Utility Grade Solar Power Plants BELECTRIC Technology GmbH Wadenbrunner Str. 10 97509 Kolitzheim Germany Partner of www.belectric.com
Photovoltaics An investment for our future BELECTRIC high-efficient solar power plants Rely on German engineering of BELECTRIC Technology Integrated Photovoltaic Energy Demonstration Site Dimbach (IPDAD) With solar power, you can take advantage of the BELECTRIC develops with expertise and high innova- Germany-based BELECTRIC Technology GmbH is the ideal huge solar irradiation in hot climate regions. Grid- tion to deliver the lowest cost photovoltaic system partner for your photovoltaics projects. With our affiliates tied photovoltaics pave the way into the future solutions on the market. BELECTRIC s solar power plants are we specialize in the construction of utility- of energy production. designed to meet customers unique requirements and are grade solar power plants and we have already engineered to optimize system performance. Years of ex- accumulated many years of experience building perience, and continuous improvement and innovation have enabled BELECTRIC and its affiliates to develop specialized installation equipment, balance of system components, and efficient processes which improve system performance while reducing system costs and the asscociated O&M lifetime costs. The Ministry of the Environment, Nature Conservation and Nuclear Safety of the Federal Republic of Germany subsidized this 123kWp facility to evaluate the performance of the ADIA inverter topology. BELECTRIC solar power plants at a glance: Since the daily power output characteristics coincide Designed to optimize system performance at the lowest cost. Employ cost effective and reliable solar modules, inverter technologies and components which deliver efficient operation for 25+ years. Aerial View: BELECTRIC Technology in Kolitzheim, Germany systems with nearly one hundred constructed solar power plants. Since utility-grade renewable energy systems profit the most from performance- Low-loss cabling and connectors Every electrical connection introduces an additional transfer resistance, and thus losses into a circuit and consequently represents a critical point in every solar with major peaks in electricity consumption, solar power plants can help stabilize the electricity grid Procurement safety cause nearly all BoS components are produced by BELECTRIC s affiliates. enhancing innovations, we are also strongly involved in research and development of new technologies for energy plant. This is particularly the case for the numerous split cables that are used for module connections. during critical high-demand phases and save fuel and maintenance costs in hybrid power systems. Their operation is unhindered by resource shortages and virtually fail-safe due to the total absence of maintenance-intensive moving parts. This fact alone is a unique advantage of solar power plants when compared to wind or hydro-electric power generation. Integrated design and installation solution ensures the lowest costs per kwh with the highest reliability in the industry. Leading industry system design for long term operation and maintenance. Most of our construction workers are experienced employees of BELECTRIC to avoid dependency to subcontractors. This unique point ensures high quality installation and hold exactly the construction time schedule. renewable energy systems. Through our extensive research program, we have been able to introduce a number of innovations into almost all components of a solar power plant, making it more efficient and reliable to operate, and less complicated to construct. ADIA inverter topology Invented by BELECTRIC CEO, Bernhard Beck, the ADIA inverter topology replaces the usual central or string Therefore, the quality of the cabling and the connectors has significant influence on system effectiveness. BELECTRIC has invented a cable split manufacturing process by means of contacting and encapsulating methods that virtually eliminate losses and allow for extremely durable connections at the splice. Special materials guarantees durability over several inverters of a solar power system by a pool of inverters decades - even in rough environment conditions. that are interconnected with an intelligent current routing system. That way, the number of active inverters can be varied according to solar imission. The inverters that are active can operate at their optimum efficiency, which increases the overall system output. This technology has been successfully demonstrated at the Integrated Photovoltaic Demonstraction Site Dimbach, a large-scale photovoltaic project that was subsidized by the Ministry of the Environment, Nature Conservation and Nuclear Safety of the Federal Republic of Germany. ADIA has been licensed for production Partially sunlight and precipitation can still reach the ground - allowing the local vegetation to persist. to the German inverter manufacturer PADCON and is included in large-scale solar power plants. Aerial view of a free-field solar power plant in Dimbach, Bavaria (Constructed 2003 / 2004) 2 3
Superior system performance through innovative module technologies As part of an integrated system, the solar modules are crucial to the overall effiency of a solar power plant. Only state-of-the-art thin-film solar modules are used in the construction of our utility scale systems. They offer a number of advantages over conventional silicon-based technologies. BELECTRIC sources solar modules from a variety of manufacturers and will incorporate the best price/performance solution based on each project s unique requirements. First Solar - high performance in a wide variety of climatic conditions Beck Energy was the first system integrator in Europe who has utilized the First Solar thin-film technology. These thin-film solar modules are supplied by Blitzstrom GmbH, Germany, who introduced First Solar modules to the European market in 2003 and became First Solar s first volume customer and partner. Over the years Blitzstrom and First Solar have built a strong and lasting collaborative partnership upon which BELECTRIC is able to draw. The module technology does not rely on silicon as a semiconductor at all. This, and other improvements, offers a number of advantages. 1500 VDC System Voltage - Nanosolar high-power thin-film modules: Nanosolar is the industry s best-funded private manufacturer of solar electricity cells and modules. The company is known for its breakthrough capability of simply being able to print a solar cell based on CIGS, the intrinsically most stable and efficient thin-film semiconductor. The result are cells that can be produced with unprecedented throughput and cost efficiency. The Nanosolar Utility Panel was designed in close collaboration with BELECTRIC and includes a number of features that set the standard for module technology for utility-scale deployments. Nanosolar thin-film modules at a glance: High nominal power paired with the advantages of thin-film technologies: The Nanosolar Utility Panel is a high-power panel with up to 220 Wp nominal power. First Solar thin-film module technology at a glance: Stable performance even at high temperatures: With silicon solar cells, the efficiency drops as solar imission increases and temperature rises. With FS technology, this effect is dramatically less pronounced, giving significantly more efficiency during the hot noon hours of the day. Excellent efficiency in unfavorable weather or light conditions: FS solar modules are far less affected by deteriorating light conditions, such as in bad weather or during the morning and evening hours. Climate protection during production: Thanks to the reduced consumption of raw materials and energy during manufacturing of the First Solar modules, production also accounts for a very positive environmental balance. Investment safety: High rated output (80% for 25 years) and the no-cost Collection and Recycling Program by First Solar guarantee an attractive and uncomplicated solar investment. First Solar thin-film solar module 1500 V DC system voltage: As a high-current module certified for an industry-first 1500 V DC system voltage, it affords an extensive higher panel array length than conventional modules. High stability and material strength: By using high-strength glass in the back and the front a 70% larger spanning distance between mounting rails is possible, relative to conventional thin-film panels. This enables a very resource-friendly type of substructure. Quality by 50 years experience - Sharp s microamorphous silicon thin-film modules As a solar specialist with 50 years experience in photovoltaics, Sharp makes significant contributions to groundbreaking progress in solar technology. The NA series of thin-film photovoltaic modules consists of an amorphous and a microcrystalline silicon layer. This microamorphous tandem structure not only absorbs visible light but also the invisible portion of the sun light. This makes especially efficient use of solar energy. All module types of the Sharp NA Series offer optimum system integration, in terms of both technology and economy, and are suitable for installations in gridconnected PV systems. Innovation on 5,7m² - Masdar PV s amorphous silicon thin-film modules: Masdar PV develops and manufactures thin-film photovoltaic modules with a very attractive cost-benefit ratio. The amorphous silicon technology affords a photovoltaic application in free-field solar power plants and large-scale roof-mounted pv systems. Compared to conventional silicon pv modules, the Masdar a-si modules achieve higher energy yields at high external temperatures and under diffuse light conditions. Sharp NA product series at a glance: Innovative microamorphous tandem structure: Patended tandem structure with an amorphous and a microcrystalline silicon layer offering a stabilized module efficiency of 9.5 %. Solar energy at cloudy weather: The thin-film structure lets the pv modules become more insensible of temperature increasings. According to other thin-film technologies the Sharp structure delivers excellent energy yields under diffuse light conditions. The production lines at Masdar PV allow the manufacture of solar modules in size of up to 5.7m². Thereby this factor gives system integrators the flexibility to adapt the photovoltaic module size to their particular system installation conditions. The excellent cost performance ratio paves the way towards making thin-film solar energy competitive with conventionallygenerated energy and to make a sustainable contribution to the climate-friendly generation of our future power requirements. 4 5
Straight module rows with BELECTRIC substructure Inverter Systems - the heart of our solar power plants Compared to many competitors, the substructure of our solar power systems is exceedingly simple and sturdy at the same time. It consists of only 3 standardized steel, wood and aluminum parts. All components are of heavyduty industrial quality, impervious to any physical influences and designed to withstand outdoor conditions for entire life span of the plant. Thanks to the ideal combination of the straight-line generator block and our advanced inverter technology BELECTRIC solar power plants achieve a superior performance ratio. Advantages of the BELECTRIC substructure: Optimum orientation of the solar modules: Accurate linear (laser) alignment of the modules allows for the same incidence of light for every solar module. The module rows are positioned in a calculated distance from each other, such that they do not cast a shadow on one another during the morning and evening hours. Preservation of vegetation: Through the low degree of ground sealing by the substructure and due to the semi-opaque generator block continuous preservation of vegetation is ensured. An accurate replication of the planning: Through systematic construction by means of special developed machinery the plant is accurately positioned on the ground, exact to the milimetre, which allows for unlimited size of the plant. BELECTRIC s PV power plants generate direct current (DC) which is then converted into alternating current (AC) and fed into the grid through the inverter. The optimal performance of the inverter is crucial for the overall efficiency of the photovoltaic system. It is important that the output of the inverter match the power frequency and voltage of the utility grid. BELECTRIC s inverters constantly and automatically monitor and adjust those parameters for optimal performance at all times. The failure of an inverter component can cause significant production yield losses at the system level. BELEC- TRIC inverters are fitted with a comprehensive set of safety, redundancy and control features that allow the solar power system to continue operating even in the unlikely event of a component failure. In such a case, a sophisticated control circuit automatically assigns a working device to the functions of the damaged device and logs relevant data for later analysis. With those unique features, BELECTRIC inverters minimize the impact of a technical problem on the overall system efficiency. PADCON s Utility-Grade Power Management Unit with active grid control and ADIA interface PADCON RealTime Management System RealTime Management System be in control, all the time Special substructure for landfill sites: Accurate alignment also on loose and frail landfill soil. Solar monitoring systems increase the up-time of solar power plants by shortening the time necessary to detect component or system malfunctions. BELECTRIC solar power plants employ extensive remote monitoring features which allow BELECTRIC customers to access critical solar system performance data at any time. BELECTRIC s in-house IT team also has the expertise to develop customized software solutions dedicated to BELECTRIC s customers applications. Further, by utilizing BELECTRIC s proven Real- Time Management System, BELECTRIC can manage all necessary operations and maintenance for its customers over the 25 year lifetime of the plant. By doing so we provide the best long term reliability, performance, and maximizing the profitability of our customers solar power investments. 6 7
Let s drive it safe - BELECTRIC s Operations & Maintenance Services A small selection of BELECTRIC s solar projects Building on years of experience managing solar power Quarterly and annual plant inspections of the Since 2002, BELECTRIC and its affiliated companies have plants across Europe, BELECTRIC offers comprehensive protective measures in accordance with developed and constructed nearly one hundred free-field operations and maintenance services. applicable regulations. solar power plants using the latest module and inverter By operating and maintaining the power plants that technologies. This long lasting experience in photovolta- 1 we build, we can offer the highest levels of reliability, Maintenance and recalibration work by qualified ics gives BELECTRIC the necessary expertise to quickly efficiency, and availability to our customers, as well professionals and in accordance with manu- deploy reliable and cost-effective solar power plants. as providing longer warranty periods and improved facturers specifications. performance results. BELECTRIC is capable of operating and maintaining its Repair work by qualified and authorized professionals. Solar power plant Eckolstädt 1 customers solar power plants for the duration of their design service life of 25 years. Our comprehensive program can be tailored to Grounds keeping and appropriate care of the plant cover on the entire site. Nominal power: 8,500 kwp Location: Eckolstädt, Germany Constructed: 2008 2 the customer s unique needs and can include all activities required to safely provide power at the guaranteed parameters: Periodic module, cabinetry and ventilation system cleaning using proprietary technology and materials. Solar power plant Darro 2 Administration and coordination, including activities in connection with utility or customer authorities, local law or safety officials, or Securing, monitoring and inspection of the premises. Nominal power: 5,900 kwp Location: Darro, Spain Constructed: 2008 insurance companies. Monitoring and control, including ongoing Solar power plant Narbonne 3 3 monitoring of plant performance and operational parameters by BELECTRIC personnel and 24/7/365 access to plant performance data via the web. Nominal power: 7,000 kwp Location: Narbonne, France Constructed: 2008 Solar park Garbadan I 4 Total nominal power: 35,670 kwp Location: Garbadan, France 4 Free-field solar power plant with 1,775 kwp in Kolitzheim, Germany 8 9
A small selection of BELECTRIC s solar projects Solar power plant Rentweinsdorf 5 8 Solar power plant Grosshaslach Nominal power: 13,005 kwp Location: Rentweinsdorf, Germany Nominal power: 6,950 kwp Location: Eggenbach, Germany Solar power plant Gottmansdorf 6 9 Solar power plant Repperndorf Nominal power: 8,213 kwp Location: Gottmansdorf, Germany 2 Nominal power: 8,303 kwp Location: Repperndorf, Germany Solar power plant Pocono 7 10 Solar power plant Skala Nominal power: 2,997 kwp Location: Pocono, U.S.A. 5 8 Module technology: Mono-Si Nominal power: 6,000 kwp Location: Skala, Greece Solar power plant Thiersheim Solar power plant Manosque Nominal power: 6,360 kwp Location: Thiersheim, Germany 6 9 Nominal power: 4,095 kwp Location: Landfill site Manosque, France Solar power plant Saint Tulle Solar power plant Markt Bibart Nominal power: 5,235 kwp Location: Saint Tulle, France Nominal power: 2,789 kwp Location: Markt Bibart, Germany Constructed: 2007 7 10 Panorama view: Solar power plant with 4,000 kwp in Jessen, Germany 10 11
2010_1005_EN Headquarters: BELECTRIC Technology GmbH Wadenbrunner Str. 10 97509 Kolitzheim - Germany Office +49 9385 9804-500 Fax +49 9385 9804-5955 Mail info@belectric.com Web www.belectric.com Together with our affiliates we at BELECTRIC implemented nearly 100 free-field solar power plants and we are happy to deal with enquiries from all over the world. Please do not hesitate to contact us for information at our office +49 9385 9804-500