Micro-generation export and Refit tariff updates

Micro-generation covers small scale generators where customers can generate their own electricity and export the surplus back to the grid. Microgeneration technologies include small scale wind turbines, hydro turbines and solar photovoltaic systems.

Evance R9000 5kW Wind Turbine

Electric Ireland have extended their micro-generation payment of (9 cent / kWh) by a further year to 31st December 2012. This will be the second successive year that the expiry date has been extended and it reinforces Electric Ireland’s commitment to its support of customers who install a domestic micro-generator.

ESB Networks continue to offer a support package up until 29th February 2012, comprising of a free installation of import / export meter and payment of a support payment of (10 cent / kWh) which applies to the first 3,000kWh exported annually. This payment will last for a period of 5 years and will end on the 5th anniversary of the contract start date.

The ESBN micro-generation payment (10 cent / kWh) and the free installation of import/export meters will not be extended beyond 29th February 2012.  Import/export meters will now be charged at approx €350.00.

Solar pv slates

Budget 2012 and VAT refund for Farmers

The 2012 Budget included an extension of the existing VAT Refund Order for flat-rate farmers to include a refund on the purchase of wind turbines.

The existing VAT refund order, which provides for the refund of VAT paid by un-registered farmers on the construction of farm buildings, fencing, drainage and reclamation of farm land, has been amended to provide that such farmers may claim a refund on wind turbines supplied and installed after  1st January 2012.

Archimedean Screw Hydro Turbine ~ Shane’s Castle

REFIT – Renewable Energy Feed-In Tariff

REFIT stands for ‘Renewable Energy Feed in Tariff’ and is the primary means through which electricity from renewable sources is supported in Ireland.

The REFIT II scheme (onshore wind, small hydro and landfill gas) is open as and from 23rd March 2012 and the REFIT III (biomass technologies) scheme opened in February  2012. Both schemes are for projects built and operational between 1/1/10 and  31/12/15.

 

Terms and conditions for REFIT II (Onshore wind, hydro and biomass landfill gas) can be found here

The REFIT II scheme is intended to cover small and large scale onshore wind, biomass landfill gas and small hydro (?5MW.) To be eligible for REFIT II, the various requirements that will be set out in the terms and conditions must be fulfilled including proof of planning permission and grid connection -plants must be new plants neither built nor under construction on 1/1/2010.

 

Terms and conditions for  REFIT III (Biomass Technologies) can be found here

REFIT III is a scheme to cover 310MW of certain biomass related REFIT categories as follows:

> 50MW of AD sub technologies (AD CHP ?500 kW ; AD CHP >500 kW; AD (non CHP) ?500kW ; AD (non CHP) >500kW);

> 100MW of Biomass CHP (non AD) sub technologies (biomass CHP ?1500kW; Biomass CHP >1500kW);

> 160MW of biomass combustion and co-firing.

NOTE:

The REFIT II and REFIT III competitions are separate schemes with separate terms and conditons in respect of each scheme.

New clarifications may issue in due course on the new Terms and Conditions, if deemed necessary.

 

Small wind turbines ride out last week’s Atlantic storms

Last week’s violent Atlantic storm brought extremely high winds to the West and North of Scotland, with the Met Office recording maximum wind gusts of 165mph on Cairngorm Summit and 145mph at Aonach Mor.* The Met Office issued its strongest warning – a red alert – for winds in Scotland, and people were warned to stay indoors, schools were forced to close and flights were cancelled.

For owners of Evance R9000 small wind turbines, however, Scotland’s extreme wind speeds didn’t present any challenges. The Evance R9000 turbine is designed to keep running in the highest winds, and features an innovative Reactive Pitch™ mechanism that automatically pitches the turbine’s blades so it can regulate energy capture and blade speed.

Evance has over 50 of its R9000 turbines installed in the Orkney Islands. All continued to perform well during the storm, confirming the applicability of small wind turbines even in these most extreme conditions.

Evance R900 5kW Wind Turbine

One Evance turbine owner, Adam Cockram, lives on Eday – one of Orkney’s Northern Isles – where peak gusts of over 130mph (58 metres per second) were recorded. According to Adam: “on Thursday night and Friday morning last week the wind gusted at up to 138mph. I did wonder whether our Evance turbine would keep going, and I’m glad to say that there were no problems at all!”

“Like many in Orkney we experienced several mains power failures. Each time the turbine started back up with no problems at all,” continued Adam. “I’m certainly impressed by the quality of both the Evance turbine and the installation carried out by Orkney Micro Renewables. It’s certainly been tested here on Eday!”

Adam Cockram’s Evance R9000 turbine was commissioned in August 2011, and in five months has already produced 7,343kWh of electricity.

 

The Evance R9000 installed on a farm near Ferns, Co. Wexford.

 

Note

*http://www.metoffice.gov.uk/news/releases/archive/2011/research-flight

 

 

 

Ampair Launches ‘off the Shelf’ Range of Offshore Power Supplies

UK small wind turbine manufacturer Ampair has continued its push into the renewable hybrid power system market by launching the containerPod™ range of power solutions predominantly designed for providing platform power for the offshore wind measurement sector.

Ampair containerPod with vertical deploy masts at Ampair works

Jeremy Davies Ampair’s sales and marketing manager says that, “Onshore heated met-masts and LIDAR installations use between 50 and 200 watts of power and to date we have been able to power these with our existing solutions. However in any offshore installation, the loads are typically 400 Watts at a minimum, reaching up to well over 1kW for periods. The main reason for these higher loads is the requirement for essential navigation lighting and communications equipment to be powered coupled with the simultaneous use of traditional met-mast and LIDAR measurement systems on the same platform.”

Ampair’s OF4000 ‘containerPod™’ unit is a turn-key packaged power solution that includes wind generators, PV arrays and an integrated back-up diesel generator which is designed to ‘rescue’ the system should there be a prolonged bout of poor renewable generation weather. The OF4000 system is designed to power continuous loads of up to 850W for 12 months without the need for a support vessel needing to be chartered to refuel the unit.

“After extensive modelling with our in-house stochastic modelling software proAmpair™ we could see that that using a purely renewable solution just didn’t add up as they required much larger battery banks, larger wind turbine arrays and larger solar arrays. These carried a price, weight and deck space premium that was not attractive. From the model, we could see that the best efficiency was obtained by using a small DC diesel generator that should only need to be run for 50-100 hours a year. By keeping the generator run time so low, we still deliver the low/no maintenance benefit of a purely renewables-based system, but we can supply power year round in a much more cost and size effective package”.

 

View of containerPod showing generator compartment

Ampair’s containerPod solution includes a variety of proprietary innovations designed to minimise the platform size needed by its customers. These include a unique ‘through-deck’ turbine pole which allows the Ampair 600 wind turbine to be lowered vertically to chest height, and also a tightly integrated generator and fuel tank compartment which share a common bund.

 

Ampair team on top of OF4000 containerPod

David Sharman, Managing Director at Ampair commented: “Ultimately Ampair’s system can be configured to power all of the required loads on a met platform in one single containerised package with the added benefit of providing additional internal real estate for all of the customers electrical panels. The containerPod is the natural progression from our successful land based heliPod and trailerPod hybrid systems, and leverages our deep understanding of the offshore industry. As a result interest to date has been significant and we have increased the size of our manufacturing plant and workforce to cope with demand which is a great step forward for us.”

 

For further information contact Eco Evolution – authorised representatives of Ampair in Ireland.

 

Evance R9000 small wind turbine receives full MCS accreditation

Evance, a leader in the manufacture of small wind turbines, is the first company to have completed the Mircogeneration Certification Scheme(MCS) Phase 2 requirements when the MCS Transition Arrangements document was issued on 28th April 2010. The MCS gives consumers the guarantee that certified microgeneration products and the installers of those products have conformed to a rigorous set of standards.

Eco Evolution are  pleased to announce that the Evance R9000 5kW wind turbine has completed all tests and has been awarded full Microgeneration Certification Scheme (MCS) accreditation. This accreditation is a formal recognition of the durability, reliability, safety and overall performance of the R9000, which provides customers with confidence in the turbine, as well as entitlement to income from Feed-in Tariffs.

Evance Press Release  20th July 2010:

Evance, a leader in the manufacture of small wind turbines, is pleased to announce that its R9000 5kW wind turbine has completed all tests and awarded full Microgeneration Certification Scheme (MCS) accreditation.

This accreditation is a formal recognition of the durability, reliability, safety and overall performance of the R9000, which provides customers with confidence in the turbine, as well as entitlement to income from Feed-in Tariffs.
For durability, the MCS states that a Class II turbine, such as the R9000, needs to be in operation for at least 6 months and achieve a minimum of 25 hours operating in winds greater that 15.3 m/s (34.2 mph). During this test period the R9000 substantially exceeded this parameters, by operating for over 200 hours in winds >15.3 m/s, proving its resilience. It actually saw sufficient wind to pass the Class I durability criteria within this timeframe.
To prove dependable operation the MCS required a 6 month running test. The R9000 test period began in November 2009 through to June 2010, with the turbine operating consistently throughout this period, so demonstrating its reliability.
“We are very pleased to have our product performance accredited as we have always been proud of the data we publish as our products are developed to BWEA testing standards,” stated Andrew Tasker, Product Director for Evance Wind Turbines Ltd. “We ran two concurrent test sites, in Cornwall and Shetland, which allowed us to rigorously test the turbine and tower in harsh winter conditions, with exceptional results.”
Turbines also have to pass the Safety & Function criteria which reviews and tests how a turbine copes with high wind speeds. For the R9000 this meant that the patented Reactive Pitchmechanism and Electro Brakewere fully tested, with both passing all requirements. Also technical information, such as load calculations and stress analysis, has been independently audited.
“We welcomed the introduction of the MCS as we believe it will improve standards across the industry. The R9000 is an excellent design, and it is good to see a product designed and manufactured in the UK meeting these stringent requirements” commented Kevin Parslow, CEO of Evance Wind Turbines Ltd. “The outstanding performance of the R9000 will give all customers, around the World, confidence to invest in small wind and Evance as a supplier of small wind turbines.”
Video of the EvanceR9000 installed on a farm in Co. Wexford.

Eco Evolution are resellers and installers of the Evance R9000 Wind Turbine in the Leinster region. If you would like to find out more about the benefits of wind energy please contact us here.

Wind Power To Reduce Energy Bills And Carbon Footprint ~ The Evance R9000

Evance R9000 5kW Wind Turbine

Evance R9000 5kW Wind Turbine

Renewable energy is key to our low-carbon energy future, as well as diversifying energy sources. Today wind power continues to gain ground as a profitable and effective energy source.

Evance Wind Turbines have been manufacturing and supplying small wind turbines for over 10 years. The R9000 5kW wind turbine has been engineered to ensure maximum energy yield by generating energy at low wind speeds, and by running continuously and safely at high wind speeds – the most efficient 5KW turbine available.

Using the latest advances in aerodynamics and electronics, their engineers set out to bring you one of the most advanced small wind turbines on the market with unsurpassed efficiency, reliability and safety.

Testing and qualifying the product in the most extreme of conditions meant that the Evance R9000 was the first wind turbine under 10kW to be fully certified under the UK Government Industry Standard, Microgeneration Certification Scheme.  This accreditation is a formal recognition of the durability, reliability, safety and overall performance of the R9000, which provides customers with confidence in the turbine.

Evance R9000 installed in Dublin

The Evance R9000 Advanced Wind Turbine is the result of 10 years of dedicated research and development, and is based on the experience of designing utility scale turbines. Specifically designed to work with the wind to capture more energy at lower wind speeds, the R9000 is the most efficient 5kW turbine available, producing more energy a year than other 5kW, 6kW and even 10kW turbines. Combining patented state of the art technology and elegant design, the R9000 belongs to the ‘next generation’ of small wind turbines, offering class leading quality, performance and reliability.

The R9000 starts generating energy at low wind speeds and is designed to run continuously at high wind speeds, so providing the maximum yield possible – giving you energy generation when the wind is blowing it’s strongest.

At low to moderate wind speeds the patented pitch system, Reactive Pitch™, holds the blades in the optimum position for capturing maximum energy from the wind. At high wind speeds the R9000’s Reactive Pitch™ mechanism automatically pitches the blades so it can regulate energy capture and blade speed. It therefore continues to capture energy – up to the full 5kW power rating.

The R9000 is manufactured in the UK at new purpose-built facilities near Loughborough. Using automotive experience, each one is assembled under strict quality control. Every R9000 undergoes final testing to ensure that it complies with Evance exacting standards.

The R9000 wind turbine delivers class leading energy yields allowing households and businesses to reduce electricity bills substantially, and in some cases generate an income.

By capturing power at low and high wind speeds the R9000 can generate 9,167kW with Annual Mean Wind Speed (AMWS) of 5m/s  (11.2mph).

Average Power vs Wind Speed

Annual Energy Yield vs Annual Mean Wind Speed

Export Tariff Update:

Electric Ireland have extended their micro-generation payment of (9 cent / kWh) by a further year to 31st December 2012. This will be the second successive year that the expiry date has been extended and it reinforces Electric Ireland’s commitment to its support of customers who install a domestic micro-generator.

ESB Networks continue to offer a support package up until 29th February 2012, comprising of a free installation of import / export meter and payment of a support payment of (10 cent / kWh) which applies to the first 3,000kWh exported annually. This payment will last for a period of 5 years and will end on the 5th anniversary of the contract start date.

The ESBN micro-generation payment (10 cent / kWh) and the free installation of import/export meters will not be extended beyond 29th February 2012.  Import/export meters will now be charged at approx €350.00.

The average electricity consumption in Ireland is 5,000kWh per household per year. The R9000 can generate 13,653kWh, based on an annual mean wind speed of 6m/s, more than enough electricity to run two households.  There are also planning exemptions for small-scale wind turbines in Ireland.

Evance R9000

The R9000 requires minimal maintenance

Both the wind turbine and the tower are designed to provide outstanding durability – a minimum design life of 20 years. With few mechanical parts, in particular no gearbox, the R9000’s maintenance is minimal.

The Evance 5kW Wind Turbine installed on a farm in Boolavogue, Co. Wexford: http://www.youtube.com/watch?v=rH5hfrw1lbI

For further information read the Evance R9000 brochure.

Click here  for more information on Micro-generation export and refit tariff updates.