Ontario Green Energy Act

UPDATED INTERNATIONAL SPEAKERS LIST: Get ready for the Community Power Conference 2010

UPDATED INTERNATIONAL SPEAKERS LIST:
Get ready for the Community Power Conference 2010
Join Ontario’s largest annual gathering of
Community Power producers, proponents and supporters

The Community Power Conference 2010 is hosted by
the Ontario Sustainable Energy Association
(OSEA). Together with the Power Networking
Centre trade show, the conference attracts
industry regulators, commercial and community
power generators, farmers and First Nation and Métis delegations.

The conference offers two full days of meeting
and learning from community power experts, while
the trade show displays the latest innovations in
power generation technologies and services.

WHEN AND WHAT:
- November 14, 2010 (6:30 p.m. – 9:30 p.m.)
The Green Connection opening reception
co-organized with Green Enterprise Ontario (GEO)
- November 15-16, 2010 (7:00 a.m. – 9:30 p.m.)
Second Annual Community Power Conference
- November 16 – 17, 2010 (9:00 a.m. – 6:00 p.m.)
Power Networking Centre trade show
co-organized with the Association of Power Producers of Ontario (APPrO)
- November 15, 2010 (7:00 -9:30 pm)
Presentation of Community Power Awards.

WHERE:
Metro Toronto Convention Centre, South Building, 700 and 800 Level
222 Bremner Blvd., Toronto, ON Canada

This year, conference organizers have attracted
the following Ontario-wide and international
experts to speak at seminars and share their thoughts.

Speakers from Ontario include:
- Colin Anderson, Chief Executive Officer of the Ontario Power Authority
- The Honourable Brad Duguid, Ontario Minister of Energy
- Gord Miller, Environmental Commissioner of Ontario
- Tom Rand, Advisory and Practice Lead of Cleantech, MaRS
- Michael Lyle, Vice President, Legal,
Aboriginal and Regulatory Affairs, Ontario Power Authority
- Don McCabe, Vice President, Ontario Federation of Agriculture
- Jennifer Green, Executive Coordinator,
Agrienergy Producers’ Association of Ontario
- Donna Cansfield, MPP and Parliamentary
Assistant to the Ontario Minister of Municipal Affairs and Housing

UPDATED: International speakers include:
- Shaun Chapman, Vote Solar, United States
- Mary Dougherty, Embark, Australia
- Paul Gipe, Author, Advocate and Renewable
Energy Industry Analyst, United States
- Stefan Gsaenger, WWEA, Germany
- Henning Holst, Ingenieurbüro Henning Holst, Germany
- Frede Hvelplund, Aalborg University, Denmark
- Tetsunari Iida, Institute for Sustainable Energy Policies, Japan
- Johan Lewin, Seeland Development Trust, South Africa
- Preben, Maegaard, Nordic Folkecenter for Renewable Energy, Denmark
- Miguel Mendoça, World Future Council, United Kingdom
- Fabio Rosa, IDEAAS, Brazil

The full list of speakers and their biographies can be found at:
cpconference.ca/Page.asp?PageID=924&SiteNodeID=385

For further details, please visit: www.cpconference.ca
The conference schedule can be found at:
www.cpconference.ca/Page.asp?PageID=861&SiteNodeID=384
To register for the conference, please visit:
registration.cpconference.ca

For more information or to schedule interviews
with any of the speakers above, please contact:
Maria Leung, Environmental Communication Options,
mleung@ecostrategy.ca OR 416-972-7401

-30-

OSEA works to initiate, facilitate and support
the work of local sustainable energy organizations through
membership services, province wide capacity
building and non-partisan policy work. They work
to catalyze the efforts of community organizers
and raise awareness of the benefits of community
power and renewable energy through various
communication channels and by offering a variety
of workshops and guidebooks on topics.

An interesting study from the American Wind Energy Association shows that jobs in the wind market increased seventy (70) percent last year. With 35,000 new jobs produced in 2008, the wind business now employs far more people than the coal market. For clean power advocates, this is a massive milestone-but can it be sustained? Will wind power continue to blossom and develop much more job opportunities?

1st, we need to examine how this boom came to pass in the 1st location. For 1, wind power is rapidly becoming a common notion. It’s one of the most quickly expanding sources of power in each the U.S. and Europe. In reality, out of all of the new electricity generation installed in the U.S. last year, wind power made up 42 percent. This figure was no doubt due to the truth that there was a fifty percent improve in installed wind capacity, with enough megawatts coming on the web to power two million homes. An additional important factor to the jump in jobs in the business is the reality that in 24 states, new wind turbine and component manufacturing facilities had been announced, opened, or expanded.

Texas continues to lead the nation in megawatts of wind generation, but 2008 saw Iowa (which, like Minnesota, generates seven percent of its electricity from wind power) surpass California for number two on the list. Other states that are notable for their wind power are Washington, Oregon, Colorado and Minnesota. According to the study, Texas has the largest wind farms installed and Indiana is growing the fastest in wind power (based on percentage).

With expansion and growth happening in so several various states, it need to come as no surprise that wind power jobs spiked significantly last year. When an business gets bigger, an improve in manpower is required to make certain that it runs smoothly. Wind energy is no distinct. Expansion allows the need to have for much more skilled workers in diverse locations. The workforce is significantly benefited by this expansion. For example, men and women who are capable of manufacturing turbines and their components will be necessary. In truth, manufacturers of the turbines and their components designed 13,000 jobs alone last year. Expansion also creates jobs for folks who can both construct and install turbines. It also creates jobs for individuals to operate and sustain them. Then there are all of the folks who don’t have a hand in the actual workings of the wind turbines but who are just as important: the lawyers, the marketing and advertising departments, the administrative assistants. It takes countless people in a wide array of various positions to make the business run.

Like any industry these days, the future is unclear. Although there are many bright spots, the present state of the economy makes it difficult to predict what this year will bring. Some say it is unlikely that 2009 will see the exact same gains 2008 saw. Layoffs have hit businesses that create turbines and their components developers are having a much more difficult time financing projects. Considering that wind energy is initially much more expensive to create than other power generators interest in developing new wind farms will most likely decrease throughout tough economic times. Much less interest in developing wind farms will in turn lead to less jobs becoming generated in the field.

Nonetheless, other people sustain that the growth can continue. They site elements like the economic stimulus strategy that put billions of dollars aside for option energy and President Obama’s desire to significantly enhance our reliance on alternative power sources. In truth, in a current trip to Iowa, President Obama announced plans to permit off-shore wind power production-a step clean power giant Spain has also recently taken. Echoing the U.S. Department of Energy’s findings that by 2030 wind power could supply twenty percent of our country’s electricity, President Obama went on to say that this new step in option energy could create 250,000 jobs.

Having a President that is so dedicated to clean, alternative power sources is a huge bonus for the wind power market. With the economy leaving every thing shaky, the very best thing any industry can hope for appropriate now is high-level support. To continue at the level of good results the wind power business is currently enjoying, policies need to be put in place and funds wants to be committed to the trigger. Luckily for the industry, they have the greatest ally and spokesperson they could ask for in President Obama.

Wind Power Conversion

The development in wind turbine systems has been steady for the last 25 years and four to five generations of wind turbines exist. The principal components of a wind turbine technique, including the turbine rotor, gearbox, generator, transformer, and possible power electronics.

The turbine rotor converts the fluctuating wind power into mechanical power, which is converted into electrical power by means of the generator, and then transferred into the grid by way of a transformer and transmission lines.

Wind turbines capture the power from the wind by means of aerodynamically created blades and convert it to rotating mechanical power. The number of blades is generally 3 and the rotational speed decreases as the radius of the blade increases.

For meagwatt range wind turbines the rotational speed will be 1015 rpm. The weightefficient way to convert the low-speed, high torque power to electrical power is to use a gearbox and a generator with standard speed.

The gearbox adapts the low speed of the turbine rotor to the high speed of the generator. The gearbox might be not needed for multipole generator systems.

The generator converts the mechanical power into electrical energy, which is fed into a grid by way of possibly a power electronic converter, and a transformer with circuit breakers and electricity meters.

The connection of wind turbines to the grid is possible at low voltage, medium voltage, high voltage, and even at the additional high voltage technique because the transmittable power of an electricity system typically increases with growing the voltage level.

Whilst most of the turbines are these days connected to the medium voltage technique, large offshore wind farms are connected to the high and extra high voltage level.

The electrical losses contain the losses due to the generation of power, and the losses happen independently of the power production of wind turbines and also the energy used for lights and heating.

The losses due to the power generation of the wind turbines are primarily losses in the cables and the transformer.

The low-voltage cable need to be brief so as to steer clear of high losses. For modern day wind turbine system, each turbine has its own transformer to raise voltage from the voltage level of the wind turbines (400 or 690 V) to the medium voltage.

The transformer is generally situated close to the wind turbines to steer clear of lengthy low-voltage cables. Only tiny wind turbines are connected directly to the low-voltage line without having a transformer or some of little wind turbines are connected to one transformer in a wind farm with tiny wind turbines.

Since of the high losses in low-voltage lines, huge wind farms could have a separate substation to enhance the voltage from a medium voltage system to a high voltage method. The medium voltage method could be connected as a radial feeder or as a ring feeder.

At the point of typical coupling (PCC) among the single wind turbines or the wind farm and the grid, there is a circuit breaker for the disconnection of the entire wind farm or of the wind turbines.

Also the electricity meters are installed usually with their own voltage and existing transformers. The electrical protective method of a wind turbine system wants to defend the wind turbine and as properly as secure the safe operation of the network under all circumstances.

For the wind turbine protection, the brief circuits, overvoltage, and overproduction will be limited to stay away from the possibly hazardous damage to the wind turbine program. Also the system ought to follow the grid requirements to make a decision whether the wind turbine really should be kept in connection or disconnected from the method. Depending on the wind turbine operation requirement, a unique relaymay be needed to detect if the wind turbine operates in a grid connection mode or as an autonomous unit in an isolated component of the network due to the operation of protection devices. The conversion of wind power to mechanical power is carried out aerodynamically as aforementioned.

It is important to control and limit the converted mechanical power atnhigher wind speed, as the power in the wind is a cube of the wind speed.

The power limitation could be accomplished by stall control (the blade position is fixed but stall of the wind appears along the blade at higher wind speed), active stall control (the blade angle is adjusted in order to create stall along the blades), or pitch control (the blades are turned out of the wind at greater wind speed).

It can be seen that the power might be smoothly limited by rotating the blades either by pitch or by active stall control while the power limited by the stall control shows a little overshoot, and this overshoot depends on the aerodynamic style.

The possible technical solutions of the electrical program are many It entails solutions with and without having gearbox as nicely as solutions with or without power electronic conversion.

Danai is just one of hundreds of residents in Ontario who are having real problems because the McGuinty Liberal government allowed the wind energy corporations to site turbines too close to homes. Already over a dozen families have had to abandon their homes or be bought out with gag orders.

Amherstburg Council (at the time) despite serious warnings, did nothing to properly investigate this development. Boralex and/or Gengrowth are denying any responsibility or liability. The Ministry of Environment is taking complaints but simply files them away because they admit they don’t have the equipment and/or know-how to actually enforce the Certificate of Approvals they issue for wind projects. The Green Energy Act strips citizens and municipalities of any power. These laws makes it impossible to get any recourse from the wind companies by residents negatively affected. The average homeowner would have to spend hundreds of thousands of dollars to even begin to seek restitution.

David Libby lives in the once quiet area near Ridgetown, Ontario. 50 wind turbines have since started up, and the noise from these machines is now affecting his health. No form of government will help him, nor protect him. This is the very real, and upsetting reality that is hitting rural Ontario residents over and over again, with politicians turning a blind eye so that they can continue their very destructive energy program.