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Wind Farm Term Project: Team Windbreakers. Members : Ross Belkofer James Rayo Natalie Sample Alex Styborski Garrett Brown Dylan Warner . Executive Summary. Statement of the Problem Background Method of Solution Results - PowerPoint PPT Presentation
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Wind Farm Term Project:Team Windbreakers
Members:Ross Belkofer James Rayo Natalie Sample Alex Styborski
Garrett Brown Dylan Warner
Executive Summary Statement of the Problem Background Method of Solution Results Discussion and Conclusions
Background Introduction History of Development of the Wind Turbine in this Project
Choices in Wind Farm Design What the future holds…
IntroductionAn off-shore wind farm could have benefits but also
many issues related to the planning and building of it. The General Electric 4.0-110 is the turbine used in this presentation.
Issues to address: Where will this wind turbine be located and what is
its purpose? Obtaining consent for construction and other legal
issues concerning the project. Is safety a concern in the building and use of this
wind turbine?
HistoryIntroduced in 2010Relatively new wind turbineGeneral Electric is a global leader of wind turbines around the world
[Figure 1: GE symbol(2012)]
Choice in Wind TurbineGeneral Electric’s proven technologyThe 4.0 MW offshore wind turbine delivers a
reliable, cost-effective, high-performance solution
Offshore capability to generate a multitude of energy
Permanent magnet generator delivers high efficiency even at low wind speeds
Replaces gearboxes with reliable components designed for offshore turbines
What the Future Holds The offshore wind industry is maturing and
growing From a 1.5 GW base in 2008 to a forecasted
30 GW base in 2020 Wind power will be more dependent “Powering the world… responsibly.”
Statement of the Problem
To construct the offshore wind turbine within the constraints of:
o The Construction Scheduleo The Budgeto The Environment (Oceanic Surface)o Abiding to safety regulations
Why solve the problem? Quality of Life
o Cheaper for local peopleo Healthier more
responsible alternative
Constructiono Material measurements
precise i.e. concrete, machine use
o Stick to construction schedule
Protection of Environmento No emission of carbon
dioxideo Animal life - no chance of
oil spills o Ozone layer
o Not burning fossil fuelso Alternative energyo Clean
Mission and Objectives
Key Factors:o Location o Turbine Type /
Amounto Costo Time
“Our General Electric 4.0-110 Offshore Wind Turbine will efficiently produce and store clean energy to power various sources off the coast of Maine.”
Mission:
Iterative design
Develop the Solutions
Define the problems
Implement and test
the solutions
Observe and evaluate design
Design Location in relation to environment Type of turbine Distance from shore Codes zoning Wave patterns and depth of water (Nautical Chart) Weather
Construction Planning Weather Materials/transportation Workers Legal considerationpermits/consent Equipment rental Budget Timeline Safety
Scope
•Surrounding environment•Marine life•Weather•Wave patterns•Properties of water•Cost•Energy
About the GE 4.0-110 OFFSHORE TURBINE
• Horizontal Axis Turbine• For cost efficiency gearboxes
were replaced with slow speed components for the offshore environment
• Safety and Maintenance Advantages
• Open nacelle and easy access to the core hub
• Automatic Lubrication Process • Self generated and has
redundant operation systems• Low operating cost• Efficient power to energy ratio [Figure 1: GE 4.0-110 Offshore Turbine (2008)]
Power Curve• Rated Power Capacity : 4 MW• Rated Power produced in 1 hour = 4 MWh• Rated Power produced in 1 year = 35,040
MWh• Rated Power produced in 1 year for 20
turbines = 700,800 MWh• Cut-In (Start-Up) Wind Speed: 3 m/s• Rated (Nominal) Wind Speed: 14 m/s• Cut-Out (Maximum) Wind Speed: 25 m/s
Efficiency• There is a range of wind speeds close to the rated wind
speed in which the turbine performs optimally• After this range, performance decreases drastically• On average, if wind speed decreases by half, power
production decreases by a factor of 8• Industry estimates an annual output of 30-40% of the
rated capacity• Mean output in U.S.: 26.9% of rated capacity• General Electric claims a 52% capacity factor (in wind
speed of 10 m/s)
Efficiency cont’d•This is called capacity factor: actual output/maximum output
•26.9% capacity factor: 700,800 * 0.269 = 188,515 MWh in 1 year
•52% capacity factor: 700,800 * 0.52 = 364,416 MWh in 1 year
How many homes can a wind turbine power?
• Average household power consumption: 11.496 MWh per year
• Maine: 6.252 MWh per year• 52% capacity factor: 31,699 homes, 58,287 in
Maine• 26.9% capacity factor: 16,398 homes, 30,153 in
Maine• ** This does not mean, however that our
power is going straight to housing. Instead, it is being sold to a power distribution company where housing accounts for only about one third of power in the grid.
Max Power Calculation
Max Rated Power:
[Figure 2: Screen Shot of MATLAB]
o Minimum Wind Speed = 3 M/S*
o Maximum Wind Speeds = 25 M/S*
* Calculations included the use of MatLab™
Offshore LocationoOffshore of Maine in the United StatesoKnown to have high wind speeds year-roundo The coast is not overwhelmed with turbines
with a comfortable distance away from the shore line
o 20 turbines on water platformsoGoogle Earth map representation…
Site Map•
Atlantic Coastline
[Figure 3: Google Maps Image]
Google Sketch-Up Design
---- Electrical connections
Layout of Generatorand Electrical Connections
Generator High above waterensure water protection
Worker’s Platform easy accessibilitystorage of the generator and electrical connections
[Figure 4: Turbine Internals]
25
Layout of Generator cont.
Direct Drive Generator:
• Transferring DC power through the sea water
•High inductance of salt water allows the DC power to flow
•DC power will move through the connections and be converted at substation
Method of solution•Work Breakdown and Structure:
• Labor• Contractorso Transportation of equipment• Barges
o Platform constructoro General Electric (GE) for Wind Turbines
Construction Scheduleo Hiring Period of personnel: 1 montho Site prep and law/license registration
and processing: 2-3 monthso Equipment Ordering/Delivering: 3
weekso Construction: 5-8 monthso Testing Period: 2 weeks
Gantt Schedule View
Cost Analysis The total budget will be anywhere
from $220-$230 million dollars Categories:•Safety•Wind Turbines•Labor Costs•Transportation•Equipment/Miscellaneous
Gantt Cost Analysis
Team Windbreakers Group Roles
o Natalie – Harmonizer and encouragero Alex – Clarifier and information seekero Ross – Initiator and option generatoro Dylan – Summarizero Garrett – Information givero James – Initiator and option generator
In our research we found that each of us had roles that helped to propel us and keep us going on the right track. Through this collaboration our project was completed.
Evaluation of Preliminary Design
Criteria:Average Rating
Addresses time 3.6
Address cost 1.8
Addresses safety 3.2
Addresses environmental impact. 3.8
Address quality. 4.6How well are technical issues evaluated? 4.6Is the preliminary site made using Google Earth adequate? 4.8
Is the wind farm design suited to its intended application?
5
Is the design well suited to site and surrounding community? 5
Site map included that shows connection to grid or other power consuming facility 2.2
Has the wind turbine that you are using been proven effective in wind farms that are now in operation?
4
Id the construction schedule adequate? Are all the tasks included in logical order? 4.8
Off-shore location 3.6
Usefulness and user-friendly 4.2
Operation 4
Team 5 Ratings of Preliminary
Presentation:
[Fiigure 5: GE 40-110 (2012)]
Evaluation of Preliminary DesignTeam 5 Brainstorming:
• The group needs to go into more detail about each of the tasks necessary to complete the project
• We need to find the cost of each turbine
• We need to discuss safety more in depth
• Consider environmental impacts more thoroughly
• We need to research the electrical workings of the turbine
Discussion and Conclusions
Very Bright Future
Future challenges: • environmental impacts• cost constraints
Turnover Rate • approximately 10-15 years
The major challenges of wind farms:• Space• Time• Weather/Environment• Legal Regulations• Costs
These challenges can be overcome with careful planning and research
Resources• http://www.windpoweringamerica.gov/windmaps/offshore.asp• http://site.ge-energy.com/prod_serv/products/wind_turbines/en/offshore/index.htm• http://www.thewindpower.net/turbine_en_9_ge-energy_4.0-110.php• http://www.4coffshRatore.com/windfarms/turbine-GE-Energy-GE-4.0-110--tid21.html• http://www.windpowerengineering.com/featured/buisness-news-projects/4-mw-direct-drive-headed-offshore/• http://www.wind-watch.org/faq-output.php