Small Wind Systems in Village Small Wind Systems in Village Power ApplicationsPower Applications
Southwest Windpower, Inc.Southwest Windpower, Inc.““Renewable energy made simple”Renewable energy made simple”
Andrew Kruse
Company OverviewCompany Overview
Leading producer of 400-3,000 watt wind turbinesLeading producer of 400-3,000 watt wind turbinesMore than 70,000 wind turbines produced in the last 10 More than 70,000 wind turbines produced in the last 10 yearsyearsDistribution in 60 countries with product in over 130 Distribution in 60 countries with product in over 130 countriescountriesProduction in 2004 will reach 8 MW of capacity (10,000 Production in 2004 will reach 8 MW of capacity (10,000 wind turbines) wind turbines)
AIR – 400 Watt Whisper 900 Watt Whisper 1000 Watt Whisper 3000 Watt
Future of Small WindFuture of Small Wind Product maturity is approached as the technology Product maturity is approached as the technology
evolves to meet specific market criteria. As for wind it evolves to meet specific market criteria. As for wind it is cost of energy, convenience and low noise is cost of energy, convenience and low noise
• Product design based on low cost of energy, reliability and minimal noise• Cost of energy US$.08-.10 kWh• Innovative alternators designed specifically for small wind systems• Every component is tooled for lowest part cost in mind• Engineering cost to develop: $2-3M• Tooling cost for production: $1-1.8M
Scaled 3d prototype parts 2 KW - Prototype
ApplicationsApplications
Offshore Navigation
Sailboats
Street LightingWater Pumping
Remote Monitoring
Emerging World ApplicationsEmerging World Applications
Dominican Republic
Panama
Mexico
Mongolia
Bangladesh
Why Small Wind?Why Small Wind?
Wind and Solar are complementary
SUMMER SUMMERWINTER
AVERAGE MONTHLY WIND SPEED
AVERAGE MONTHLY INSOLATION HOURS
Example: Solar/wind mix for 4.6 kWh/day SystemExample: Solar/wind mix for 4.6 kWh/day SystemOverlay the calculated Power Supply requirement onto the resource base, Overlay the calculated Power Supply requirement onto the resource base, determine mix and add 20% for variability of resource.determine mix and add 20% for variability of resource.
0.00
1.00
2.00
3.00
4.00
5.00
6.00
7.00
8.00
JA
N
FE
B
MA
R
AP
R
MA
Y
JU
NE
JU
LY
AU
G
SE
PT
OC
T
NO
V
DE
C
SOLAR
WIND
kWh/d4.6 kWh/day supply requirement + 20%
Typical Small Wind System CostTypical Small Wind System Cost
400 Watt System (40 kWh/mo – 5.4 m/s wind) – 400 Watt System (40 kWh/mo – 5.4 m/s wind) – $500-800 USD$500-800 USD
1000 Watt System (200 kWh/mo – 5.4 m/s wind) - 1000 Watt System (200 kWh/mo – 5.4 m/s wind) - $2100-2900 USD$2100-2900 USD
3000 Watt System (500 kWh/mo – 5.4 m/s wind) - 3000 Watt System (500 kWh/mo – 5.4 m/s wind) - $6100-7500 USD$6100-7500 USD
The examples below include the cost of the wind turbine, tower, wiring and battery
Example -1 IndonesiaExample -1 Indonesia
Installed in 1998 – Winrock InternationalInstalled in 1998 – Winrock International
Each system consists of a 600 watt wind Each system consists of a 600 watt wind generator, tower, batteries and hardwaregenerator, tower, batteries and hardware
2 – Solor Island2 – Solor Island
8 – Sumba Island8 – Sumba Island
4 – Java Island4 – Java Island
2 – Flores Island2 – Flores Island
17- Sabu Island17- Sabu Island
2 – Lembata Island2 – Lembata Island
Application – Battery Charging for lighting, Application – Battery Charging for lighting, television and refrigerationtelevision and refrigeration
Purpose of the system is battery charging for lighting and for office application e.g.:
Computer, TV, Small Freezer, etc.
Indonesia
Example -2 Sri LankaExample -2 Sri Lanka
2004 - USAID Funded Project 2004 - USAID Funded Project
The island of Baththalangunduwa is a small, narrow sandy island approximately 4km long by ½ km wide, about 10km off the West coast of Sri Lanka. There are approximately 300 families living on the island, in self made housing with isolated kerosene or small PV generators for power, and no reticulated water, sewerage or health facilities.
Installation of Wind TurbinesInstallation of Wind TurbinesThe project was formulated by US Asia Environment Program (under US-AID) to develop basic lighting and services power for approximately 20 households. The project is set up and run as a privately contracted service, to provide a working economic model to be replicated for other groups of housing.
Power UsesIn addition to the 20 families that received lighting from the system, energy was used for the community theatre and health clinic
Theatre
Clinic
Lessons LearnedLessons Learned
Installation of 100% subsidized systemsInstallation of 100% subsidized systems
No network of qualified installersNo network of qualified installers
No follow-up maintenance of installed No follow-up maintenance of installed systemssystems
No end user training programNo end user training program
Use of unqualified equipmentUse of unqualified equipment
Too many “hands” equipment must pass Too many “hands” equipment must pass throughthrough
The greatest failure of past renewable energy systems was due to poor planning and implementation of programs along with little or no after installation service
What WorksWhat Works
Making technology affordable through a Making technology affordable through a combination of subsidies and payment combination of subsidies and payment programsprograms
Training, Education and establishment of Training, Education and establishment of qualified distributorsqualified distributors
The establishment of laws that encourage The establishment of laws that encourage the use of Renewablesthe use of Renewables
An objective of electrifying rural areas is to enhance social benefits through lighting, education and health to minimize migration of the rural population to cities
Southwest WindpowerSouthwest Windpower2131 N. First Street2131 N. First Street
Flagstaff, Arizona 86004Flagstaff, Arizona 86004
Phone: 928-779-9463 Fax: 928-779-1485Phone: 928-779-9463 Fax: 928-779-1485
Web: Web: www.windenergy.com
Andy Kruse – Andy Kruse – [email protected]
“Thank you”
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