STUDY OF THERMAL MAPPING FOR HEALTH MONITORING OF GAS TURBINE BLADEIJRISE Journal
Thermal mapping for health monitoring of gas turbine is essential as modern day gas turbine subjected to very
high temperature applications, gas turbines are used extensively for aircraft propulsion, land -based power
generation, and industrial applications. Developments in turbine cooling technology play a critical role in
increasing the thermal efficiency and power output of advanced gas turbines. Gas turbine blades are cooled
internally by passing the coolant through several rib-enhanced Some tine passages to remove heat conducted
from the outside surface. External cooling of turbine blades by film cooling is achieved by injecting relatively
cooler air from the internal coolant passages out of the blade surface in order to form a protective layer between
the blade surface and hot gas-path flow. For health monitoring of gas turbine blade, this presentation focuses on
the effect of critical zone and hot spot along temperature distribution by using thermal paint. The comp utational
flow and heat transfer results are also presented. This presentation includes unsteady high free -stream
turbulence effects on film cooling performance with a discussion of detailed heat transfer coefficient and filmcooling
effectiveness distributions for standard and shaped film-hole geometry using the newly developed
transient liquid crystal image method.
Massachusetts - Israel Cleantech OpportunitiesMark J. Feldman
Executive Summary:
- Israel is particularly strong in R&D
- World class universities; large % of MDs, engineers and scientists
- Small domestic market results in focus on international markets and willingness to locate HQ or manufacturing abroad to secure proper funding and market access.
- Opportunities in the clean energy sector:
- The solar energy industry - installation and manufacturing opportunities.
- Electric cars – energy storage, converters etc. for electric cars and the needed infrastructure
“Integrated Solutions in Sustainable Green Energy and Transportation”Green Parking Council
Mark Gander, GPC Board member and AECOM Director, was among a group of leading scientists, researchers, innovators, officials, and corporate leaders to present recently at the World Green Energy Symposium (WGES) at the City University of New York (CUNY) in New York City.
His “Integrated Solutions in Sustainable Green Energy and Transportation” presentation focused on clean renewable energy; transportation; electric car vehicles; green parking; and place-based strategies such as an eco-district or transit-oriented development that are comprehensive ways to optimize land use efficiency, energy and water and to create jobs.
Presentation on Arizona's electricity system: how much solar, coal, natural gas, and nuclear. Water use and drought, power plant water use; cost of electricity; utility of the future. Why does AZ have so little solar (less than 3%) and so much in-state-used coal (40-50%)?
Winds of change: Offshore U.S. farms finally herehardhathub
John Gregerson, with Rob McManamy from BuiltWorlds dive into North America's first offshore wind energy farm finally reaching critical mass this month with the achievement of two significant milestones in New England being developed by Deepwater Wind and GE Renewable Energy. Will be known as the Block Island Wind Farm.
“Government's first duty is to protect the people, not run their lives.” – Ronald Reagan
“If you really think that the environment is less important than the economy, try holding your breath while you count your money.” ― Guy McPherson
“Loyalty to the Nation all the time, loyalty to the Government when it deserves it.” – Mark Twain
This study elaborates the ever rising presence of China in Hydropower sector and how they have mitigated the crisis by forging a sustainable path towards technology transition for a safer, cheaper and greener power supply.
STUDY OF THERMAL MAPPING FOR HEALTH MONITORING OF GAS TURBINE BLADEIJRISE Journal
Thermal mapping for health monitoring of gas turbine is essential as modern day gas turbine subjected to very
high temperature applications, gas turbines are used extensively for aircraft propulsion, land -based power
generation, and industrial applications. Developments in turbine cooling technology play a critical role in
increasing the thermal efficiency and power output of advanced gas turbines. Gas turbine blades are cooled
internally by passing the coolant through several rib-enhanced Some tine passages to remove heat conducted
from the outside surface. External cooling of turbine blades by film cooling is achieved by injecting relatively
cooler air from the internal coolant passages out of the blade surface in order to form a protective layer between
the blade surface and hot gas-path flow. For health monitoring of gas turbine blade, this presentation focuses on
the effect of critical zone and hot spot along temperature distribution by using thermal paint. The comp utational
flow and heat transfer results are also presented. This presentation includes unsteady high free -stream
turbulence effects on film cooling performance with a discussion of detailed heat transfer coefficient and filmcooling
effectiveness distributions for standard and shaped film-hole geometry using the newly developed
transient liquid crystal image method.
Massachusetts - Israel Cleantech OpportunitiesMark J. Feldman
Executive Summary:
- Israel is particularly strong in R&D
- World class universities; large % of MDs, engineers and scientists
- Small domestic market results in focus on international markets and willingness to locate HQ or manufacturing abroad to secure proper funding and market access.
- Opportunities in the clean energy sector:
- The solar energy industry - installation and manufacturing opportunities.
- Electric cars – energy storage, converters etc. for electric cars and the needed infrastructure
“Integrated Solutions in Sustainable Green Energy and Transportation”Green Parking Council
Mark Gander, GPC Board member and AECOM Director, was among a group of leading scientists, researchers, innovators, officials, and corporate leaders to present recently at the World Green Energy Symposium (WGES) at the City University of New York (CUNY) in New York City.
His “Integrated Solutions in Sustainable Green Energy and Transportation” presentation focused on clean renewable energy; transportation; electric car vehicles; green parking; and place-based strategies such as an eco-district or transit-oriented development that are comprehensive ways to optimize land use efficiency, energy and water and to create jobs.
Presentation on Arizona's electricity system: how much solar, coal, natural gas, and nuclear. Water use and drought, power plant water use; cost of electricity; utility of the future. Why does AZ have so little solar (less than 3%) and so much in-state-used coal (40-50%)?
Winds of change: Offshore U.S. farms finally herehardhathub
John Gregerson, with Rob McManamy from BuiltWorlds dive into North America's first offshore wind energy farm finally reaching critical mass this month with the achievement of two significant milestones in New England being developed by Deepwater Wind and GE Renewable Energy. Will be known as the Block Island Wind Farm.
“Government's first duty is to protect the people, not run their lives.” – Ronald Reagan
“If you really think that the environment is less important than the economy, try holding your breath while you count your money.” ― Guy McPherson
“Loyalty to the Nation all the time, loyalty to the Government when it deserves it.” – Mark Twain
This study elaborates the ever rising presence of China in Hydropower sector and how they have mitigated the crisis by forging a sustainable path towards technology transition for a safer, cheaper and greener power supply.
Wind power resources on the eastern U.S. continental shelf are est.docxalanfhall8953
Wind power resources on the eastern U.S. continental shelf are estimated to be over 400 GW, several times the electricity used by U.S. eastern coastal states. The first U.S. developer proposes to build 130 large (40 story tall) wind turbines in Nan- tucket Sound, just outside Massachusetts state waters. These would provide 420 MW at market prices, enough electricity for most of Cape Cod. The project is opposed by a vigorous and well-financed coalition. Polling shows local public opinion on the project almost equally divided. This article draws on semistructured interviews with residents of Cape Cod to analyze values, beliefs, and logic of supporters and oppo- nents. For example, one value found to lead to opposition is that the ocean is a special place that should be kept natural and free of human intrusion. One line of argument found to lead to support is: The war in Iraq is problematic, this war is “really” over petroleum, Cape Cod generates electricity from oil, therefore, the wind project would improve U.S. security. Based on analysis of the values and reasoning behind our interview data, we identify four issues that are relevant but not currently part of the debate.
Introduction
Recent assessments of renewable energy show that wind power has, since the turn of the century, become cost-competitive in the sites with the most favorable wind regimes (Herzog et al., 2001). Until very recently, large-scale North American wind resources were believed to exist in the Great Plains of the United States, northern Canada, and central Canada only (Grubb & Meyer, 1993). Although these huge resources are enough to meet the entire continent’s electrical needs, they are distant from the large coastal cities where electricity is primarily consumed—imposing a need for costly large-scale transmission lines (Cavallo, 1995). In just the last couple of years, it has been recog- nized that the Atlantic Ocean also has a large wind resource on the continental shelf, close to East Coast cities. Three or four manufacturers have developed large wind elec- tric turbines designed to be placed offshore, in waters up to 20–30 m in depth. To date these have been placed only in European waters. By late 2003, the resources, the tech- nology, and the economic viability had all come together in the Eastern United States, potentially allowing large-scale deployment to begin by 2005.
The furthest advanced of a handful of proposed U.S. offshore wind developments is in Nantucket Sound, off the Southern coast of Cape Cod, Massachusetts. This proposal has engendered a widespread, well-organized, well-financed, and politically potent op- position. This movement’s strength, and the apparent contradiction of such opposition coming from a population thought of as politically liberal and environmentally con- cerned, have garnered national press coverage (e.g., Burkett, 2003). A second project was proposed by the Long Island Power Authority for the southern edge of Long Island, with an .
Building a Marine Renewables Industry in the United States: The Need for A "...Carolyn Elefant
Emergence of a robust marine renewables energy industry has been stymied in part by a regulatory process better suited for large, well funded entities. This paper presents my first phase of work on a Third Wave model of regulation for marine renewables, as well as other future renewable technologies that may be developed
Writing Sample - Ocean Energy Research Paperatsherwi
The following is a brief research paper that I wrote on ocean energy for an energy law course I took at Vermont Law School in 2009. This paper required research on energy policy, congressional legislation, and administration regulations.
C A S E W E S T E R N R E S E R V E LAW R E V I E W • VOLUME 6.docxclairbycraft
C A S E W E S T E R N R E S E R V E LAW R E V I E W • VOLUME 63 • ISSUE 4 • 2013
H Y D R O F R A C K I N G :
STATE PREEMPTION, LOCAL POWER,
AND COOPERATIVE GOVERNANCE
John R. Nolon^ & Steven E. Gavin^
ABSTRACT
Advocates for the gas drilling technology known as hydrauhc fracturing,
or hydrofracking, argue that it will bring significant economic benefits to
the private and public sectors. Its opponents dispute these claims and
point to significant environmental and public health risks associated
with hydrofracking—risks that must be considered in adopting
government regulations needed to protect the pubhc interest. One of
the many issues raised by hydrofracking is which level of goverrmient
should regulate which aspects of the practice. This debate is
comphcated by the fact that the risks associated with hydrofracking
raise concerns of federal, state, and local importance and fit within
existing regulatory regimes of each of these levels of goverrmient. This
Article begins by describing the hmited aspects of hydrofracking that
are currently regulated by the federal government, which leaves many
of the risks unaddressed, opening the door for state and local
regulation. This Article describes the legal tension between state and
local governments in regulating hydrofracking in the four states that
contain the immense MarceUus shale formation. Its particular focus is
on court decisions that determine whether local land use regulation,
which typically regulates local industrial activity, has been preempted
by state statutes that historically regulate gas drilhng operations. This
investigation suggests that the broad scope and durabihty of local land
use power as a key feature of municipal governance tends to make
courts reluctant to usurp local prerogatives in the absence of extraordi-
narily clear and express language of preemption in state statutes that
regulate gas drilling. The Article concludes with an examination of how
the legitimate interests and legal authority of all three levels of
goverrmient can be integrated in a system of cooperative governance.
t John R. Nolon is Professor of Law at Pace Law School and Counsel to
the Land Use Law Center, and has been an adjunct professor at the
Yale School of Forestry and Environmental Studies since 2001.
\ Steven E. Gavin is a student at Pace Law School and editor in chief of
the Pace Environmental Law Review.
995
CASE WESTERN RESERVE LAW REVIEW • VOLUME 63 • ISSUE 4 • 2013
Hydrofracking: State Preemption, Local Power, and Cooperative Governance
CONTENTS
INTRODUCTION: HVDROFRACKING RAISES JURISDICTIONAL ISSUES 996
L LIMITED SCOPE OF GURRENT FEDERAL REGULATIONS 1000
A. Safe Drinking Water Act 1002
B. Clean Water Act 1005
C. Clean Air Act 1006
D. Comprehensive Environmental Response, Compensation,
and Liability Act 1008
E. Resoxirce Conservation and Recovery Ad 1009
F. Endangered Species Act lOlO
C. Toxic Substances Control Act 1012
IL NEW YORK: LOCALITIES WIN ROUND ONE, ESCAPINC PREE.
Zero air pollution and zero carbon from all energy at low cost and
without blackouts in variable weather throughout the U.S. with 100%
wind-water-solar and storage
The energy vision for the U.S. calls for dramatic increases in the use of wind power by the year 2050.
The use of offshore wind farms will play a vital role in achieving this goal. Even though there are some
challenges with implementing wind power in the Gulf of Mexico, the advantages and benefits should allow the
U.S. to overcome these challenges.
OFFSHORE WIND RESOURCE ASSESSMENT OFF THE SOUTH AFRICAN COASTLINEIAEME Publication
The world is undergoing a paradigm shift as more people are becoming aware of energy consumption patterns, reinforcing the need for developing cleaner and more sustainable ways to generate electrical energy. Globally, the development of onshore wind farms is sometimes impeded by factors such as aesthetic impact, acceptance by the public, the threats to surrounding biodiversity, noise from the power plant and possible land use conflicts. Due to these concerns, offshore wind plants have been developed. Offshore wind energy is generally greater in comparison to that of onshore wind energy because the wind speeds offshore are generally higher and more constant with fewer obstructions to the wind resource. The offshore wind potential for South African coastal regions was investigated and analysed in this study. Various factors such as shipping routes, oil and gas exploration fields and possible transmission connection points were taken into consideration before selecting four data collection sites. The predominant wind direction, mean wind speed, wind shear and spatial geographic information was analysed for each site. The sites’ wind direction did not have any similarities, with each site having its own prevailing wind directions. Within the 50 m hub height, Site 2 showed the best potential based on the power density. Site 1 and Site 3 showed similar power densities to each other with Site 4 showing the lowest power density. The distance to shore ranged from 200 km to 500 km with a steep continental shelf drop to a depth of approximately 3 000 m. The study conducted shows that there is offshore wind potential off the coast of South Africa. Energy generated by this method could assist South Africa to increase access to energy, reduce expensive transmission line losses to coastal provinces, and assist the country to transition towards a more sustainable future energy mix in line with developed nations.
Here is a brief PESTEL analyses that I put together for one of my MBA classes.
This is an area that I have some personal interest and have been trying to follow but I am not professionally engage so I would love to hear from the many of the Offshore Winds Experts and from self studiers as my self that are part of my LinkedIn network.
Please feel free to comments or send me a personal message.
Four senior figures in nuclear physics and energy distributed this letter aimed at buttressing the recent call by four climate scientists to pursue nuclear power as an affordable and relatively safe large-scale energy source with limited climate impact.
The letter from the climate scientists is here:
'To Those Influencing Environmental Policy But Opposed to Nuclear Power': http://nyti.ms/1iEGeR3
The signatories on the new letter are:
Andrew C. Kadak
Former President of the American Nuclear Society and Member of the US Nuclear Waste Technology Review Board
http://www.nwtrb.gov/board/kadak.html
Richard A. Meserve
President of the Carnegie Institution for Science and a former Chairman of the US Nuclear Regulatory Commission
http://carnegiescience.edu/president_richard_meserve
Neil E. Todreas
Korea Electric Power Company Professor (emeritus) and a former Chairman of the Massachusetts Institute of Technology Department of Nuclear Science and Engineering
http://web.mit.edu/nse/people/faculty/todreas.html
Richard Wilson
Mallinckrodt Research Professor of Physics (emeritus) and a former Chairman of the Harvard University Department of Physics
http://users.physics.harvard.edu/~wilson/
2. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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The term offshore in this writing refers to both oceanic locations and lake regions,
while mainly focusing on the outer shelf of oceanic wind farms. For the ocean, state jurisdiction
ends at approximately three nautical miles from the beaches and federal jurisdiction takes over
until international areas begin. Transmitting electricity from wind farms located in Federal
waters to the power grids requires a state to allow the piping and a substation to be within their
jurisdiction thus causing territorial battles. The litigation of these battles can take a decade or
more and cost millions of dollars without building taking place, which subsequently would take a
few years as well. Technology consistently continues to improve to make wind turbines operate
more efficiently. Recent technology has improved the materials in which wind turbines are made
significantly reducing the cost of both materials and construction. Additionally, extensive
research has been completed by numerous researchers and governmental agencies exploring the
impact of offshore wind farming; this research strives to cover the environmental impact at each
of potential sites. With greater knowledge of environmental correlation, developers are able to
make adjustments which are necessary to production and can optimize the ways in which issues
associated with the transmission of offshore power to the land are handled. Further research also
stems into financial breakdowns by more effectively projecting the costs associated with growth
of the industry in relation to construction of the product.
There are numerous policies purposed to become law, which will reform regulations
surrounding the offshore wind farm industry. Many of those policies aim to incentivize in order
to obtain substantial growth for an industry, which has been fraught with legal battles. These
extensive legal wars have effectively stalled the production of offshore wind farms. During the
course of the prolonged battles vast amounts of potentially harnessed energy has blown over
water bodies uncollected. The untapped potential off the coast of the United States, which will
generate much needed electricity, is clearly a struggle that needs to be solved in order to develop
the renewable and sustainable natural resource of the wind.
3. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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Countries around the globe have shown that the amount of electricity generated by
offshore wind farming significantly benefits the competitive markets when introduced into the
economy. It aids in producing a more diverse market with vendible options for consumers,
reducing the costs of the original products, as well as, maintaining a balanced price for itself.
Studies on wind energy in other countries has generated statistics showing a significant pollution
reduction as well. The development of wind farms has a low impact on the environment and can
even decrease the amount of negative byproducts created by other energy sources.
It has been noted that for centuries wind has been harnessed to provide people with
additional power whether it was for grinding foods or by providing water for stock all around the
globe; the influx of technology has increased the use and function of the old wind mill. Across
the U.S. every state currently has either wind energy projects or places of production for the
products associated with wind farms. Twenty-eight of the states have coastal waters where
developing a wind farm would substantially increase the production of electricity for that state
and for the nation. Currently there are approximately fourteen proposed offshore wind farm
development projects being attempted. Each of these projects are on a different level of receiving
the necessary permitting to commence building. Short-term high costs, fears of negative
environmental impacts, aesthetic ruination, and territorial battles are the largest hurdles wind
farm production is facing. Building a wind farm anywhere in the waters of the U.S. is
heightened by these difficulties. Critical adjustments to how the wind power industry functions
must be made before the construction of off shore wind farms can be advanced. Incentives need
to be provided in order for states and local governments to avidly promote the construction of off
shore wind farms, besides the influx of clean, renewable energy. It should be highlighted that this
shift in energy creation has the potential to influence how the nation generates and transmits
power. Other advantages include reducing unemployment numbers and building a more
competitive electrical market.
4. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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Some of the most recent information on the wind power industry as a whole can be found
at the American Wind Energy Association (AWEA) website, a self-proclaimed national wind
trade advocacy association. Several articles from the website demonstrate the low impact on
several species by offshore wind farms and compare the environmental benefits of wind farming
to other natural resource extraction methods. Wind power “generates no air or water pollution or
hazardous waste, does not deplete fresh water resources (necessary for exploration and
production of fuel as well as thermal generation), requires no mining, transportation, or refining
of a feedstock or fuel (AWEA).” Given the vast differences in damage to the environment by
extraction of a natural resource and the strong concerns about global warming it seems like wind
power is a logically clean and safe alternative. While the onshore production of the wind power
industry is booming in the U.S. the untapped potential of the coastal areas could manufacture
exponentially more. A link on the AWEA website brings up a state by state reflection of the
potential of the wind power industry’s impact on the states electrical grid, employment increases,
and some include offshore potential as well.
The following chart shows a few of the state’s fact sheet information from the website of
the potential for offshore wind power:
The area of offshore potential is displayed, then in the next column a figure is given for
how much extra energy wind power could be produced. For example, establishing a wind farm
offshore of Massachusetts could produce twelve times the current state’s needs.
Offshore Potential: Times the state’s current needs:
Massachusetts 12
Rhode Island 11
New Jersey 4.3
Maryland 2.8
North Carolina 7.5
Louisiana 12.8
Onshore potential: Texas 18
**Figures from AWEA website
5. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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Currently there are several plans for off shore development of the Texas winds due to the
state being ranked among the best in the nation for wind. Ohio also has several projects
underway since the offshore potential is abundantly located in this region. The overall U.S.
potential of offshore wind power is enough to contribute up to four times the generating capacity
of the current electrical system. In response to the growing industry, AWEA created a Standards
Development Board with assistance from the Department of Energy (DOE) and the National
Renewable Energy Laboratory (NREL) regarding recommended practices for U.S. offshore wind
facilities. This Standards Development Board covers several critical areas: structural reliability,
manufacturing, qualification testing, installation and construction, safety of equipment, operation
and inspection, and decommissioning. All of these standards were developed in an effort to
lower costs, project risk, and reduce uncertainty with building any wind farm. Throughout
AWEA’s website is information on the wind farm industry from basic to advanced statistics,
current trends, and conference/webinar meetings on all the latest industry news. Since AWEA is
an advocacy group all the information they provide is expected to hold bias, however looking at
their main focus of education, and promotion of clean renewable energy for a healthier and more
energy secure America, it is hard to remember not to take their information verbatim.
Energy.gov, the website of the Department of Energy for the U.S., has vast amounts of
information about all the energy industries. Focusing on wind power generation and offshore
potential, the site offers insight to the government’s work toward a sustainable, environmentally
less harmful, renewable future. The site has lists and links to peer reviewed documents (similar
to PowerPoint presentations) of information on the offshore wind power industry breaking down
everything from regulations and standards to cost analysis. The initial start-up costs of an
offshore wind farm are extremely high and the government is working to give incentives to
offshore wind farm investors that are at least beneficial enough that the investors would be able
to enter and compete in the economically competitive market of energy suppliers. One such
6. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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presentation on Virginia Offshore Wind Technology Advancement Project (VOWTAP) indicates
the DOE’s budget for the project at about four million dollars. The VOWTAP’s main goal is to
advance the industry using new capabilities and solutions to course issues and lead it to be the
effective renewable energy resource to the nation. Emphasis for the project is on assisting the
process of reducing costs, deployment timelines, and market barriers; also, to examine “design,
installation, and operation and management (Larson, 2).” VOWTAP is purposed to be 24
nautical miles off the coast of Virginia with two wind turbines creating about twelve megawatts
of electricity beginning in 2017. The project appears to be on schedule and actual construction is
designated to begin in early 2017. There are many other projects underway with similar goals
and plans. The advancement of the industry seems to be very important to many levels of
government with the DOE leading the push for offshore wind farming.
Of the many regulations that need refining in order to assist the industry with moving
forward is the Coastal Zone Management Act (CZMA). The CZMA was originally enacted in
1972 and for the purpose of giving states the power to conserve and protect their coastal zones
for future generations. From the act several organizations arose to implement and support all the
efforts associated with the CZMA. While there have already been amendments to the CZMA
throughout its short history, a 2010 article by Erica Schroeder called “Turning Offshore Wind
On” illustrates at least three changes to the act which would assist the industry in achieving the
goals of establishment. Beginning with sections on the basics of wind power and the benefits and
costs, Schroeder examines in depth the industry struggle. After examining the 2010 regulatory
framework of the offshore wind power industry and the state and federal jurisdictions
boundaries, the problem the state and local governments are having becomes clear. Fear of
aesthetic loss, extremely high costs, and fear of loss of control over the coast seem to be the
state’s main concerns. More recent research on the impact of offshore wind farms on the
aesthetic look from the beach to the horizon shows little to no disturbance to the naked eye. The
7. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
6
instillation of offshore wind farms present no significant changes in property values of the homes
on the coast and near onshore wind power farms according to Energy.gov. The stunningly high
cost of creating a wind farm and the slow moving permitting process and territorial legal battles
are most prevalent to the sluggish development of wind farms. Yet the overall benefits of off
shore wind farming are long-term, this type of energy generation looks to be a relatively
inexpensive energy source in the long run. Many writings emphasize the need for incentives to
the local state governments to assist with the expensive beginnings of a wind power farm;
Schroeder asserts this can be accomplished with an amendment to the CZMA by increasing
funding already in place and bolstering the incentives. Her writing reveals that she feels the
CZMA is an unproductive instrument of advertising for the industry, almost having a negative
affect altogether. Since the CZMA is basically giving power to the coastal states over anything
that would affect their coast, the permitting of offshore wind farms can be successful in the
federal waters but ended at the coastal areas essentially ending the project before it really begins.
Therefore, aside from incentive reform in the CZMA, Schroeder implies that changes in state
planning should be part of an overhaul on the CZMA. Without taking all the power away from
the states, but allowing federal jurisdiction over offshore wind power equipment through state
jurisdictional areas would allow for production of wind farms to happen much quicker. An
essential part of that idea is authorizing offshore wind power as another change to the act. Using
the example of the Cape Wind Project which has been suffering from jurisdictional battles for
about a decade Schroeder demonstrates the need for those suggested changes. While there are
bills currently proposed to make the changes or similar changes to existing Acts, including the
CZMA, which Schroeder suggested approximately four years ago there has been no real
headway made for the bills to come to fruition. The time for federal governmental action was
quite a while ago. The positive effects to the economy are slow because the government is taking
too long to implement the necessary changes to the regulatory frameworks of the energy
8. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
7
industry.
The difficulties and benefits of offshore wind farm installation have been highlighted
and discussed through many platforms. The reach of this environmentally sustainable energy
source has judicial, economical, and environmental implications, which have either acted as a
hindrance for their construction or promote their existence. Judicially, legal battles over property
have been the baseline for the prolonged delay in construction of wind farms despite their
promise to harness more energy than current energy types. The locations of wind farms are set
far off the coast, well past the three-mile marker that divides private or state property from
federal property. While the fields of wind turbines would be too far from the horizon to be
considered a visual obstruction, direct wiring and the construction of onshore energy collection
stations is what hinders private or state property owners from allowing the permits to succeed.
State owned onshore property, doesn’t hold the implications that private property
owners do, yet they struggle with the concept of financially bringing the conception of wind
farms to life. Companies invested in wind power suffer from the inability to jump-start
production due to a high start-up value. The micro view of wind farms are economically
unsound, while the macro view proves that offshore wind farms produce more energy than
current energy sources, as well as, benefit the environment in ways that save money. Since the
startup cost intimidates investors, incentives are radically pushed. The demand for incentives
has caused researchers to provide sound statistics and estimates based off local U.S. onshore
wind farms and foreign countries use of this renewable energy. It should be emphasized that this
shift in energy creation has the potential to influence how the nation generates and transmits
power. Other advantages include reducing unemployment numbers and building a more
competitive market, which will balance energy prices and reduce the initial start-up cost of wind
farm construction.
One of the most prominent and modern aspects of wind power technology relies on
9. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
8
societies interest in renewable and sustainable energy paired with a low environmental impact.
Researchers demonstrate how wind farms and the environment correlate positively. This
knowledge of a progressive environmental connection, aids in how developers are able to make
adjustments that are necessary to the production, and can optimize the ways in which issues
associated with the transmission of offshore power to the land are handled.
In order for wind farms to more easily and efficiently be constructed, several events
must occur. Private and state properties must denounce their legal battles over onshore
construction of energy housing units, and recognize the benefits of sustainable wind energy
production. Incentives become a leading promoter in effectively securing investors who see past
the initial cost and view the long-term profits of increased energy production. Offshore wind
farms present an ideal proposition for a clean, alternative energy source.
10. Rachel A. Buck/Senior Economics Fall 2014/Dr. Brown/ Untapped Potential, Part 1
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References
Anonymous, American Wind Energy Association
http://www.awea.org/resources/statefactsheets.aspx?itemnumber=890
Anonymous, Energy.gov, U.S. Department of Energy
http://www.energy.gov/search/site/offshore%20wind%20power
Larson, J. (2014, March 24). Virginia Offshore Wind Technology Advancement Project.
Retrieved September 28, 2014, from
http://www.energy.gov/sites/prod/files/2014/06/f16/eere_wpp_2014_peer_review_Offsho
reDemos.pdf
Schroeder, E. (2010). Turning Offshore Wind On. California Law Review, 98(5), 1631-1667.