. Assuming all marginal units are from Diesel
Fuel Saving in Import Rs719,049/house (At today's import price but which will soon go up )
NANO ORGANIC PV CELL(HIGH EFFICIENCY)
Flexible Plastic PV Cell
1 2 3 4 5 6 7
Ultra Triple Junction Solar Cells
Solar Concentrators
1 2 3 4 5 6
1 2 3 4 5 6 7
The SolarWall® PV/thermal solar system
is housed on the roof of a service
centre and health clinic for theOlympic athletes in Beijing
PV module efficiency is typically between 8-20%.What happens to the rest of the sun’s energy thatshines on the panels? Most of it is converted intoheat energy, which normally is lost and providesno value to the system owner. As well, the heat build-up behind PV modules reduces the electricaloutput by 0.4-0.5% for every 1°C above its ratedoutput temperature (which is 25°C). Given thatroofs can reach temperatures as high as 90°C,the actual operating efficiency of PV systems is
often significantly less than the rated output.
Benefits of Solar Cell Energy a Zero Emission Technology
• More manual labor jobs will be created
• The value of the property will go up• By distributed generation day peak will come down. Transmission and Distribution losses will be reduced.
• Reduction of costly oil imports to the country
• Reduction of costly Gas turbine generation and costly Private power.
• Reduction of Global warming
• Reduction of polluting CO2 and other CHS Gasses
• Reduction of wasteful use of water in thermal Power stations
• With net metering the large homes will benefit more on reducing there costly electricity bills.• Combined with energy efficiency and energy saving and use of LED lamps the night peak can also be reduced to
benefit the utility.
• Should be able to get Renewable Energy Certificates and Carbon trading
• Low interest soft loans will become available from the local banks like for Rural solar home systems
• A mental satisfaction that we have not contributed to Pollution and Global warming.• It is expected that bilateral and multilateral finance and market stimulation programs based on best service at least
cost will be soon available
Distributed Generation: the Next Step in Smart Power Distribution
Solar Power is commercially viable.
1 2 3 4 5 6 7
20% efficiency = 200W/m2 or 20W/ft2.LED lamp LIFESPAN of up to 50,000 hours! Up to 90% more efficient than traditional lighting
Solar Powered LED Lantern
“Kiran” Solar LED Lamp @ $10http://www.dlightdesign.com/products_kiran_global.php
The Kiran is designed to be extremely user-friendly and flexible. It has no detachable parts and includes an integrated solar panel that makes recharging simple and easy. The product shape, portability, and multiple-setting handle give the customer many options for use. The Kirancan be carried, hung from the wall or ceiling, or placed on any surface to effectively illuminate the surrounding areaProduct SpecificationsTime for full charge on Solar 8h
Hours of light on Full charge 4h on full bright8h on Low
Hours of light based on solar charging in full sunlight at 25 degrees Celsius These are priced at INDRs 500 in India
QS Solar 55 Watt Panelshttp://www.qspv.net/
• Technical Datasheet• Electrical Data• The electrical specifications shown
below are stabilized values measured at Standard Report Conditions:1000W/m2 irradiance, AM1.5 spectrum at 25 degree C, while Voc or Isc can be customized.QS Solar, the first producer reaching the selling price of USD 1 per watt
•http://www.qspv.net/
55 Watts
Solar street lamps in China
D Light India
Solar power has several advantages
• Economical Benefits:• The energy from the sun is practically free, after the initial investment has been recovered• Solar energy reduces our dependence on foreign or centralized conventional source of energy• Solar energy supports local jobs and creates wealth, which elevates local economies
• Environmentally Friendly:• Solar energy is clean, quiet, renewable and sustainable unlike other conventional energy sources such as gas,
oil, and coal• Solar energy does not contribute to global warming, acid rain, or smog, on the contrary, it helps to lower
harmful green house gas emissions•
• Independent/Semi-Independent:• Solar energy reduces our dependence on foreign or centralized sources of energy• Solar energy can reduce your electric bill, and also supply your property with electricity in the event of a power
outage• Solar energy systems can operate entirely independent from a power or gas grid; therefore systems can be
installed in remote location•
• Low or no Maintenance:• Solar energy systems are virtually maintenance free and will last at least 25 years• System sizes can be increased in the future as your electricity needs grow• Systems operate silently, and have no moving parts
Toyota 2010 Solar Roof PriusThese panels will power the air conditioning system, allowing its operation without turning on the car's main engine.
Toyota has announced that the next redesign of their highly successful hybrid Prius
automobile will include solar panels on its
roof
A photo of the new world record solar cell.
(© Fraunhofer ISE)
The sunlight was concentrated 454-times onto a 5 mm² multi-junction solar cell composed of GaInP/GaInAs/ Ge (gallium indium phosphide, gallium indium arsenide on a germanium substrate) a record 41.1 percent efficiency.
A new phone of Samsung "Blue Earth" powered by
solar energy is seen at the
Mobile World Congress in Barcelona,
Spain, Monday, Feb.
16, 2009.
Priced at $40
Researchers at the Fraunhofer Institute for Solar Energy Systems (ISE) in Freiburg have reached a record 41.1 percent efficiency
http://www.news.com.au/heraldsun/story/0,21985,25105900-2862,00.html
First Solar first to US$1 per watt manufacturing cost
http://www.pv-tech.org/news/_a/first_solar_first_to_us1_per_watt_manufacturing_cost/
Bicycle Powered Generatorhttp://www.mattshaver.com/bikegen/index.htm Ind Rs.4000