R ENEWABLE SOURCES CSP Sustainable and cost-efficient solar thermal energy
2 Turning environmental challenges into sustainable opportunities
Feranova GmbH was founded in 2005 as a project development company in the field of renewable energy. Our company is headquartered in Westerkappeln near Osnabrück in northern Germany. A subsidiary was opened in Istanbul, Turkey in 2012. From 2008 onwards, Feranova has been developing technologies based on Concentrated Solar Power (CSP), aspiring to enhance the efficiency and sustainability of pre-existing industrial plants and power supply solutions. Photovoltaics is another business area in which Feranova strives to promote solar energy. With a broad portfolio of experience and skills, we have dedicated ourselves to transforming environmental challenges into economically attractive projects. In doing so, we aim to expedite the efficiency and sustainability of solar solutions for both new and pre-existing industrial, manufacturing and production plants to also make these plants economically feasible compared with fossil fuels.» Renewables, especially solar energy, are the future of energy supply sources and hence also our planet s future.«serkan Kadi, Founder and Managing Director of Feranova Our scope of services Estimates of solar potential, feasibility studies and forecasts Consultancy services to increase efficiency and energy savings for industry Support during project development and approval processes Customized design and optimization of solar fields and heat storage Supply and turnkey installation of solar fields Long-term operation and maintenance services 3
CSP Concentrated Solar Power What is CSP? Concentrated solar power technologies concentrate Direct Normal Irradiation (DNI) direct sunlight that is not deviated by clouds or dust and reaches Earth by parallel beams. CSP s leading product is thermal energy. Suitable regions for this technology include Southern Europe, the Middle East, northern and southern Africa, South America and south-western USA, ideally those located between the latitudes of 40 north and south. Up to 70 % of the solar energy that is collected can be converted into thermal energy. This emission-free energy can be used for several applications. How do Linear Fresnel Collectors work? Feranova Reflect Technology (FRT) Linear Fresnel Collectors have several rows of mirrors that are arranged parallel to each other in a north/ south direction. These rows of mirrors track the sun by means of motors which facilitate the best position possible in order to reflect the sun s beams onto the receiver system. A device known as the absorber tube is installed within the receiver system several meters above the mirrors. The absorber carries a heat fluid (thermal oil, water/steam or molten salt) that is heated by the concentrated rays of sunlight and sent to a heat exchanger where the energy is then fed into the customer s intake point. Depending on the customer s individual needs, temperatures and pressure can be adjusted. Operating temperatures of the FRT Collector Concentration Factor 80-200 Working Fluid: Oil, water (steam), molten salt Oil operating temperature: Up to 390 C Steam operating temperature: Up to 490 C Salt operating temperature: Up to 550 C Fields of application: Electricity Steam/Heat Cooling Energy Desalination Synthetic Fuels Enhanced Oil Recovery 4
4. Process heat and steam for industrial applications 3. FRT Collectors are directly connected to the plant s heat intake point for the utilization of the solar energy (e.g. companies in mining, textile manufacturing, food processing, desalination plants etc.). Companies can decrease their fuel costs and emission whilst simultaneously reducing their reliance on fossil fuels. 1. 2. Our process heat and steam FRT Applications start at a capacity of 750 kw th. They can either be connected to pre-existing heat or steam circuits or they can be integrated into the design of new plants. 6. 3. 5. 7. 8. Stand alone power plants FRT Collectors are utilized in a stand-alone facility in conjunction with a conventional steam turbine and thereby produce electricity which can be directly fed into the grid. Stand-alone solar power plants usually start at a size of 10 MW el up to several hundred MW el. 1. 2. In order to increase a system s efficiency and to also generate more electricity, FRT Collectors can also be connected to a heat storage facility as well as to gas-fired boilers/ supplementary co-firing system. 10. 3. 6. 7. 8. 5. Hybrid power plants FRT Collectors can be used for steam augmentation in gas or coal fired power stations. The produced solar energy is fed directly either into the steam turbine or into the heat recovery steam generator. This CSP application can also be connected to a heat storage in order to provide solar energy after dark. 9. 2. 1. 11. 7. Source: Feranova 8. 1. Solar field 2. Pump 3. Heat exchanger 4. Factory/process 5. Air-cooled condenser 6. Steam turbine 7. Electrical generator 8. Grid 9. Heat recovery steam generator 10. Stack 11. Gas turbine» Due to its modularity, robustness and cost-effectiveness, our FRT Linear Fresnel Collector is the perfect solution for any CSP application.«5
Feranova CSP Collector Cost-effective The cost advantages of the FRT Collector stem from its innovative design. The collector s parts are all specially designed to allow for optimum transportation and rapid on-site installation. Furthermore, no costly substructure is needed. This benefit guarantees a long lifespan and a reduction in operation and maintenance (O&M) costs. Reliable and robust The FRT Collector operates smoothly and safely due to its precise tracking and control tools. Several protective modes for all kinds of weather and operating conditions are included in order to prevent damage to the mirror elements. The mirror s patented Sandwich Structure ensures that the collector is both stable and durable. Modular and flexible Our FRT Collector uses a special modular and scalable design to meet our customers various demands. We can adjust and customize the design of the FRT Collector according to the required output, type of application as well as to the on-site configuration. Quick check How can you profit from our FRT- Collector? Go to our web site www.feranova.com and fill in our request form with a few of your project s parameters. We will get back to you within 2 working days to show you how you can increase your efficiency. Savings potential and sustainability Even in an area with only a low to mid-level DNI of 2,000 kwh/m²/a (e.g. in Izmir, Turkey or southern Europe), our smallest FRT Collector module (approx. 1,350 m 2 ) can generate approximately 1 GWh/a of carbon-neutral heat energy, which corresponds annually to: 128,000 Sm 3 Natural gas (NG) savings 100,000 kg Liquefied natural gas (LNG) savings 100,000 l Oil savings 280 t CO 2 savings up to 1.2 GWh Primary energy savings 0.01 US$/kWh th Cost of solar process heat after payback period Sustainability and efficiency Economically beneficial Socially responsible Environmentally valuable low O&M costs appealing returns very low energy costs dependable energy provision local procurement & production local know-how creation emission-free containment-free recyclable 6
» By employing our innovative state of the art Fresnel Technology you can harvest the sun s power in order to generate clean, decentralized and low-priced energy.«independent, remote and projectable energy Become fully self-sufficient regarding your energy needs with your own onsite energy production. Utilizing our FRT Collector protects you from the risk of energy outages and also shields you from rising energy bills. Greater efficiency and competitiveness By utilizing our FRT Collector, not only will you have more energy available at a lower cost, but your efficiency will also increase due to your 360 approach where we consider your individual process. This will also increase your company s competitiveness.. Long-term low cost energy The sun s energy doesn t cost a cent and the FRT Collector s O&M costs are very low. Once the costs of the collector are recouped, your energy production costs could be as low as 0.01 US$/kWh, drastically reducing your energy bill. Local content Up to 65 % of the FRT Collector s components can be produced and manufactured locally, potentially resulting in an increase both in your company s involvement in the local community as well as for your company s reputation within the community. Energy in any form We understand that different industries and production/manufacturing processes require different kinds of energy. Whether you need heat, steam, or cooling energy, our FRT Collectors can provide it at any level between 200 C and 550 C as well as at a level of pressure that best fits your processes. Marketing benefits and stakeholder involvement Set new standards not only for your production and manufacturing processes, but also for your products. Sustainable products are becoming more and more sought after and important to today s customers; a marketing device that you can use for promoting your products and further boosting your company s image. 7
Dependable and cost-efficient power generation Boosting plant efficiency In order to generate electricity, the FRT Collectors need to be connected to a conventional steam turbine. The Solar Field can either be used by itself (the CSP stand-alone option) or in combination with a conventional gas or coal power plant (the hybrid option). The CSP hybrid power plant not only helps to reduce the consumption of fossil fuels and thereby costs, but also decreases pollutant emissions. CSP stand alone power plants become even more efficient if a booster is integrated into the system. By combining the solar energy with relatively small amounts of fossil energy (usually natural gas), the turbine s input temperature is increased. This results in increased power plant efficiency and as a result, the solar energy is used more resourcefully. Feranova accompanies and supports its customers through every step of the process; starting from preliminary project inquiries and the selection of power plant components right through to the installation, operation and maintenance of the solar power plant. CSP hybrid power plants CSP stand-alone power plant with booster option Energy Energy Thermal solar power Conventional firing Thermal solar power Booster Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Annual energy production of a CSP hybrid power plant: During the summer months, less fuel is needed to create the same energy output. 8 Annual energy production of a CSP stand alone power plant increases due to the installation of a booster system that improves the power plant s efficiency.
Flexibility and reliability In contrast to Photovoltaics, CSP systems can operate as base load power plants. This means that the fed-in power remains constant throughout the whole day which makes this power plant more predictable and more flexible for utilities. The energy is as available and reliable as conventional energy, and this remains so even when the sun is not shining. The base load effect can also be achieved by implementing a thermal storage system. This system which further boosts the efficiency of the power plant is also offered by Feranova. Solar energy after sundown In order to fulfill one s nighttime energy demands, a heat storage system can be connected to the FRT Solar Field. The heat storage system continues to supply heat for a predefined time so that solar energy can be used to generate electricity even during the evening hours. This in turn means that the FRT Solar Field will sometimes be producing surplus power; whatever portion of the heat that is not fed into the plant s circuit can be instead directed into the storage facility. It will then be delivered into the power plant s circuit after dark, thereby increasing the energy production time of the power plant. Thanks to the flexible use of receivers and the FRT Collector, Feranova CSP systems can store solar heat up to a temperature of 550 C, which is significantly higher than parabolic trough systems. Since the storage medium allows for higher temperatures, more heat can be captured with the same unit which again increases the heat storage s efficiency while also reducing storage costs. Thermal power production Storage operation Thermal Power Nominal power plant capacity Direct Normal Irradiation, Charging Level Surplus production Directly to power plant Current DNI Power production Thermal Power Nominal power plant capacity 100 % storage charging level Direct Normal Irradiation, Charging Level To storage From storage Directly to power plant Current DNI Storage charging level Power production 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Time (h) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Time (h) Power production of a solar field without energy storage on a regular day A CSP (hybrid) power plant s financial efficiency can be increased by the addition of a heat storage system to the solar field 9
Turkey s first industrially used Linear Fresnel Collector The costs associated with process heat energy production can work out to be as high as 35 % of a company s production costs. It is therefore crucial for any industry to strive for increased efficiency and productivity in this area. With the installation of Turkey s first Linear Fresnel Collector in industrial use, Feranova has demonstrated that solar energy for process heat applications is already competitive even at today s market prices. The collector was installed in 2012 at the site of Turkey s leading mining group, and has since helped to decrease LNG usage in the group s ore drying process. 10
Project Highlights Reason for installation Output Annual energy production Supported process Connection to company s process Annual energy savings Annual CO 2 emission savings Estimated solar energy costs after payback period Further advantages Future plans Increasing energy prices Awareness of environmental issues 1 MW th 1.4 GWh th Drying of ores (Feldspar) via 350 m pipeline to a heat exchanger where 200 C hot pressurized water is converted into hot air and fed into a 3.5 MW th drum dryer 140,000 kg or 170,000 Sm 3 of LNG Almost 400 t 0.01 US$/kWh th Self-sufficient energy supply Stable solar energy prices Expansion of the system Installation of a heat storage system in order to also have solar power after sunset. At different temperatures, process heat is required in industries such as: The thermal energy is particularly needed for: Food Textiles Pulp and paper Steel Basic chemicals Ores and minerals and many more Producing steam Drying Welding Forging Cooking Smelting Sterilizing, and many more Other process applications include desalination or cooling energy. 11
R ENEWABLE SOURCES Printed on GardaMatt Art FSC mixed credit, 200 g/m 2 2014 Feranova GmbH/Subject to changes and errors reserved. Feranova is a registered trademark. BFRT-2012/04 Design: www.diedrei.com carbon neutral natureoffice.com DE-296-692661 print production Headquarter: Feranova GmbH Industriestrasse 11 49492 Westerkappeln Germany Phone: + 49 5456 966 78 70 Fax: + 49 5456 966 78 99 info@feranova.com www.feranova.com Turkish branch: Feranova Enerji Teknologjileri Ltd. ŞTI Bilim Sokak No. 5 K.13, Sun Plaza Maslak-34398 Istanbul Turkey Phone: + 90 212 366 02 96 Fax: + 90 212 366 58 02