Greenbyte, a developer and enabler of smart data software to drive productivity in renewables, has significantly bolstered its presence in the United States with the opening of a new Chicago office.

The new location will serve as a regional hub for the nationwide rollout of the Greenbyte Energy Cloud, an open, versatile and user-friendly monitoring and asset management platform for renewable energy portfolio owners and Independent Power Producers (IPPs).

The Chicago office will establish a new center for sales, support, and customer success, ensuring that Greenbyte’s expanding pool of North American customers are served to the highest level by a U.S.-based team. This growing team has a wealth of renewables experience and will work with U.S. businesses to implement Greenbyte’s monitoring and asset management platform, which delivers proven productivity gains across multi-technology portfolios.

While digitalization has rapidly become a buzzword in the U.S. renewable energy industry, for many it remains an unrealized opportunity. Many digital data management platforms in use have been developed as bespoke solutions for individual projects or portfolios, are focused on a single technology, or have been designed to direct users toward particular hardware choices or specific engineering and consultancy services.

Ultimately, this narrows the opportunities available to asset and portfolio owners, rather than creating the flexibility they need to analyze, understand, and act on their performance data.

“North American portfolio owners too often find themselves using numerous different monitoring and asset management tools, across a wide range of generation types and technologies,” said Eric Bergman, senior account executive in Greenbyte’s U.S. team. “Not having a consolidated asset management platform for these diverse portfolios is both costly and inefficient to system owners and stakeholders and leads to a lack of transparency on fleet performance, which typically takes its toll as lost energy and revenue.”

“Strengthening Greenbyte’s U.S. presence supports our objective of bringing renewables stakeholders a single source of truth that broadens, rather than limits, their future choices,” he said.

Greenbyte Energy Cloud has been designed to provide asset managers and portfolio operators with a single, user-friendly point of access to data from a multitude of sources, from on-site resource measurements and SCADA to third-party data analytics services. It will enable U.S.-based customers to monitor and manage all renewable energy types, including storage assets.

Greenbyte’s system is already in use by a number of leading U.S. renewable energy businesses. These include Longroad Energy, a developer and operator managing a portfolio of 1.5 GW of operational wind and solar projects across the country, including more than 800 MW for third-party owners.

Longroad is using Energy Cloud as a versatile hub for all critical performance data, supporting asset management, operations and maintenance (O&M), and remote monitoring of this diverse asset base. In turn, Longroad uses these data to inform decisions that reduce costs, increase portfolio efficiency, and drive revenue.

“While many systems on the market prescribe certain portfolio-wide asset management approaches and decisions, Greenbyte Energy Cloud creates the flexibility and scalability we need to effectively manage our expanding wind and solar asset base,” said Jeremy Law, vice president of Asset Management at Longroad Energy. “Having used the system for nearly two years, we are starting to generate wide-ranging efficiency gains across our business that translate directly into increased performance and availability for our assets.”

MORE INFO  www.greenbyte.com

Hi-VAWT’s DS3000 small wind turbine is the latest model to achieve certification under the ICC-ES Small Wind Certification Council (ICC-SWCC) Small Wind Turbine (SWT) Program.

It is also the first vertical-axis wind turbine (VAWT) to complete the rigorous ICC-SWCC certification process.

Vertical-axis turbines use a unique geometry and feature distinctive vertical blades that are arranged perpendicularly through the wind stream. The Hi-VAWT DS3000 turbine has been granted certification SWCC-18-02, which demonstrates compliance with the AWEA 9.1 standard that serves as the basis of the ICC-SWCC SWT program. Hi-VAWT is based in Taiwan and is represented in the U.S. by Colite Technologies, who submitted the turbine for certification.

The DS3000 turbine’s product information, test reports, and calculations were thoroughly reviewed to confirm that all requirements of the ICC-SWCC SWT program were satisfied. The DS3000 is a three-blade, vertical-axis wind turbine with a combination Darrieus-Savonius rotor with a 3.7-meter diameter. ICC-SWCC rated its annual energy production at 2,460 kWh per year* and 1.4 kW rated power at 11 m/s wind, and a rated sound level of 42.3 dB(A)**.

“The completion of the first successful VAWT certification for a small wind turbine is an exciting development for the industry and ICC-SWCC; we congratulate Hi-VAWT and its U.S. partner, Colite Technologies, for this achievement,” said ICC Evaluation Service Vice President of Technical Services Shawn Martin. “The ICC-SWCC program provides third-party performance ratings and assurance that certified turbines have passed rigorous testing and performance requirements.”

“The Hi-VAWT Technology Corporation has been offering its turbines in the United States for nearly a decade,” said Kevin O’Hara, president and CEO of Colite Technologies. “It is now very rewarding to finally achieve an official certification from ICC-SWCC confirming the integrity of the technology. The Hi-VAWT technology is not only the sole vertical access wind-turbine technology to reach this level of certification in the U.S. but also across the globe. We are extremely proud and excited to be a representing Hi-VAWT in the U.S.”

ICC-SWCC SWT certification is used by numerous incentive programs, regulations, and codes in many states and countries, including the Federal Investment Tax Credit (ITC). The ITC was reinstated in 2018 for small wind turbines, providing a significant, 30-percent tax credit for the costs of equipment and installation of wind turbines under 100 kW.

ICC-SWCC is a program of ICC Evaluation Service (ICC-ES), the United States’ leading evaluation and certification service for innovative building and plumbing products. Building officials, architects, contractors, specifiers, designers, and incentive programs use ICC-SWCC certifications to provide the basis for using or approving renewable energy products.

* Annual energy production rating assumes average annual wind speed of 5 m/s with a Rayleigh wind-speed distribution, sea level air density and 100 percent availability. Actual production will vary depending on site conditions.

** Assumes the sound level will not be exceeded 95 percent of the time assuming the wind conditions above and observed 60 m from rotor center.

MORE INFO  smallwindcertification.org

Since the first deliveries in January, for the past six months Collett & Sons Ltd has been traveling the 70-mile route from Ellesmere Port to Clocaenog Forest Wind Farm, steadily delivering the turbine components to the North Wales site.

Collett has made the final journey from the port to the development site, delivering the final tower sections to complete the project.

Through the snow of January, the storms of February, and the record-breaking heat of July, Collett methodically delivered each of the 270 components. With a total of 121 abnormal load convoys and 15 self-escorted convoys, Collett covered a staggering 16,929 miles with a total of 12,420 metric tons.

Construction is now underway of the 27 V105 Vestas turbines, which will form Innogy Renewable UK’s North Wales site. Once operational Clocaenog Forest will have an installed capacity of 96 MW and will generate enough renewable energy for the equivalent domestic needs of up to 63,800 average households per year.

MORE INFO  www.collett.co.uk

Vestas Wind Systems A/S and General Electric Company, acting through its Renewable Energy Business, have reached an amicable settlement of all disputes related to multiple patent infringement claims in the U.S.

The settlement results in the discontinuation of the case pending in the U.S. District Court for the Central District of California as well as all other pending proceedings related to the patents-in-suit.

The patents-in-suit generally relate to technologies that enable wind turbines to manage grid faults. With this settlement, any past infringements of the patents-in-suit are fully released. In addition, the settlement includes a cross-license to the patents-in-suit and their family members, as well as a confidential payment from Vestas to GE. The cross-license applies globally to the parties’ and their affiliates’ respective onshore and offshore wind businesses and ensures they can use the technology covered by such patents.

The announcement resolves the initial lawsuit GE filed against Vestas and Vestas-American Wind Technology Inc. on July 31, 2017, claiming infringement of its U.S. Patents No. 7,629,705 and No. 6,921,985; Vestas’ two counterclaims against GE claiming infringement of its U.S. Patents No. 7,102,247 and No. 7,859,125 on December 15, 2017; and all pending inter-partes review proceedings with respect to the patents-in-suit.

MORE INFO  www.vestas.com

U.S. wind-farm development activity rose to a new high point in the second quarter of 2019, according to new data from the American Wind Energy Association (AWEA).

Strong consumer demand from Fortune 500 businesses and utilities as well as calls from multiple states for offshore projects added to wind power’s growing development pipeline. At the same time, wind-turbine manufacturers saw an increasing number of factory orders for more powerful wind turbines capable of powering almost twice the number of homes as an average wind turbine installed in the past few years.

These findings and the latest industry data are highlighted in AWEA’s newly released U.S. Wind Industry Second Quarter 2019 Market Report. AWEA market reports provide an authoritative status update for the U.S. wind energy industry, which continues to supply a growing share of the American electricity generation while creating well-paying careers and economic opportunity in communities across the country.

“American wind power’s record growth continues to accelerate with over 200 wind farm projects underway in 33 states,” said AWEA CEO Tom Kiernan. “Our industry’s success strengthens the U.S. economy because access to affordable, clean American wind power is a competitive advantage in the eyes of business leaders. And when those businesses invest in U.S. wind energy, it directly benefits the people living and working in our country’s farm, factory, and port communities.”

The record 41,801 MW of U.S. wind capacity under construction or in advanced stages of development represents a 10 percent increase over the level of activity this time last year. The wind-project pipeline grew 7 percent in the second quarter with 7,290 MW in new construction and advanced development activity announced.

Wind power is expanding rapidly in many regions of the U.S. More than 200 wind projects are underway across 33 states, and 15 of those states have more than 1,000 MW of wind capacity that will come online in the near term. Texas hosts the most activity (9,015 MW), followed by Wyoming (4,831 MW), New Mexico (2,774 MW), Iowa (2,623 MW), and South Dakota (2,183 MW). Notably, half of U.S. states have enough projects underway to grow their installed wind capacity by 25 percent or more.

Offshore wind also saw significant activity in the second quarter with bold new offshore wind targets legislated in Maryland (1,200 MW), Connecticut (2,000 MW), and New York (9,000 MW). New Jersey granted its first offshore renewable energy certificate (OREC) award to Ørsted’s 1,100 MW Ocean Wind project — the largest offshore project planned in the U.S. so far. And the activity hasn’t slowed; early in the third quarter, New York Gov. Andrew Cuomo announced Empire Wind and Sunrise Wind as winners of the state’s first call for offshore wind project proposals.

The U.S. grid now includes an additional 736 MW of wind power as developers commissioned four new wind farms in the second quarter. This brings total U.S. wind capacity to 97,960 MW, with more than 57,000 wind turbines operating in 41 states and two U.S. territories. American wind farms now produce enough electricity to power more than 30 million average homes and reliably supply more than 20 percent of the electricity in six states.

Businesses and utilities continue to purchase more wind energy to power their operations. Wind power customers announced new long-term contracts, called power purchase agreements (PPAs), totaling 1,962 MW in the second quarter. Non-utility corporate customers signed up for 52 percent of second quarter PPA capacity. Hormel Foods, Smithfield Foods, Crown Holdings, and Ernst & Young were first-time customers of wind energy in the second quarter, along with repeat customers such as General Mills, Walmart, and Target. Strong demand from utilities accounted for the remaining 48 percent (949 MW) of second quarter PPAs. So far this year, 35 customers have announced wind-power purchases totaling 4,799 MW.

As wind power’s customer base evolves, so too does the technology. Wind turbine manufacturers have introduced new models at a rapid pace over the past few years in pursuit of lowering costs and achieving even stronger performance. As a result, the number of projects selecting wind turbines with a capacity of 3.5 MW or more is growing significantly. In the second quarter alone, wind-turbine manufacturers publicly reported nine orders totaling 2,049 MW for turbines ranging in capacity from 4.2 to 4.5 MW.

“We’re seeing a growing number of wind farms select turbines capable of powering nearly twice as many homes as the average U.S. wind turbine,” Kiernan said. “Wind-technology innovation is keeping pace with demand, but we can’t afford to neglect the power-grid infrastructure that delivers electricity from where it’s made to consumers. We continue to urge the Administration, Congress, FERC, and grid operators to ensure well-designed transmission lines can be planned, permitted, and built in a timely fashion.”

Earlier this year, AWEA’s 2018 U.S. Wind Industry Annual Market Report highlighted the significant economic benefits that grow along with wind-power capacity. Wind farms pay more than $1 billion a year through state and local taxes plus lease payments to landowners, helping preserve the rural way of life in farming and ranching communities across the country. The wind industry also supports a record number of U.S. jobs, more than 114,000, with substantial room to grow as the industry continues to scale up in the heartland and offshore. Roughly a quarter of those careers are found at more than 500 U.S. factories manufacturing or assembling wind-turbine components.

You can learn more about wind power, and potentially visit a wind farm or factory, during the third annual American Wind Week, August 11-17. American Wind Week is a national celebration of U.S. leadership in wind power and the many ways wind powers opportunity for jobseekers, communities, and a cleaner future. A map of events and proclamations is available at AmericanWindWeek.org.

MORE INFO  awea.org

Attendees of the American Wind Energy Association’s (AWEA) WINDPOWER 2019 caught a glimpse of the future as the biggest wind energy conference in the Western Hemisphere announced its next evolution to become CLEANPOWER — an even bigger opportunity for companies in wind, solar, and storage to learn and do business across the utility-scale power sector.

A new WINDPOWER post-show report highlights CLEANPOWER’s potential to add even more value for attendees given the already high level of multi-technology business at AWEA shows.

WINDPOWER 2019 took place in May in Houston, the “Energy Capital of the World.” The new post-show report finds that more than 7,000 registered attendees representing the U.S. and 40 other countries were in attendance. The conference featured 274 speakers, 30 percent of which were female, doubling the percentage from 2018. There were 71 education sessions and 65 digital poster presentations. The show also included a 376,000-square-foot exhibit hall with more than 400 exhibits, 60 private meeting rooms and five education theaters — the largest exhibit hall in five years.

“WINDPOWER 2019 was the first step toward creating a more efficient and effective business development experience for renewable energy companies,” said Jana Adams, AWEA senior vice president for Member Value and Experience. “Strong support from pan renewable companies gave us the clear indication of the opportunities that lie ahead under the new CLEANPOWER hub for attendees to network with industry leaders, make deals, and build partnerships across clean energy sectors.”

The 2019 show’s theme, WIND+, was appropriately named as 42 percent of WINDPOWER 2019 exhibitors also do business in renewable segments other than wind. Of that 42 percent: 85 percent are involved in solar; 33 percent are involved in energy storage; 26 percent are involved in hydropower, and 23 percent are involved in other renewable sectors.

“For years, WINDPOWER has been a leading conference for emerging energy technologies and it will continue to be the heart of our next chapter as CLEANPOWER,” Adams said. “Incorporating these technologies into a single exhibition hub will be more convenient for multi-tech businesses as well as companies specializing in wind or utility scale solar who will benefit from an efficient business development forum that attracts an exclusive audience of large-scale developers, corporate buyers and utilities.”

The full report is available here.

CLEANPOWER 2020 will be June 1-4, 2020, at the Colorado Convention Center in Denver, Colorado. Learn more at www.cleanpowerexpo.org.

New York Gov. Andrew Cuomo announced Thursday results of the largest procurement of offshore wind power in U.S. history. Two projects, Empire Wind and Sunrise Wind, were named as winners of the state’s first call for offshore wind project proposals. Once completed, the 816-MW Empire Wind project and the 880-MW Sunrise Wind project will be capable of supplying enough electricity to power more than a million homes and are expected to create more than 1,600 jobs.

“Governor Cuomo’s vision to power the Empire State with clean, American-made offshore wind power will benefit all New Yorkers,” said Laura Smith Morton, senior director, Policy and Regulatory Affairs, Offshore, AWEA. “Large-scale wind projects, like those selected, equal large-scale job creation and infrastructure investment in New York City and the state’s coastal communities.”

New York’s offshore wind solicitation, opened late last year, called for 800 MW or more to be developed as a first step toward meeting the state’s nation-leading target to build 9,000 MW of offshore wind energy by 2035. The projects selected are expected to begin offshore construction in late 2022 and be completed by 2024. Before the projects can begin construction, they must pass a series of rigorous federal and state permitting requirements that ensure environmental and economic impacts are considered.

To help make New York a hub for offshore wind, Gov. Cuomo also announced new investments totaling $287 million to construct manufacturing, service, and port facilities in New York as well as $20 million for a new wind workforce training program housed in the State University of New York system.

Promoting investment in offshore wind will strengthen and diversify American energy production. Offshore wind offers unique benefits for a state such as New York, with a large coastal population center and bold policies to reduce greenhouse gas emissions. Steady offshore wind is a reliable source of power and the largest-scale option for renewable energy that can be built close to America’s coastal cities such as New York City.

While the state is emerging as a central leader in the deployment of new clean energy, New York City could miss a major opportunity to be part of that movement. Mayor Bill DeBlasio is reported to be seeking to power the city with imported Canadian hydropower rather than U.S. offshore wind energy that would drive economic development and job creation.

“The city’s enormous potential for clean-energy production lies untapped, just off New York’s shores,” said Andrew Gohn, director, Eastern Region State Affairs, AWEA. “As the city seeks to meet its climate change goals — we urge Mayor De Blasio to buy American and put New Yorkers to work building and operating offshore wind farms rather than importing hydropower from outside of the country.”

Offshore wind is still a young industry in the U.S., but that’s rapidly changing. The 30-MW Block Island Wind Farm, America’s first offshore wind farm, came online in 2016 and the second U.S. offshore project, a 12 MW Dominion Energy wind farm, recently began construction off Virginia. In total, there are more than 25,740 MW in various stages of development off the East Coast and in the Great Lakes, with additional potential off the West Coast.

Many of the offshore wind projects under development, including New York’s, have many times the electricity generating capacity of the Block Island Wind Farm. Building offshore wind at scale will help drive down costs, create thousands of new U.S. jobs, and drive billions of dollars in private investment. According to a study by the New York-based Workforce Development Institute, building an offshore wind farm requires a diverse technical workforce spanning an estimated 74 occupations including electricians, welders, ironworkers, pipefitters, pile drivers, engineers, scientists, and vessel operators. Another study by the Special Initiative on Offshore Wind found building 18.6 GW of offshore wind by 2030 will create a nearly $70 billion opportunity of U.S. supply chain businesses.

More info: awea.org

NRG Systems, Inc. recently announced that Evan Vogel has joined the company as president.

Vogel brings more than 30 years of experience in power, energy, and renewables to his new role, most recently overseeing marketing and engineering for Schneider Electric’s Solar and Energy Storage Business. Vogel also led Schneider’s transition from hardware focus to include a unique, cloud-connected SaaS platform that drove double-digit growth.

“I am excited to be joining NRG Systems at a truly pivotal point in the company’s trajectory,” Vogel said. “With the expansion of its solar and remote sensing products lines, growing service offerings, and the introduction of its Bat Deterrent System, NRG’s portfolio has never been more diverse. I believe my experience in solar as well as bringing exciting new technologies to market will prove valuable as we enter into this new chapter.”

Vogel, who holds a B.S.E.E. degree from New York University and MBA from Adelphi University, also served as vice president of marketing at Power-One, and later as the general manager of the company’s Global Business Unit, which saw revenues of $550 million. In addition to his positions at publicly traded Fortune 500 and S&P500 listed companies, Vogel has played a key role in leading start-ups, including Ampt and Petra Solar, to market and profitability.

“I have a true passion for renewable energy,” Vogel said. “This is why I have dedicated the last 15 years of my career to the solar market. NRG Systems’ mission is close to my heart, and I look forward to learning and growing with this pioneering company.”

Vogel succeeds Justin Wheating, who retired as president of NRG Systems in June.

More info: nrgsystems.com

Power generation from renewable sources is a key part of the sustainability concept of Covestro and underlines its commitment to achieving the UN Sustainable Development Goals, in particular goal number 7 for renewable energy (UN-SDG 7).

This applies above all to wind power, which is one of the most promising renewable energy sources due to its global availability and the technical progress already made.

This is also reflected in the development of wind-power capacity, which is seeing double-digit annual growth across the globe. China is the world’s largest wind-power market with 221 GW of installed capacity at the end of 2018, according to the World Wind Energy Association.

However, cost-efficient processes for manufacturing wind-power plants are in greater demand than ever to enable further expansion and for competing with traditional energy resources. Once in operation, the aim is for turbines to be used over a lengthy period with the lowest possible maintenance requirements.

In order to meet this challenge, Covestro has joined forces with partners and developed a polyurethane (PU) resin and a manufacturing technology, which — in conjunction with glass fiber mats and an efficient production process — enables shorter cycle times.

“This is a clear cost advantage for manufacturers,” said Dirk Soontjens, who coordinates the global wind power activities of Covestro. “Its advantage over epoxy resins used so far is that it flows more easily and ensures better wetting of the glass fiber mats used for reinforcement.”

The resin also exhibits good mechanical properties and meets many regulatory and industry performance standards.

Recently, Covestro has processed the first commercial order for use of the PU resin for production of 18 wind rotor blades with a length of 59.5 meters each, together with the respective spar caps and shear webs, all manufactured by Zhuzhou Times New Material Technology (TMT), one of the largest wind-blade manufacturers in China. The blades were delivered to Envision, a leading global wind turbine technology company and were scheduled to be installed in a wind farm in Eastern China in July 2019.

Also in Europe, Covestro collaborates with leading players of the wind-power industry and intends to commercialize its technology shortly. Besides that, Covestro operates a new wind-power laboratory in Leverkusen, which expanded its global lab capacities in Asia and Europe to support customers and innovation.

Covestro has also developed coating solutions with higher cost efficiency. For instance, protective coatings based on Pasquick® technology for steel towers as well as gel coatings for blades of wind-power plants significantly increase productivity and ensure a long lasting performance without maintenance. This is due to the fact that the use of Pasquick® requires one layer less than conventional corrosion protection, and the coatings have a lower curing time.

Besides that, waterborne topcoats based on Bayhydur® and Bayhydrol® provide long-lasting performance with low solvent emissions. Last but not least, Covestro also offers leading edge protection for rotor blades based on products of the Desmodur® line, providing long lasting protection against abrasion.

More info: www.covestro.com

ZF Wind Power’s SHIFT 4k platform received a ‘type and component certificate’ from the international classification society DNV GL, for its complete platform range.

In the past, every gearbox design had to go through a long administration process of calculation files, validation results, and more. As of now, all SHIFT 4k designs are covered with the ‘type and component certificate.’ Customers will profit from the certificate as it speeds up processes, thus saving time and money and boosting productivity.

As time is valuable, this certificate from DNV GL will save costs for OEMs and turbine owners. In the past, the administrative process could take a few months and now, thanks to the platform’s certificate, the gearbox is ready to be installed immediately. Consequently, turbines or upgrades can be installed faster and thus productivity will increase.

The launch of ZF Wind Power’s SHIFT platform in 2016 marked a shift in the wind market: The modular approach of the platform offers more flexibility in terms of gearbox development and next-generation turbine concepts, consequently reducing customer’s levelized cost of energy. To quickly anticipate the market’s needs, pre-developed and upgradable designs allow the customer to follow future market trends closely and speed up the process.

Having received the ‘type and component certificate’ by DNV GL, ZF is committed to implementing the platform philosophy across its entire product roadmap.

“Our goal is to obtain this certificate for our other SHIFT platforms as well,” said Mitja Schulz, head of ZF Wind Power. “We are convinced that this will help our customers to make a faster SHIFT towards the future.”

More info: www.zf.com

Siemens Gamesa has been selected by MidAmerican Energy Company for the Rolling Hills wind power project for a total of 429.3 MW, the largest repowering order to date in North America.

The company will repower the project with 163 SG 2.7-129 and 18 previously sold SWT-2.3-108 wind turbines.

Rolling Hills is in Adair, Adams, and Cass counties in Iowa and features 193 SWT-2.3- 101 turbines. The repowering project includes replacement of the blades, hubs, and nacelles for all units and top-tower sections for the SG 2.7-129 units. Commissioning of the project is expected for late 2021.

The SG 2.7-129 turbine builds on the robust and successful 2.3-MW geared product series.

“We are excited to provide upgraded equipment and technology to the Rolling Hills project in Iowa, a national leader in the wind energy industry,” said José Antonio Miranda, CEO of Onshore Americas at Siemens Gamesa Renewable Energy. “This new project is a testament to MidAmerican Energy’s confidence in us as well as Iowa, where we have supplied them with more than 2.6 GW. The blades will be produced right there in Iowa, and the nacelles and hubs will come from neighboring Kansas, making this a truly local project.”

Siemens Gamesa has installed more than 10,000 wind turbines in the U.S. totaling approximately 20 GW of installed capacity. In Iowa, Siemens Gamesa has installed nearly 1,400 wind turbines for a total of almost 3.5 GW. The company has a strong footprint consisting of service, offices, and two manufacturing facilities in Fort Madison, Iowa, and Hutchinson, Kansas.

With real world data translated into O&M asset and service strategies, the 2019 edition of the Onshore Wind Operations & Maintenance Report provides the complete value chain with the analysis needed to navigate the shifting onshore wind power marketplace and formulate the most cost-effective O&M strategies for your wind power assets.

Key reasons to secure the report:

1. Benchmark your wind assets’ reliability against over 1.6GW of operational data: Consult proprietary reliability data collated from seven onshore markets during 2015-2018 covering failure rates and downtime at the component and RDS-PP aligned subsystem levels
2. Predict, plan, and prevent: Avoid unplanned downtime that could wipe-out your ROI on wind power assets by identifying failure rates and repair times for key components
3. Carve out the optimum maintenance and O&M service strategy for your assets: Determine what the best-fit maintenance response for your big-ticket components and subsystems is.
4. Pinpoint cost-reduction and optimization strategies via our innovation deep-dives: Access the latest innovations in O&M service provisions, technologies, and operational practices to troubleshoot your O&M pain points, formulate a forward-looking response strategy, and stay ahead of your competitors
5. Benchmark your investment strategy against the global peer group: Determine where your clients and competitors are investing O&M resources over the next five-years.
6. Save time and money: We provide the data, analysis, and actionable strategies you need to optimize your wind O&M strategy so you can focus resources where it counts.

 What does the report cover?

• O&M Market Sizing and Growth Forecasts by Country, Region, and Global Levels: Consult the latest market capacity and O&M data, including turbine capacity and pricing trends, global warranty status, and O&M costs.
• Performance Optimization and Reliability at Component and Sub-System Level: Explore failure rates, downtimes and availability and understand of how data-driven systems can influence decision making.
• Maintenance Response: Based upon key wind-farm characteristics and the use of different types of CMS, explore performance and cost dynamics and see what type of work should be done on your assets.
• Service Response: Who should be carrying out what work on your windfarm over the project lifecycle based upon key wind farm characteristics and owner/operator profile?
• Trends in Global Wind O&M: Including contract lengths, contract switching appetite, risk perceptions by service provider, drivers for service provision selection, and O&M cost per MWh.
• Revenue Opportunities and Protection: Get advice on how you can set operations up for the future, including risk appetite, cyber protection, better repowering options, and service options.
• Lifetime Extension and Repowering: Understand your asset and how you can manage to reduce LCOE and gain additional revenue from aging units or transform aging assets into new opportunities using the latest advancements.

More info: newenergyupdate.com

Airway Services recently announced the successful completion of its International Organization for Standardization (ISO) 9001:2015 audit for its corporate office in San Angelo, Texas.

The audit’s objective is to set international requirements for quality management systems.

The audit was performed by QAS International (QAS) on April 23, 2019 and Airway Services passed the most recent version of the audit. The internationally recognized ISO 9001 standard is applicable to any manufacturing or service industry.

“This certification confirms that our quality management system consistently provides outstanding services that meet or exceed our customers’ needs,” said Chase Hord, president and CEO of Airway Services. “Our team is incredibly proud to be recognized for our exemplary safety record and continuous improvements to our processes.”

The approved administration systems apply to the following:

• Blade repairs.
• Major component change-outs.
• Scheduled maintenances.
• QA/QC.
• Construction support.
• On numerous OEM and wind turbine models.

The newest version of the ISO 9001 certification contains key updates including an emphasis on risk-based thinking to enhance the application of the process approach, improved applicability for services and increased leadership requirements.

Micro Electro-Mechanical Systems (MEMS) have radically changed the return on investment model for turbine condition monitoring in the United States, helping wind-farm owners make significant OPEX savings.

By cutting the cost of condition monitoring systems (CMS), low-cost MEMS sensors have helped wind-farm owners to improve operational planning, cut unscheduled maintenance, and make OPEX savings of up to 8 percent each year, according to ONYX InSight.

First introduced by ONYX InSight in the wind-energy industry, MEMS sensors are used in CMS hardware to measure and report on vibration, temperature and oil condition in the drive train. With billions of MEMS sensors manufactured every year for use in equipment from mobile phones and pacemakers to automotive and aviation safety systems, the technology is low cost and highly reliable. MEMS equipped CMS have transformed the return on investment for turbine monitoring, particularly for owners of smaller or older models. Lowering the cost of CMS hardware has allowed owners to refine repair and maintenance strategies to realize greater OPEX savings.

“ONYX InSight’s ecoCMS monitoring equipment has convinced operators to look again at the financials of CMS,” said Ashley Crowther, Global VP of Sales at ONYX InSight. “Built with MEMS sensors and IOT technology rather than legacy technology such as piezoelectric accelerometers and rotating hard drives, which has historically been too expensive to justify, the disruptive hardware is transforming the CM market, making fleet owners sit up and take notice of the financial benefits predictive maintenance can bring.”

The latest CMS hardware collects a wide range of wind-turbine performance metrics, allowing wind-farm operators to identify and confirm faults much earlier and to act preventatively to save money on repairs and site visits. The low-cost technology can benefit older and smaller turbine models significantly, where condition-based maintenance strategies have long been seen as uneconomic. Across 500 CMS installations recently carried out by ONYX InSight for a multi-brand fleet, more than 50 turbines were identified as in need of repairs that had previously gone undiscovered by the operator.

“We live in a data rich world,” Crowther said. “And to realize the advantages of all that data, we must be able to capture, process, and interpret it effectively. By reducing the cost of data capture, recent advancements in CMS technology will help more wind-farm operators improve their operations and the profitability of the energy they produce.”

MORE INFO  www.onyxinsight.com

The Board of Directors of Siemens Gamesa Renewable Energy recently appointed Alfonso Faubel as the company’s new Onshore Business CEO, effective July 29.

“We are very pleased that Alfonso Faubel is joining the company and look forward to working with him,” said Markus Tacke, Siemens Gamesa CEO. “His broad industry experience will support the onshore business unit in addressing the challenging environment and continuing to deliver value to our customers.”

Faubel, who has 30 years’ experience in the automotive and energy industries, joins Siemens Gamesa from Sentient Science, where he was chief revenue officer of Energy and president of Europe. Sentient Science is a digital provider of materials-science-based life prediction and extension technology in the global wind energy market.

Previously, he worked for Alstom-General Electric as senior vice president, Global Sales & Marketing, based in Switzerland, and as senior vice president of the Alstom Wind Business, responsible for all activities related to Alstom’s onshore and offshore wind business.

Faubel began his career in international industrial sales in 1988 at Ferrex in New York City. He transferred to Accenture in 1990 and to Exen in Rome in 1993. In 1996, he joined Delphi, where he held a number of positions, until moving to Alstom in 2009.

He has a degree in Business Administration and Economics from Richmond, The American International University in London. He has worked in France, Germany, Switzerland, Italy, Spain, the U.S., and Mexico and speaks five languages.

“I am honored to join a global company of the caliber of Siemens Gamesa, which has such a clear commitment to delivering clean energy,” Faubel said. “Onshore wind will be a key element of that vision, and I am ready to take on the challenge and contribute to reinforcing our leading position, delivering projects that create lasting value for all our stakeholders.”

Faubel will replace Mark Albenze, who assumed this position on a temporary basis in addition to his role as CEO of the Service Business Unit. Albenze will now continue in his role as Service CEO.

MORE INFO  www.siemensgamesa.com

Shell Lubricants unveiled a new synthetic gearbox oil for wind turbines in the U.S. market at AWEA WINDPOWER 2019 in Houston, Texas.

With a 10-year warranty, Shell Omala S5 Wind can help to extend operational uptime and reduce unplanned breakdown by offering enhanced protection.

“70 percent of U.S. power businesses don’t realize that effective lubrication can lead to shorter periods of equipment downtime, having negative ramifications on the bottom-line,” said Warren Cates, senior research scientist at Shell. “Improving this aspect of equipment maintenance can make a significant impact on profitability. Shell’s range of wind turbine gearbox lubricants are designed specifically for exceptional oil life under various extreme conditions, as is demanded by America’s varied climate.”

Gearbox operations and management can be particularly demanding, often in remote locations and challenging weather conditions. They must withstand extremes of hot and/or cold climates, water, dust, and fluctuating wind speeds. These severe conditions and varying loads can cause damage to the gearboxes, including micro-pitting. If a gearbox failure occurs, it can cause significant equipment downtime, leading to monetary loss. With more than 56,600 wind turbines now active across 41 states, with a combined capacity of 97,223 MW, operational efficiency has never been of more importance in the US.

“Shell products have been specifically developed for gearboxes, bearings, and other moving parts of wind turbines,” Cates said. “These sector-specific applications have particular demands and can carry a high penalty for poor reliability, especially if they are in remote locations. The robust wear and corrosion protection Shell Omala S5 Wind offers can help extend the service life of the gearboxes, while innovative foam control and optimal filterability also help to reduce gear and bearing damage. The lubricant’s 10-year warranty gives operators and equipment manufacturers alike the peace of mind that fewer oil changes during a wind turbine’s lifecycle, and consistent protection against equipment wear, can be achieved.”

In addition to lubricant products, Shell Lubricants’ offering also includes on-site technical support and oil monitoring and reliability services to help operators run their plants as efficiently as possible.

MORE INFO  www.shell.us/business-customers/lubricants-for-business/products/shell-omala-gear-oils.html

The Energy Division of ACCIONA has developed a pioneering solution in the field of hybridization between wind and photovoltaic power. It consists of covering a wind-turbine tower with flexible organic panels to produce energy for the internal electricity consumption of the turbine.

The innovative project will allow the study of the performance of the organic panels — an emerging photovoltaic technology — and their application to improve wind-turbine efficiency.

The system has been installed in one of the turbines of the Breña Wind Farm in Albacete, Spain, which Acciona owns and operates. The turbine is an AW77/1500 of Nordex-Acciona Windpower technology, mounted on an 80-meter-high steel tower (hub height).

Installed on the tower are 120 solar panels facing southeast-southwest to capture the maximum of the sun’s rays throughout the day. They are distributed at eight different heights, occupying around 50 meters of the tower’s surface area. The photovoltaic modules, with an overall capacity of 9.36 kilowatts peak (kWp), are of Heliatek technology (HeliaSol 308-5986 model). They are only 1 millimeter thick, and each one has a surface area of 5,986 x 308 mm.

In contrast to the conventional technology used in the manufacture of photovoltaic models based on silicon, these organic panels use carbon as raw material and are characterized by their structural flexibility, which makes them adaptable to different surfaces. Other key features are lower maintenance costs, less energy consumption during manufacture, easier logistics, and the complete recycling of the materials used, although their efficiency is still below that of silicon modules.

“The hybridization project in Breña means the optimization of the use of space for renewable energy production, and it will enable us to test the efficiency of organic photovoltaics, a technology that we believe has one of the best improvement curves in terms of technological efficiency,” said Belén Linares, energy innovation director at Acciona. “That is why we have decided to pilot it.”

The immediate application of the Breña project is to produce part of the energy that the internal systems of the wind turbine need. When the turbine is running, some of the energy generated is used to power the auxiliary systems. In shutdown mode, certain systems need to continue functioning so they are fed from the grid, which means that the wind turbine is registering a net consumption of energy.

The new photovoltaic system with panels on the tower will be able to cover, completely or partially, the energy demand related to the operation of the wind turbine when there is solar radiation, or even — in a possible later phase of the project — when the sun is not shining. This would be done through a battery storage system, leading to an improvement in the net production sent to the grid.

The organic panels are connected to two inverters that convert DC into AC for later connection to the grid, which supplies the electrical equipment of the wind turbine.

The entire system is monitored with a view to evaluating it under real conditions, both from the point of view of energy production and degradation of the solar modules. Conceptually, it is a very innovative design in relation to previous experiences in wind power-photovoltaic hybridization, based on panels installed on the ground.

The idea is part of a wide-ranging innovation project driven by Acciona to study a number of emerging photovoltaic technologies, with the aim of pioneering the adoption of more efficient solutions in each case and consolidating its leadership as a PV developer. The company currently has more than 1,200 MWp in operation or under construction in different parts of the world.

MORE INFO  www.acciona.com

The American Wind Energy Association (AWEA) recently announced the creation of CLEANPOWER, a new exhibition hub that will bring together the utility-scale wind power, solar power, and energy-storage industries when it launches in Denver next May.

AWEA CEO Tom Kiernan broke the news during WINDPOWER 2019’s Welcome General Session.

“The future of American energy is clean and renewable,” he said. “We’re proud to announce CLEANPOWER, an exhibition hub designed from the ground up for the diverse clean energy industry and supply chain professionals who are building that future. We’ve welcomed multi-technology businesses at WINDPOWER for years. Now we’re throwing the doors open, creating an even bigger opportunity for companies in wind, solar, storage and other clean energy technologies to learn and do business across the utility-scale power sector.”

The WINDPOWER Conference and Exhibition will continue as the heart of CLEANPOWER, with the addition of exhibition space and conference programming for utility-scale solar, storage, and other clean energy technologies. By incorporating these technologies into a single exhibition hub, CLEANPOWER will create efficiencies for exhibitors and attendees with multi-technology business models. Pure-play businesses will benefit from increased show traffic and opportunities to build beneficial partnerships across the cleantech industry.

CLEANPOWER marks the latest evolution of AWEA’s conferences and exhibitions, which have existed in one form or another since 1974. In recent years, the content of WINDPOWER and AWEA’s other conferences have evolved in step with trends in the power sector toward multi-technology businesses and projects. Already, nearly half of WINDPOWER attendees and exhibitors have multi-technology business units.

WINDPOWER 2019’s theme, WIND+, emphasized how wind, solar, and storage can work together to build a cleaner, stronger power grid for the future, and energy storage played a big role at WINDPOWER 2018 with remarks from Energy Storage Association CEO Kelly Speakes-Backman. Last year, AWEA also launched the Clean Energy Executive Summit as an outgrowth of the longstanding AWEA Fall Symposium.

“The CLEANPOWER hub will bring in new attendees and exhibitors from across the spectrum of utility-scale renewable industries,” said Jana Adams, senior vice president, Member Value and Experience, AWEA. “We look forward to announcing more details about CLEANPOWER 2020 in the coming weeks.”

Partnerships with leaders in the solar and storage industries will be essential to the success of CLEANPOWER. AWEA will announce formal partnerships in the lead up to the first CLEANPOWER expo in 2020.

More info: awea.org

The Timken Company, a world leader in engineered bearings and power transmission products, has built a powerful portfolio of solutions aimed at helping wind-turbine operators and manufacturers improve the reliability of their assets and move the industry forward.

At American Wind Energy Association (AWEA) WINDPOWER 2019, May 20–23 at the George R. Brown Convention Center in Houston, Texas, attendees can tap into the power behind the power at Booth #1221. Timken wind experts will be there to discuss the latest technologies for improving wind-turbine performance while minimizing costly, unanticipated repairs that continue to affect operators in all parts of the world.

“Timken’s extensive testing and development has pioneered stronger solutions for the wind industry,” said Rick Brooks, wind-energy sales manager for Timken. “Our commitment to advancing wind energy has resulted in a broad array of power transmission products that have shown to reduce spending and drive down cost per kilowatt hour for our customers. We focus on the complete project life cycle to increase annual energy production at wind farms around the world.”

AWEA attendees can visit the Timken booth to learn about innovations for improving the life cycles of critical components in wind turbines, including:

Superior Coupling Technology: Timken imagined a better way to transmit torque between the gearbox and generator while protecting attached components from overload and stray currents. Next-generation Lovejoy® couplings, bolted to an AeroTorque WindTC™ torque control, are now available for 2-MW-plus turbines. These innovative couplings integrate directly with the generator hub, include an anti-flail feature and use a composite fiberglass spacer for weight and cost efficiencies. A standard torque limiter offers protection against peak loads, primarily protecting the coupling from damage during torque spikes, while an AeroTorque-enabled coupling provides added advantages such as reducing peak torque by up to 40 percent and reducing torque oscillations up to 70 percent to extend gearbox life. Together, Lovejoy and AeroTorque are part of a stronger technical solution for making reliable gearbox-to-generator connections.

Field-Proven, Wear-Resistant Mainshaft Bearings: Recently, Timken analyzed a mainshaft spherical roller bearing that had seen seven years of demanding service. The bearing, which had been removed due to nonrelated issues, was one of the first to use a proprietary surface coating developed by Timken that greatly minimizes steel-to-steel contact. Examination revealed little-to-no adhesive wear and no evidence of the bearing entering the next stages of damage. Timken estimates the bearing would have operated 15 to 20 years, giving wind-energy producers a new option to consider when it comes to avoiding the pain of costly down-tower repairs.

Case-Carburized Bearings to Resist Cracking: White-etching cracks (WECs) remain a leading cause of gearbox bearing failure. Timken offers carburized bearings that can better withstand WEC propagation compared to standard through-hardened bearings, which can result in more than double the product life in demanding applications.

Timken also provides wind-farm operators the support they need to take greater control of their operation. In an industry that sees new challenges every day, H&N Wind Power Systems by Timken can keep you online from routine inspections to unexpected overhauls. The expert team at H&N has solved problems safely, professionally and efficiently since 2002, offering a full suite of up-tower services, including gearbox oil changes, bearing replacements, shaft repair, and carbon brush replacements, as well as large corrective work including complete generator rebuilds.

It takes stronger products and people to reach new heights in wind energy, and at AWEA 2019, attendees can tap into both by getting to know Timken and its complete inventory of solutions for most turbine models. Onshore and offshore, Timken applies its expertise to the smallest and largest platforms, giving you access to a powerful combination of OEM-certified techs, experienced engineering teams and bearing and power transmission experts who can generate a positive ROI for your operation.

More info: timken.com/wind-energy

EdgeData, LLC recently added Lorie Hines as director of operations. In this role, Hines will manage operations of BladeEdge, EdgeData’s artificial intelligence (AI)-driven image analysis engine for the wind industry.

“Lorie brings valuable insight and experience to the BladeEdge team during a time of rapid growth,” said Chris Shroyer, president and co-founder of EdgeData. “She possesses a combination of technical knowledge and project management expertise that will enable BladeEdge’s capacity for growth. We’re delighted to add her capabilities to our leadership team.”

As director of operations, Hines will draw on her experience in technology, risk management, and problem solving to oversee the technical architecture that supports all BladeEdge applications. BladeEdge is powered by EDDIE, the company’s AI analytics engine designed specifically for the wind industry. EDDIE enables automated condition assessment of blade inspection images, data analytic processing, and report generation.

The BladeEdge application suite includes the BladeEdge Controller Application (BE-APPSM), the BladeEdge Capture Assurance Tool (BE-CATSM), BladeEdge Analytics, and the BladeEdge User Dashboard. Together, these applications streamline wind-farm management, from data capture to data management, and ultimately artificial intelligence and analytics.

Hines also will manage the BladeEdge application development team to ensure the regular and timely release and integration of innovative operations solutions and will work with BladeEdge’s strategic partners in marketing, security, and more.

Hines has led a successful career in the technology industry, most recently serving as operations and systems manager/project manager at RSM US LLP, a leading provider of audit, tax, and consulting services in Cedar Rapids, Iowa. At RSM, Hines developed a successful strategy for deploying an internal client engagement software tool for a consulting firm spanning several industries. Her previous experience includes leading a team of 12-plus business analysts at Aegon Asset Management as a business analyst and quality assurance manager and deploying a company-wide information security standards and requirements compliance program as the information security officer at TransAmerica.

More info  bladeedge.net