No.
2
2012
The magazine for success wiTh wind
www.eno-energy.com
From Study to Design Presenting the new WTG e.n.o. 114
e.n.o.vation From Study to Design
The Grid Connection
Running Smoothly With The Right Logistics Chain
2
Contents
In this issue
3 4 6 8 10 11 12 13 14 15
Letter from the Editors Wind Power: e.n.o.vation From Study to Design Grid: The Grid Connection From planning to supply Partner: Balmer – From Component Production to Wind Farm An important partner of e.n.o. energy Partner: Three wind turbines for the TOBI group Into the future with more renewable energy by e.n.o. energy Plant Certification: WIND-certification GmbH Certification body for electrical properties Financing: From Niche to Mainstream Financing a new generation of wind power plants Research and Development: The e.n.o. Research Department Innovative concepts for higher profitability Events: e.n.o. energy supports Innovative Trade Fair Concept News: Update on e.n.o. Technology Service in Saxony Quality-conscious and reliable service from e.n.o. energy
Imprint Author e.n.o. energy gmbh | am strande 2 e | 18055 rostock | germany phone: +49 (0)381 . 20 37 92-0 | fax: +49 (0)381 . 20 37 92-101 info@eno-energy.com | www.eno-energy.com Editing and Layout Kathleen zander (Kza) Layout werK3.de Printing stadtdruckerei weidner Paper satimat green 60 % recycling, 40 % fsc Copyright all contributions published in e.n.o. magazine (copy, photos, graphics, tables, logos) are protected by copyright. reprinting, inclusion in databases, use in online services or internet pages and reproduction are only permitted with the prior written permission by e.n.o. energy gmbh. | despite careful inspection of the publication by the editorial team, e.n.o. can accept no liability for its accuracy. articles appearing under an author’s name or initials do not necessarily reflect the opinion of e.n.o. energy gmbh and the firm accepts no liability for articles created by external authors. Published sporadically Copies by phone: +49 (0)381 . 20 37 92-0 or at info@eno-energy.com Title photo e.n.o. 114 gearbox
The magazine for success wiTh wind
Letter from the Editors
Dear Readers, This issue of e.n.o. magazine is packed with information about recent company developments. The emphasis lies on new wind turbines we'll be showcasing at the Husum trade fair this coming September. But we will also discuss the group’s positive growth trends and introduce the new station in Leipzig. As EEG bonus cutbacks loom for the solar power industry and grid expansion for offshore farms has remained sluggish, there has been increased demand for onshore wind energy. e.n.o. energy is well prepared for the situation with expert services covering the entire economic chain: turbine manufacture, wind farm operation, maintenance and quality control. As an operator and service provider our company covers the entire value chain. Over the next few years, e.n.o. energy plans to expand in Germany and abroad. While maintaining its long-term commitment to developing a new generation of wind turbines and enlarging its research department, e.n.o. will also seek to offer new services in financing, wind farms and traditional corporate communication. Sound interesting? Then wait until you read this edition of e.n.o. magazine. Join us as we pave the way for the future of onshore wind energy!
The e.n.o. energy team
Success with wind.
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Wind turbines
The magazine for success wiTh wind
e.n.o.vation From Study to Design How can wind power plants be made even better? e.n.o. energy has conducted extensive studies examining the essential requirements for wind turbines in the three-megawatt segment. These studies looked at all relevant aspects of wind energy use with multimegawatt machines. With space becoming more scarce, e.n.o. energy examined basic planning requirements with respect to sustainable wind energy utilization for market environments outside the EEG. The studies addressed questions about service, serviceability, efficiency and long-term component reliability. Lastly,
e.n.o. 114
e.n.o. energy analyzed national and international requirements for grid connections with regard to future demand. In all these investigations, e.n.o. energy had access to an excellent external network of advisers, insurance companies and suppliers. But its principle source came from within its own house – from the many years of knowhow in areas of wind energy utilization. The company’s specialist departments took part in the conceptual design. Engineers from e.n.o. energy systems GmbH contributed all the necessary information on wind farm
planning, financing, management, production, service and remote data monitoring. From it they designed a conceptual study for the future generation of machines. This study was then tailored to current and future market demands by the sales staff. The result was the idea for the e.n.o. 114 – a platform base with a 114 m rotor diameter and a 3.5 MW nominal rating. In the last step, developers entered the device’s complex requirements into the system specifications. Nearly every business sectors requires a platform strategy. But no single turbine
Wind turbines
can meet the requirements – regional planning, nature conservation, economic efficiency – of every conceivable location. That’s why e.n.o. energy developed the e.n.o. platform, with the flexible e.n.o. 114 as its base. The e.n.o. 114 is rated at approximately 340 W/m² – equivalent to a classic design in accordance with IEC II – and can be used in wind speeds averaging up to of 8.5 m/s. The e.n.o. 114 was also built to the standards of the German Institute for Civil Engineering's DIBt WZ III, so it can be used for windier regions of Germany, sustaining average wind speeds just shy of 8.8 m/s at a hub height of 142 metres. During operation, the targeted sound level of the e.n.o. 114 should not exceed 105 dBA. For the time being, three different e.n.o. 114 tower variations have been developed so that a wide range of different location requirements can be covered. As a re sult, the e.n.o. 114 can serve hub heights of around 9 m, 122 m and 142 m, equivalent to a total height of approximately 150 m, 180 m and 200 m, respectively. The increasing scarcity of suitable areas for wind energy use has been taken into account in the overall design, with a special design for increased turbulence resistance. In particular, the rotors, support structure and drive train have been optimized for increased resistance to alternating loads. Consequently, the e.n.o. 114 is particularly suitable for demanding sites with a high packing density and high ambient turbulence. This is made possible by the rotor blade's special aerodynamics from the e.n.o. blade® family combined with the robust e.n.o. live.train® concept, a com bination of fourpoint support of the rotor with a restraintfree gearbox mount and gearrelieving torque control. In con trast to the most common type of three point support, the gearbox eliminates the torque caused by rotor load and supporting forces. These have a negative impact on the service life of the gearbox, especially given turbulence caused by wind farms and large rotor diameters. Thanks to the
restraintfree hydraulic sup port of the gearbox, the gearbox input remains free of hazardous torque even in extreme situations. As a result, the machine endures higher ambient turbulence with increased mechanical reliability, al lowing a significantly higher density of wind farm placement options with better-than-average efficiency.
The proven inverter system for grid connection is back in use in this machine. It fully decouples the six individual power converter lines from each other, thereby allowing the engine to continue operating even should a power converter fail. The inverters are highly reliable and offset potential downtimes caused by inverter failures.
The e.n.o. 114 brings a tried and tested combination of a slip ringfree, electrically excited synchronous generator and full power converter technology for grid connections. The generous and uncompromising settings of the electrical system permit a cosφ of at least 0.9, even at 10 % undervoltage or overvoltage. When combined with the standard e.n.o. iq control®, the e.n.o. systems makes additional compensation systems in the wind park superfluous. This is due to the wind farm controller, the e.n.o. gridmaster®, which can intelligently regulate the reactive power required at the grid connection point without being tied to performance, even when winds are completely calm. Coupled with the excellent error compensation mechanisms of the grid (low voltage ride through, high voltage ride through, grid support at high or low voltage drop), the engine is well prepared for current and future grid connection requirements, such as Germany’s system services regulations for wind turbines (SDLWindV).
The control system is based on e.n.o. energy’s tested control technology, but expanded using the novel e.n.o. ops control®. The new control mechanisms optimize yield in the partial load range, reducing component loads in the full load range for ideal grid support. The technology also uses advanced communication routines for monitoring machinery and wind farms that facilitate a connection to existing SCADA systems and transmit live data for direct sales purposes.
Modern variations of the highly reliable e.n.o. 82 and e.n.o. 92 were adopted and expanded. The focus of the basic design philosophy lies in reducing essentials down to a minimum, since what isn't there can’t break. Minimalism for all things superfluous and redundancy for all things indispensable maximizes reliability. For example, the complex and faultprone water cooling of components in the nacelle was eliminated. Now the generator and gearbox are cooled separately using the air inside the nacelle – a robust technique that resists corrosion. The active cooling components for both generator and gearbox have builtin redundancy: even if an oil pump or generator fan fails, the engine can still operate at 50 % capacity or more.
The next generation of e.n.o. gridmaster® was created as an overarching control unit for regulating the entire wind farm. In addition to novel active and reactive power control (e.n.o. iq control®), it also contains an advanced interface to network operators and SCADA databases, meeting SDLWindV requirements as well as technical connection requirements from energy suppliers. The e.n.o. gridmaster® technology can also be used with thirdparty machines, regardless of manufacturer or production unit. In the course of recent developments, e.n.o. energy was not only able to create a new wind turbine; it also engineered new systems for the future and submitted the designs for patent. e.n.o. energy's engineering team has successfully risen to all the challenges from designing a technically advanced wind turbine in the three megawatt segment. The company’s innovation produced a series of patented new developments epitomized by the e.n.o. 114. At this point, all the structural and major components have been completed, and assembly of the first machine is eagerly awaited. The design’s simple and reliable assembly will soon be put to the test.
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Grid
The magazine for success wiTh wind
The Grid Connection From planning to supply It is inconceivable nowadays to think of power supply without a share of renewable energy. And this share will continue to grow. In 2011, it already constituted about 20 % of Germany's gross power generation, almost half of this provided by wind turbines.
Particularly crucial factors in this process are the location of the proposed wind farm, the number of plants proposed, the types of plants desired, the plant’s performance and the plant’s reactive power capability. An initial assessment of the local grid situation can be made based on site location and the proposed feedin power of the wind farm. Together these allow the appropriate voltage level to be
determined. e.n.o. obtains grid voltage levels from grid data disclosed by utility companies. Once grid data is available, the grid calculation software DIgSILENT PowerFactory creates a grid model (see grid example of a wind farm). Using this diagram and the criteria for grid connection stipulated by the guidelines of the German Federal Association of Energy and Water Management (BDEW) for medium voltage (Transmission Code 2007), we can determine a technically and economically advantageous grid connection point for the wind farm.
DIgSILENT
At the same time, however, there are many obstacles to overcome. One of these is the high regional load levels of power grids. The increased regulatory measures in grid security management and the increased frequency of reductions for feed-in power make grid connection a significant factor when planning a wind farm.
The aim of grid connection planning is to create optimally designed equipment (e.g. cables, transformers) and determine the best grid connection point for energy feed-in.
Externes Netz -5,75 .. -0,12 .. -1,00
20-kV-SS UW
-5,753 -0,123 51,912 -1,000
NVP - WEA03
Ltg 1a
5,891 0,013 51,912 1,000
0,000 -0,109 0,960 0,000
Ltg 1b
20,484 1,024 0,828 102,421
St. 1
0,000 -0,065 0,577 0,000
Ltg 2
20,485 1,024 0,824 102,426
-0,000 0,065 0,960 -0,000
St. 2
NVP:
1,000
AL01
3x1x150 mm2 NA2XS2Y 345 m
0,000 0,000
Ltg. WEA03 - WEA02
AL02
MS-SS WEA03
5,943 -0,252 39,675 0,999
-3,961 0,160 34,626 -0,999
20,659 1,033 1,297 103,296
0,000 -0,058 0,514 0,000
-1,982 0,091 76,941 -0,999
-0,000 0,042 0,514 -0,000
NS-SS WEA03
0,000 -0,042 0,374 0,000
0,718 1,040 -146,183 104,002 0,000 0,000
Ltg 4
20,485 1,024 0,823 102,427
St. 4
-0,000 0,018 0,374 -0,000
SSt
-0,000 0,009 0,156 -0,000
20,486 1,024 0,822 102,428
Lastfluss Symmetrisch Knoten Leiter-Leiter Spannung, Betrag [kV] Spannung, Betrag [p.u.] Spannung, Winkel [deg] Spannung, Betrag [%]
AL03
Ltg 6 0,000 -0,009 0,078 0,000
St. 5
-0,000 0,000 0,078 -0,049
3,964 -0,171 34,626 0,999
MS-SS WEA02 20,673 1,034 1,321 103,363
-1,982 0,091 76,892 -0,999
2,000 0,001 76,941 1,000
1,000
2,000 0,001 100,025 1,000
EB03
WEA 03
NS-SS WEA02 0,718 1,041 -146,162 104,068 0,000 0,000
P = 2 MW
2,001 0,001 76,892 1,000
1,000
2,001 0,001 100,026 1,000
EB02
WEA 02
G ~ 0,000 -0,018 0,156 0,000
Ltg 5
20,486 1,024 0,822 102,428
Leitung
Tr WEA03
St. 3
3x1x150 mm2 NA2XS2Y 345 m
1,000
Ltg 3
20,485 1,024 0,823 102,427
-0,000 0,058 0,577 -0,000
0,000 0,000
-1,982 0,080 17,312 -0,999
1,982 -0,091 17,312 0,999
MS-SS WEA01 20,679 1,034 1,333 103,396
-1,982 0,091 76,868 -0,999
Tr WEA01
NVP zum NVP
3x1x240 mm2 NA2XS2Y 4000 m
-5,891 0,096 39,675 -1,000
Tr WEA02
20,000 1,000 0,000 100,000
NS-SS WEA01 0,718 1,041 -146,152 104,101 0,000 0,000
2,001 0,001 76,868 1,000
1,000
2,001 0,001 100,026 1,000
EB01
WEA 01
G ~
G ~
P = 2 MW
P = 2 MW
0,000 0,000 1,000
20,486 1,024 0,822 102,428
Zweigelemente Wirkleistung [MW]
Externes Netz Wirkleistung [MW]
Blindleistung [Mvar] Blindleistung [Mvar] Auslastung [%] Leistungsfaktor [-] Leistungsfaktor [-]
Single line diagram with Example 3 WTG e.n.o. 82
e.n.o. PowerFactory 14.1.3
Übersichtsschaltbild Windpark 3 WEAs vom Typ e.n.o. 82 mit je 2MW LF 100%
Projekt: Grafik: Netz Datum: 10.04.2012 Anhang
Grid
Wind farm Rüting – e.n.o. energy
There are a number of criteria for determining the best grid connection point, including grid connection costs, operating, voltage changes in the grid, static reactive power capacity and circuit feedback such as second harmonics and interharmonics. The e.n.o. wind turbine design takes connection point requirements into consideration so that all e.n.o. wind turbines have a high reactive power control range, even at undervoltage or overvoltage. As a result, projects with e.n.o. turbines rarely need spaceconsuming and costly compensation systems. When determining grid connection points, e.n.o. energy considers needed grid expansion, distribution of feedin power to different grid connection points (socalled grid connection splitting) and opportunities for cooperation with other operating organizations.
e.n.o. energy then coordinates this information with the utility company that authorizes the grid connection point. This also contains details on executing the grid connection. If approval has already been issued in accordance with the Federal Immission Control Act (BundesImmisionsschutzgesetz = BlmSchG), then the feedin capacity at the grid connection point will be reserved. Once the final grid connection point has been established, we begin a detailed design of the internal project. This includes creating electrical single line diagrams, calculating electrical losses, final design of operating resources, plans for customer transfer stations or substations and complying with the requirements of Germany’s SDLWindV (system services regulations for wind energy turbines). A key component in complying with the SDLWindV requirements is e.n.o. gridmaster®, the farm management system
developed by e.n.o. This regulates the behaviour of e.n.o. wind farms and mixed farms following specifications provided by the respective utility company in accordance with SDLWindV. As part of the review process for SDLWindV requirements, we supervise turbine certification while an accredited certification body assesses the electrical behaviour of the wind farm at the grid connection point and issue certificates of conformity to those that pass. e.n.o. energy has expertise in the field of grid connection design and its own specially developed technology such as the e.n.o. gridmaster®. This knowhow allows e.n.o. energy to create the optimal grid connection point after BlmSch approval, while its systematic design assists in meeting grid connection requirements. e.n.o. energy thus supervises the project right up to the feedin of the generated power.
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Partner
The magazine for success wiTh wind
Balmer - From Component Production to Wind Farm An important partner of e.n.o. energy systems Balmer Spezialtransporte is an important partner of e.n.o. energy systems in the transport and installation of wind turbines. Its work starts with an inspection of the planned site and a preliminary analysis. Logistics specialists then check access to the site in advance and work with experts from the transport, crane installation and fitting teams to determine what’s needed. This ensures the best possible comprehensive solutions,
Spedition Balmer
whether for single turbines or for entire wind farms. Years of experience in transport, crane supply and installation services are behind the Holthusen-based company's success. Its committed installation engineers, well-trained drivers and latest technology benefit all its clients, including e.n.o. energy systems. Close cooperation at every step along the way ensures
a smooth and efficient process from planning to organization to installation. Each project poses a new challenge – which the Balmer team rises to meet. “We take quality extremely seriously”, says managing director Eckart Balmer. “That is why we have had many of our processes certified; we have, for example, passed the DIN ISO 9001 quality management review and hold an SCC secu-
Partner
rity certificate. This demonstrates to our customers that we are a strong and reliable partner”, he adds, setting out the company's quality standards. Clients are kept up-to-date with progress in all areas of construction, ensuring that rapid decisions are possible where needed. This saves money as well as time. Thorough preparation is essential if a project is to run smoothly. Balmer assesses the entire route – from turbine component production to installation – so that the necessary traffic management measures can be coordinated and the delivery and installation sequence defined in advance. Logistics experts also provide monitoring and support for work on access roads and crane installation sites.
Several features need to be taken into account to ensure that the transport vehicles carrying heavy loads are not hampered from arriving and departing. Next to vehicle length, the weather conditions and site features are primary concerns. Furthermore, the vehicles must be able to carry the axle and wheel load and the crane area needs to be suitable for the bearing load. A detailed needs assessment for the construction site is no les important. This includes material, crew, sanitary containers, construction vehicles and review of the necessary auxiliary means for assembly. Before assembly start, all relevant approvals for the turbine components and the crane must be obtained. The site coordinator is on site
from the start, organising the positioning of the assembly crane and leading assembly preparations. Delivery of individual components follows the order of their assembly. Direct and personal contact with the e.n.o. energy site management means that small problems can be discussed and corrected quickly without disrupting the schedule. This ensures that each individual turbine and cabling set can be completed on time. After work is over, the construction site is cleared and cleaned. Through measures like these, Balmer Spedition and LKWService GmbH give customers quality service – from start to finish.
e.n.o. energy site
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Partner
The magazine for success wiTh wind
Three wind turbines for the TOBI group Into the future with more renewable energy by e.n.o. energy The move towards renewable energy has increased competition on Germany’s energy production market. The TOBI group is a union of communallyminded energy-supply companies based mainly in North Rhine – Westphalia and Lower Saxony. The common goal of the group is to share in power production capacity and to operate independently. In this way, the group wishes to reduce the virtual oligopoly held by the four key players on the market.
In order to continue growing in the wind energy market, the TOBI Windenergie GmbH & Co. KG group has been relying on e.n.o. energy for the past year as a wind turbine supplier. The Mecklenburgbased company has been able to achieve market penetration in the face of a variety of competitors thanks to its technology. It collaborates with the project planners Jesaitis & Graba Windkraft OHG from Eckernförde, the e.n.o. energy group as a technical supplier and TOBI Wind as part of
The following partners of TOBI Management GmbH founded General Partner GmbH • Bad Honnef AG • Bochoiter Energie- und Wasserversorgung GmbH • EVl Energieversorgung Hildesheim GmbH & Co. KG • GWS Stadtwerke Hameln GmbH • Stadtwerke Bad Pyrmont Beteiligungs- und Bäder GmbH • Stadtwerke Bad Salzuflen GmbH • Stadtwerke Iserlohn GmbH
the TOBIManagement GmbH for wind turbine operation. Now the group plans to expand its activities in the wind energy field. The three e.n.o. wind turbines are located in the municipality of GroßTrebbow, near Schwerin. TOBI signed the contract of sale with e.n.o. energy on 23 December 2011. Each of the turbines has an electrical rating of 2.05 MW, with annual energy production around 1.7 million kWh. This equals the annual electricity consumption of some 3,100 households. “We plan to open up further locations in 2012, including some in the Bocholt area”, says Managing Director Werner Vogel. The aim of the local municipal group is to operate wind turbines with an electrical rating of 6070 MW and an energy production of 150 million kWh/ year. The managing director explains, “We are actively pursuing the path of alternative energy for the utility services involved. TOBI Windenergie bought existing turbines with an output of 20 MW in North Rhine – Westphalia, Rhineland Palatinate and Schleswig Holstein in 2009. Currently, the electricity production of these turbines is at around 40 million kWh. The cooperation agreements and contracts were able to be quickly and effortlessly finalized, to the satisfaction of all parties involved.”
• Stadtwerke Menden GmbH • Gemeindewerke Steinhagen GmbH • Stadtwerke Böhmetal GmbH • Stadtwerke Peine GmbH • Stadtwerke Wunstorf GmbH & Co. KG • Stadt- und Uberlandwerke GmbH Lubben • Wirtschaftsbetriebe Neustadt am Rubenberge GmbH • Stadtwerke Detmold GmbH
The TOBI group has estimated that total output requirements for regenerative wind power to be 66.6 MW. Current output is 26.15 MW. This output is supervised by the 8 municipal utility companies that make up TOBI Windenergie.
Plant certification
WIND-certification GmbH Certification body for electrical properties WINDcertification GmbH is an accredited certification body meeting EN 45011 standards. It certifies electrical properties of generating units (wind turbines, PV inverters), generating installations (wind farms, solar parks etc.) and components (controllers etc.). The WINDcertification GmbH covers the entire field of certification activities for grid connection of generating installations and units. The WINDcertification GmbH is a spinoff of WINDconsult GmbH (accredited testing and calibration laboratory) providing independent certification services. The experts from WINDcertification GmbH draw on years of experience in grid compatibility measurements, electrical property evaluation and network simulations of wind turbines and wind farms. In a variety of working groups such as the technical committee for electrical properties, WIND certification experts are drafting the TR3, TR4 and TR8 technical guidelines. These are used to lay down procedures for prototype measurement and certification of units (e.g. wind turbines) and installations (e.g. wind farms). WINDcertification GmbH actively participates in the expert panel for system services development (SDLWindV) and are thus directly involved in the creation of the 2009 System Services Ordinance. The experts at WIND-certification are currently editing drafts on the TR3, TR4 and TR8 of the FGW, the IEC 6140027 and the ENTSOE network code. The comprehensive work on these guidelines guarantees clients a high level of expertise. WINDcertification GmbH is recommended as an approved certification body by the Network Technology and Operation Forum (Forum Netztechnik/Netzbetrieb = FNN) and the
German Federal Association of Energy and Water Management (Bundesverband der Energie und Wasserwirtschaft = BDEW). The list of recommended certifiers is published by the Federation of German Windpower and other Renewable Energies (FGW).
Matthias Hickisch, Engineer WIND-certification GmbH
So far, the company has issued over 70 installation certificates and expert reports for a total of more than 650 MW of installed capacity and 310 generating units. Three procedures are currently in place for unit certification at WINDcertification GmbH. These include the newly developed e.n.o. 82 and e.n.o. 92 type wind energy systems from e.n.o. energy systems GmbH. The German Renewable Energy Sources Act 2012 (EEG) and the current grid connection guidelines stipulate submission of unit and installation certificates for generating installations > 1 MVA as a prerequisite for grid connection. Hence, installation certificates for newly planned wind turbines must be submitted to the utility company prior to final grid connection approval. Operators should consider the deadlines set by the utility company, eplanners and certification bodies. After the startup of the wind farm, proof of conformity must be submitted to the local utility company. This ensures that planning documents in the installation certificates have been implemented. Installations that began operation between 01.01.2002 and 31.12.2008 and that possess an installation certificate are also entitled to the SDL bonus provided for by EEG 2012. The WINDcertification GmbH guarantees its customers a processing time of no more than four weeks after all documents have been submitted.
• Studied electrical engineering / energy supply • 1998 to 2011 – test engineer for grid compatibility and load curves at WIND-consult GmbH • 2001 to 2011 – deputy technical director at WIND-consult GmbH • Since 2011 – managing director and head of certification at WINDcertification GmbHy of the WINDcertification GmbH
Contact WIND-certification GmbH Reuterstraße 10 D-18211 Bargeshagen Phone +49 (0)38203 7315-90 Fax +49 (0)38203 7315-91 www.wind-certification.de info@wind-certification.de
Please speak with us during the early planning phase so that our team can assist you in certifying your plant for rapid approval. www.wind-certification.de
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Financing
The magazine for success wiTh wind
From Niche to Mainstream Financing a new generation of wind turbines Is space still needed for new manufacturers alongside the established global players in the wind industry? If yes, how much space is needed and who will offer it? Competition is good for business, after all. New businesses bring new approaches, implement new ideas and help creative industries evolve. Over the past few years, the e.n.o. energy group has significantly expanded the base of wind farm developers and builders. In doing so, it’s taken the courageous step of paving the way for wind turbine manufacturers. The Investkredit Bank AG is headquartered in Vienna and has been part of the Austrian Volksbanken group since 2006. A specialist in longterm financing, its focus for at least the past ten years has been on financing projects in the field of renewable energy, principally in the wind energy industry. During this time it got to know e.n.o. energy as a project developer. Having since evolved in their market segments, the companies have now paired up again. Investkredit was largely instrumental in cofinancing the development of the Austrian wind energy era and has become active in the Euro pean lead market in the wake of EEG. It was willing take these risks because it could rely on the expertise of skilled technicians from a special department in the bank, created when longterm maintenance contracts had yet to represent the market standard. Building on the technical instruments of our specialists and on a sophisticated wind database, Investkre dit has been able to accumulate knowhow over time that, while not making wind assessments obsolete, provides them a sense for which sites and projects are good and which are less so.
The contact between Investkredit and e.n.o. is to be increased in the area of project financing. Turbine types e.n.o. 82 and e.n.o. 92 were built and tested in various wind farms and the company also has a production facility and project pipeline that it can expand.
The Austrian Volksbanken-AG (ÖVAG) is the leading institute in the Volksbank sector in Austria. The Investkredit Bank AG, headquartered in Vienna, controls the divisions Corporate and Real Estate at the Volksbank group.
In the postLehmann era, financing new projects requires more than reasonable debtequity ratio and professional wind assessment. The “bankability” of the new e.n.o. wind farm was established with data searches and plausibility checks, in discussions and impressions on the company headquarters in Rostock, in teleconference calls on technical issues and finances and in talks with the maintenance crew on a wind turbine tower. The discussion also showed how dedicated the e.n.o. team was, committed to producing something good, reliable and lasting, based on sound corporate figures and a careful approach. The youngest generation of turbines with synchronous generator and full power converter, which meet the more stringent grid requirements of SDL-WindV/2011 and includes the e.n.o. 114, point in this direction. Although the lack of a generating unit (EZE = Erzeugungseinheit) in the financing of wind turbines presents an atypical yet significant risk, bankability is still very likely given confidence in the group’s performance capability, expertise and flexibility. Despite recent EEG changes (or maybe because of them), e.n.o. energy is aware of current opportunities in the German wind power market and has made continued business growth its goal. We are convinced that previous experiences will help the company continue to find the proper balance between expansion and stability. We are happy to be the bank “on board” as we review and pursue these opportunities.
Particularly in financing renewable energy, the Volksbank AG – Investkredit draws on long-standing and proven experience as it assists clients at every project phase, all the way from planning to construction and operation.
Contact Investkredit Bank AG Kolingasse 14-16, A-1090 Vienna Contact: Dr. Johannes Seiringer Department Director Renewable Energies Phone: +43 (0) 50 4004 4263 johannes.seiringer@investkredit.at Mag. Wolfgang Payer, Prokurist Renewable Energies Phone: +43 (0) 50 4004 4262 wolfgang.payer@investkredit.at
Research and Development
The e.n.o. Research Department Innovative concepts for higher profitability Within the e.n.o. energy group, growth in development and research has led to the formation of its own team. Created in March of this year, the e.n.o. energy research team studies technological developments for future plants, use of new materials, inhouse production questions, patent searches and other issues. The team is led by Dr. Martin HĂśrenz, who relocated from the aerospace engineering sector at the Technical University of Dresden. The aim of the research team is to identify and safeguard USPs. In order to do this, the team examines innovative concepts and principles for their applicability in future plants, prepares patent applications and supervises current patent applications.
The profitability of wind farms is another focus of research for e.n.o. energy systems. The development of e.n.o. 114 has been accompanied by a paradigm shift: classic plant designs seeking to maximize the yield of individual turbines are now out of date. The new trend is optimising the profitability of wind farms with low wind resources. The pioneering design philosophy ofe.n.o. 114 is to give greater consideration to the interaction between turbines in the runup and followup. Behind it lies a patentpending principle: designing turbines for high turbulence while reducing followup turbulence. This minimizes the distance between individual turbines and, in so doing, increases area efficiency and the number of turbines per unit area.
But the main focus of e.n.o. energy's research and development work lies in cooperation with well-known companies and universities. e.n.o. energy uses a principle from companies in the automotive industry that have transformed their research and development departments into more efficient teams, enabling focus on core abilities and better utilization of complex supply industry knowhow. Networking new developments, e.n.o. energy can put a small team into action that is both small (compared with other plant manufacturers) and effective. The pitch system developed with Bosch Rexroth AG for the e.n.o. 82 and e.n.o. 92 turbines are an example of this kind of successful cooperation. A further joint project was conducted on the applicability of the control system developed by Rexroth known as Active Torque Control, which reduces drive train loads. For existing turbines, the inhouse solution is now preferred, and exhibits excellent performance. More collaborations are in the pipeline, including projects with research institutions and universities.
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Representation of a potential wind farm with e.n.o.
The e.n.o. 114 is optimized for reduced loads through profile geometries for new rotor blades and a customized rotor speed developed in complex wind tunnel trials. It is characterited by low resistance coefficients over a wide positioning range, drastically reducing rotor thrust and wake turbulence. Development of rotor blade profiles and the calculation of structural load was conducted in close cooperation with an engineering firm and a university experienced in these areas. Through this work, e.n.o. is setting new standards for yield and efficiency, especially under turbulent conditions in existing wind farms or in forest areas – exactly what our customers have asked us for.
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Events
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The magazine for success wiTh wind
e.n.o. energy booth HusumWind 2010
e.n.o. energy Supports Innovative Concept for Trade Fair Following long discussions about the concept and location for Wind, a leading trade fair for wind power, e.n.o. energy began to rethink its own trade fair planning for 2014. A member of the Association of German Engineering Federation (Verband Deutscher Maschinen und Anlagenbau = VDMA), the group plans on taking part in the Hamburg 2014 fair. e.n.o. sees itself as a future exhibitor for Hannover and Hamburg and is looking forward to the new challenges and experience. The company will continue to stay on the path of growth as it evolves. According to the Rerik-based company, the leading trade fair and its international reputation can only benefit from a new location in Hamburg, particularly when
it comes to internationality, professionalism and reliability. In the future, e.n.o. energy will also be a guest at the Husum trade fair due to its family tradition and current significance and can very much imagine taking part in collaborations with other companies. e.n.o. energy is looking forward to presenting new technology in the outside stand area at this year's Husum trade fair. Last year, the engineers worked on a new generation of turbines and are showcasing these for the first time at the OF24 grounds. You can also come and visit us at our booth in Hall 04 4E07 and discover our new wind turbines as well as all our other new developments and trends.
Wind Energy Husum 18-22 Sep. 2012, Husum
GrĂźnes Geld
29 Sep. 2012, Hamburg 10 Nov. 2012, Freiburg
Spreewindtage
13-15 Nov. 2012, ScharmĂźtzelsee www.windenergietage.de
Vind 2012
21-22 Nov. 2012, Schweden
Wind.Energie
27-28 Nov. 2012, Erfurt
News
Update on e.n.o. Technology For four years now, e.n.o. energy wind turbines have been proving how reliable and serviceable they are. Since plant startup, the first e.n.o. 82 prototypes have already generated more than 21 GWh. As of last summer, our 92.8-m turbine has been in service for two years, with 11,500 hours of on-line operation. And at the beginning of the year, a renowned expert from the wind industry confirmed the insurability of the e.n.o. 92. Now comprehensive insurance protection is available for future operators of e.n.o. turbines with affordable premiums. Measurement of the load curve was conducted for the e.n.o. 82 and e.n.o. 92 at the Kirch Mulsow site using the synchronous generator and full power converter. The results were even better than the
calculated values. Depending on the quality of the location, yield increases of more than 3 % for the e.n.o. 82 and of more than 0.4 % for the e.n.o. 92 can be expected.
SDLWindV. After documentation of the results and validation of existing models, the certifications will be completed for the e.n.o. 82 and e.n.o. 92 by the end of the year.
In addition, tests have been successfully completed for the e.n.o. 92 with a hub height of 123 metres with respect to load acceptances, machinery components, rotor blades, safety system and electrical systems. An application for type approval of the tower has also been submitted, and approval is expected soon.
Do you have projects with noise restrictions or height limitations? Then give us a try. our team will inspect your site and propose a project that best suits your needs.
In the undervoltage field tests, the e.n.o. 82 and e.n.o. 92 have demonstrated the outstanding, grid-supporting properties of the e.n.o. full power converter. This is the most important step for grid certification in accordance with international standards and with the Germany-based
e.n.o. energy wind power plants are currently available for use with emd and f2e. www.eno-energy.com
Service in Saxony Quality-conscious and reliable service from e.n.o. energy e.n.o. energy GmbH opened a new service station in Leipzig/Radefeld on the first of March this year. The station was built to meet demand from e.n.o. plants and thirdparty facilities either on order or in the existing company portfolio in Mecklenburg. Located close to routesA9, A14 and A38, the station can quickly service the many wind farms in the surrounding area. This increases the satisfaction of e.n.o. energy customers and makes wind turbines more accessible. The 270-m² facility provides space for two service vehicles, rooms for personnel and a SAPbased storage system. There are also conference rooms available for guests and e.n.o. energy as well as ample space for parking. The coordination of operations
in Saxony, SaxonyAnhalt and Thuringia will be undertaken by the central office in Rostock under Michael Böhm, the department service head. The teams in Leipzig will be organized locally by the service team leader, Marcel Rodepeter.
The new station paves the way for further growth in the service and maintenance sectors. And it will help e.n.o. energy meet increased demands for wind energy in the future – professionally, reliably and economically.
e.n.o. energy systems GmbH | Poststraße 19, Tor 10 | D-04158 Leipzig
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Turbine
e.n.o. 114
3.5 MW
Greater Efficiency for Wind Farms The new e.n.o. 114 - 3.5 MW sets new standards of power plant efficiency. The innovative e.n.o. blade速 rotor blades reduce load and
www.eno-energy.com
increase turbulence resistance. The result: maximum energy yields for your wind farm.