Posts Tagged ‘government’

Distributed Energy

Tuesday, July 13th, 2010

Distributed energy refers to multiple small generating stations inputting energy into the electrical grid. The current model of energy distribution has large generating stations which supply power to a wide geographic area. This model has proven vulnerable to disruption and is in serious need of modernization. Global Wind Group Inc. manufactures micro-wind turbines designed to fit with the distributed energy smart grid as it develops.

The distributed energy model is being advocated heavily by the Renewable Energy sector however a serious look at the cost-benefit is needed. Costs associated with the distributed energy model include; i) ensuring adequate energy storage, be it on the community or individual level, ii) developing enough capacity, not every community is well suited for wind, solar, biomass, installations, iii) regulatory compliance, the utility may be unwilling or unable to accept additional grid inputs.

Benefits associated with distributed energy include; i) reduced cost of building transmission lines, laying cable through empty space to connect separate communities is eliminated, ii) improved reliability, disruption is eliminated with adequate energy storage, iii) shift the cost of building new generating facilities from profit-centric utilities to cost-sensitive consumers ultimately leading to a reduced cost of electricity.

Ultimately the distributed energy model is a direct threat to the current utility generated energy. As the number of customers generating their own energy increases there are fewer and fewer customers paying utility bills. Global Wind Group Inc. sees a situation where utilities are forced to increase their energy costs while at the same time renewable energy solutions are becoming less expensive. The tipping point for customers to choose renewable energy is coming rapidly in developed countries, and has already passed in several areas including those areas not currently serviced by utilities, i.e. rural India, and those customers dependent upon diesel-fuel for energy i.e. the Caribbean islands.

For more information on pricing or to become a distributor please visit www.globalwindgroup.com or call us at +1-204-777-9463

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Diesel Electricity

Tuesday, October 20th, 2009

Diesel has been used as a source of energy for many many years. Up until
recently Diesel electricity has been one of the easiest and least expensive
options. The view of diesel changed during the last oil price spike when
suddenly electricity from diesel was significantly more expensive. Despite
the current ‘low’ in diesel prices (approximately $80/bbl when this article
was written), the days of cheap oil are past.

Diesel electricity is typically used where other sources are unavailable. In
Global Wind Groups home country, Canada, this typically means remote /
northern communities, outposts, and recreational properties. In many island countries, the entire island is powered by diesel fuel, leaving regular
citizens and businesses exposed to fluctuations in the international oil
markets.

Global Wind Group Inc.¹s renewable energy products are an excellent way to off-set diesel consumption. Installations of GWGs Vertical-Axis Wind Turbines (VAWT) are scalable, meaning as more power is needed more turbines are installed. Since each turbine saves diesel costs, those savings can be re-invested in more turbines, eventually leading to an elimination of diesel altogether.

Investing in renewable energy sources is a wise decision which insulates customers from rising fuel prices. Contact us today to discover what a
Global Wind Group Inc. Vertical-axis wind turbine can do for you.

For more information visit www.globalwindgroup.com

Quick Facts:
Diesel generators produce 3kWh / Liter of fuel (12kWh / Gallon).
1 Liter of diesel produces  2.3 kG C02
(Source: http://www.eia.doe.gov/)

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Keys To Successful Renewable Energy Funding Grant Applications

Friday, April 24th, 2009

 

Keys to successful renewable energy funding grant applications

 

We would like to share with your Global Wind Group Inc.’s experience in guiding the Rural Municipality of Morris through their successful application to the Manitoba Conservation Sustainable Development Innovations Fund for $25,000:

 

  • Understand the purpose of the grant i.e. to study a new technology, reduce energy costs, and stimulate the ‘green’ economy.
  • Use language contained in the grant description in the application.
  • Connect the application with as many of the criteria as possible, be creative.
  • Speak with the contact person before submitting the application. Listen carefully for key words or phrases that should be included in the application.
  • Follow-up to confirm receipt of the application and ask about specific timelines, i.e. when the grant review committee meets next.
  • Be patient, approving a grant takes a fair amount of time. After-all, you want grant money spent on truly meaningful projects, like yours.

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MANITOBANS TAKE LEADERSHIP ROLE ON CLIMATE CHANGE IN NEW COMMUNITY LED GREENHOUSE GAS INITIATIVE

Friday, April 24th, 2009

 

On April 22, 2009 , Intergovernmental Affairs Minister Steve Ashton and Science, Technology, Energy and Mines Minister Jim Rondeau announced Manitobans will be taking a leadership role in developing grassroots solutions to climate change under a new initiative to reduce greenhouse gas (GHG) emissions by up to 20 per cent over the next three years.

 

The aim of the Community Led Emissions Reduction pilot program is to develop projects and incentives that will encourage and support the greatest immediate emissions reductions and build toward long-term, lasting changes.  Local government and not-for-profit community organization program participants may initiate projects or activities including energy measures through home or building retrofits, more efficient lighting choices or alternative energies such as solar, wind or biomass.

 

The pilot program will be delivered in partnership with the Association of Manitoba Municipalities, Association of Manitoba Bilingual Municipalities, Conseil de développement économique des municipalités bilingues du Manitoba (CDEM), Manitoba Hydro, local not-for-profit environmental organizations and the Federation of Canadian Municipalities (FCM).

 

Read the full press release at: http://news.gov.mb.ca/news/index.html?archive=2009-04-01&item=5703

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MB Hydro Teams Up With The U of M

Tuesday, March 10th, 2009

Manitoba Hydro donated $10,000 to the University of Manitoba in order to fund the installation of a 1.2kW vertical-axis wind turbine on a 15 ft. composite pole at the Alternative Village. This donation should have been explicitly stated in the press release and subsequent media coverage, and Global Wind Group Inc. sincerly apologizes for the omission. Global Wind Group Inc. is grateful for all the financial and technical support recieved from Manitoba Hydro, and we look forward to developing our relationship further.

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Office Tower Turbines In Downtown Winnipeg?

Tuesday, March 3rd, 2009

Updated: Mar. 02, 2009 at 7:10 am

www.chrisd.ca

A Winnipeg company wants to make the city a bit more energy efficient, and they’ve set their sights on the downtown office towers to start.

Global Wind Group president Alex Stuart says they want to leverage the unused rooftop space to create sky-high urban wind farms. The idea is still in its planning stages,  but the group is currently working with the University of Manitoba’s Alternative Village to test one of the vertical axis turbines they one day hope will grace the rooftops of Winnipeg’s downtown.

So, just how much do these turbines cost? According to Stuart, roughly $10,000 each. Manitoba Hydro has shown early interest, but says until more serious testing is complete, they would not commit to being involved. The turbines could also be situated on homes, but Stuart says homeowners would not likely get on board unless financial incentives can be offered.

– With files from the Winnipeg Free Press and Global Wind Group

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Office Tower Wind Turbines A Sky-High Goal

Friday, February 27th, 2009

U of M study to probe feasibility

by: Lindsey Wiebe, Winnipeg Free Press, February 27, 2009

If Alex Stuart’s dreams came true, every highrise in downtown Winnipeg would be topped with a wind turbine, silently capturing energy to power the offices below.

For now, he’s glad to have one turbine up at the University of Manitoba, where research will show whether his vision of a sky-high urban wind farm in Winnipeg will ever come to fruition. 

Stuart said Manitoba Hydro has shown early interest in the project, but said more serious involvement would depend on the results of the testing.

“That’s unused rooftop real estate,” said Stuart, president of Global Wind Group.

The start-up company is working with the University of Manitoba’s Alternative Village to test one of the vertical axis turbines they hope to eventually distribute in Winnipeg. Stuart believes the city’s skyscrapers could one day substitute for the massive bases that traditionally support wind turbines such as the ones in St. Leon, southwest of Winnipeg

“We already have huge towers — we just call them office towers,” he said.

Vertical axis turbines don’t look much like the horizontal axis, propeller-style turbines many people associate with wind power. The vertical models are shaped more like soup cans, and the motion of the blades bears a passing resemblance to the whir of a blender, albeit a noiseless one.

The model at the U of M is more than three metres high and has the same diameter, and is worth roughly $10,000, Stuart said.

The Alternative Village already includes a straw bale building used to highlight alternative building methods and a number of solar experiments. Director Kris Dick said students will be able to observe and assess data on the turbine’s wind speeds and overall performance, and the energy it generates will power part of the village.

Dick hopes different faculties can pick up knowledge from the turbine, and envisions architecture students using it to figure out how wind power might fit into site plans, for example.

“It becomes a research tool, but it also becomes a teaching tool as well,” he said.

Urban wind farms have had a rocky ride in recent years, with skeptics arguing that ‘micro’ turbines don’t always produce enough electricity to make economic sense.

New York Mayor Michael Bloomberg got a lukewarm reception from some environmentalists when he suggested putting wind turbines atop the buildings that make up the city’s famous skyline, and a United Kingdom study of 26 small turbines found their performance lagged behind what participants expected, due in part to a lack of wind in some installation sites.

But, Stuart argues vertical axis turbines are different than the more familiar horizontal axis turbines. Horizontal models aren’t always sturdy enough for erratic, “dirty” wind patterns in cities, he said, and can be knocked out of alignment when gusts of wind come from different directions.

“On a small scale, a propeller just simply is too sensitive to turbulence,” he said.

Stuart believes vertical-axis turbines could work well with geothermal systems, which still need some electricity to run. Ultimately he’d like to get the models on top of condominiums and office buildings, and installed in remote northern communities that now depend on diesel power for electricity.

One of the turbine models his company sells is designed for the roofs of homes, said Stuart, but it’s unlikely homeowners will get on board with wind power without financial incentives.

lindsey.wiebe@freepress.mb.ca

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