Research and Development Research and development are the foundations of SINN Power’s technological innovations. Since the company was founded, we have continuously worked on new solutions in the field of renewable energy. The following timeline shows selected milestones in our technological development. 2014 2014: Funding through EXIST Research Transfer The technological development of the “SINN Power Wave Technology” was already supported before the founding of SINN Power GmbH through the EXIST Research Transfer program. 2014: Founding of SINN Power SINN Power GmbH was founded in 2014 based on the doctoral dissertation and the patented inventions of Dr. Philipp Sinn. 2014: Development of the Linear Generator In cooperation with the CUTEC Institute, SINN Power began revising and further developing the linear generator for the wave power plant modules. 2014: Participation in the 6th Energy Research Programme The development of the wave power plant modules was funded under the 6th Energy Research Programme of the German Federal Government (6th EFP). Wave channel test in the wave channel of LABIMA 2016 2016: First Prototype, WEC, Heraklion, Greece As part of the ongoing technological development, the first full-scale prototype of a wave energy converter module (WEC) was put into operation in Heraklion, Greece. The system was installed and tested in the sea at the harbor wall of Heraklion. Rendering of the Powertrain 3.4 2018 2018: Second Prototype, WEC, Heraklion, Greece Two second-generation wave energy converter modules were installed at the harbor wall in Heraklion, Greece. The use of aluminum ensures high corrosion resistance of the modules in the marine environment. 2018: Greentec Awards in Munich On May 13, 2018, SINN Power was selected among the Top 10 at the Greentec Awards in Munich. 2018: Second Wave Flume Test, Hanover, Germany To develop and optimize a mooring system, Leibniz University Hannover conducted investigations on behalf of SINN Power in the wave basin of the Ludwig Franzius Institute regarding the anchoring of the wave power plant. Wave Energy Converter (WEC) of the third and fourth prototype generation 2020 2020: First Prototype of the Ocean Hybrid Platform (OHP) The first prototype of the floating Ocean Hybrid Platform (OHP) was built and launched as part of the THOR project (Test-site Heraklion for Oncoming Renewables). THOR includes an OHP with 192 photovoltaic modules (75 kWp), a container on the harbor wall with PV modules (5 kWp), and a small wind turbine on the harbor wall (3.5 kWp), integrated into a ModTroniX smart grid. 2020: First Revision of ModTroniX The first revision of the ModTroniX components was assembled and successfully integrated into the smart grid at the harbor wall of Heraklion. ModTroniX system of the second generation 2022 2022: Research and Concept Development of the SKipp Technology As part of research and testing projects, SINN Power investigated the challenges of conventional photovoltaic systems, particularly those caused by wind loads as well as snow and ice loads. Based on these findings, the company developed a new concept for vertically tiltable photovoltaic modules, which later became the foundation of the SKipp product family. SKipp photovoltaic system for agricultural use (Agri-PV) 2024 2024: Further Development of SOcean / OHP - Heraklion, Greece Within the framework of the 7th EFP, the OHP, also called SOcean, is being further optimized. The focus was on improving energy generation from wave power as well as the final development of the generators. 2024: Kick-off for Vertical Floating PV Bavaria's Minister of Economic Affairs, Hubert Aiwanger, gave the go-ahead for the world's first floating photovoltaic system with vertical PV modules that can deflect under wind load, from the SKipp family. The system is being installed in a gravel plant in Gilching (Germany). 2024: Award "Shaper in the Energy Transition Team Bavaria" The project for installing photovoltaic modules in a gravel plant in Gilching was recognized by Bavaria's Minister of Economic Affairs, Hubert Aiwanger, as a contribution to the energy transition and honored as a "Shaper in the Energy Transition Team Bavaria." 2024: Further Development of Photovoltaic Solutions SINN Power further developed its photovoltaic technologies and worked on new applications for industrial infrastructure. This included, among other things, the customized development of PV solutions for conveyor systems in order to make previously unused areas usable for sustainable energy production. World's first vertically floating PV system Dr. Markus Söder, Minister-President of Bavaria, and Dr. Philipp Sinn at the opening of the world’s first vertically floating PV system. 2026 2026: Continuous Development SINN Power continuously examines and researches new application possibilities for its technologies. These include potential fields of use for the SOcean platform, such as sustainable power supply for aquaculture as well as for integrated monitoring and measurement technologies. In addition, autonomous platform solutions for future energy and infrastructure concepts are being explored. Dr. Philipp Sinn - Founder of SINN Power 2015 2015: First Wave Flume Test, Florence, Italy The first wave channel test of the technology was carried out in Florence, Italy. A 1:18.5 scale model of the point absorber and the network system was tested in the wave channel of LABIMA (Laboratorio di Ingegneria Marittima) in cooperation with the University of Florence. First prototype of a Wave Energy Converter (WEC) 2017 2017: Powertrain 3.4 After the continuous development of the linear generator, the Powertrain 3.4 - a compact unit consisting of an electric machine and generator electronics - was used in the wave power plant module of the pilot project in Heraklion. Wave channel test of the anchoring system, Hanover Wave Energy Converter (WEC) of the second generation 2019 2019: Third Prototype (WEC), Heraklion, Greece By optimizing the tension-compression concept of the patented support structure - which later became the foundation of the floating structure of the OHP - as well as redesigning and increasing the buoyancy of the floater, the wave energy converter module was further developed to the technical standard of the third generation. Two modules of this generation were installed and have been tested ever since. 2019: Fourth Prototype (WEC), Heraklion, Greece In addition, two fourth-generation prototype wave energy converter modules made of HDPE material were built and deployed in test operation. 2019: Kick-off MTX The test results of the power electronics were incorporated into the fourth generation of the powertrain. At the same time, the development of additional electronic components began, expanding the energy utilization system at the harbor wall of Heraklion into a smart grid system. First prototype of the Ocean Hybrid Platform (OHP) in the water THOR test site with OHP, PV modules, and small wind turbine 2021 2021: Second Generation of ModTroniX Through functional tests of the ModTroniX components in Heraklion and long-term tests in Gauting, the system was further developed and improved. Based on these results, the second generation of the ModTroniX technology was created. 2021: S-Grid Certification The smart grid system, which intelligently connects and controls various energy sources and storage systems, was successfully certified. SKipp Float: Floating photovoltaic system with vertical SKipp modules on a water surface 2023 2023: Market Launch of the SKipp Family SINN Power launched the SKipp product family on the market. The patented tiltable photovoltaic modules enable the flexible and efficient use of rooftop and ground-mounted systems. 2023: Participation in the 7th Energy Research Programme In 2023, SINN Power received funding under the German Federal Government’s 7th Energy Research Programme (7th EFP) to support further research and development activities in the field of energy generation from marine energy. Further development OHP, Heraklion, Greece Starting signal for the floating PV project at the Gilching gravel plant by Bavaria's Minister of Economic Affairs Hubert Aiwanger Further development of photovoltaic technology - conveyor system 2025 2025: World's first vertically floating PV system SINN Power inaugurates the world's first vertically floating photovoltaic system together with the Bavarian Prime Minister Dr. Markus Söder. The system is based on the patented SKipp technology, in which photovoltaic modules are installed vertically and in an east-west orientation. In contrast to conventional floating PV systems, this concept allows for more efficient use of space as well as reduced stress from wind, snow, and ice. With an installed capacity of 1.87 MW and an expected annual electricity production of around 2 GWh, the system represents an important technological milestone. At the same time, the system covers only 4.65% of the water surface, significantly below the 15% limit specified in the Water Resources Act, thereby minimizing ecological impacts on the water body. Concept of a potential aquaculture facility based on the SINN Power SOcean Concept of a potential autonomous platform for supplying a port with electricity through the OHP

Platform solution for fish farms In cooperation with NIKOFARM , SINN Power brings renewable energy to where it is needed directly: on and around the water surfaces of modern aquaculture. At NIKOFARM’s site on Evia, Greece , SINN Power is deploying a platform solution that builds on experience and technological approaches from the SOcean platform. It combines solar and wind energy with technical infrastructure on the water, reduces CO₂ emissions, and supports the transition toward more climate-friendly fish production. Technical overview SOcean platform Green energy for aquaculture Together with NIKOFARM , SINN Power is making aquaculture more sustainable: In Greece, one of the most innovative energy supply solutions for modern fish farms is being developed – renewable, decentralized and directly where energy is needed. NIKOFARM is taking an important step toward more sustainable aquaculture in the Mediterranean region. Land-based and nearshore energy demands are covered by solar energy, wind energy and storage systems. This reduces dependence on diesel generators, lowers CO₂ emissions and supports more reliable, independent and sustainable operations . SINN Power does not focus solely on individual systems, but on a holistic energy concept for aquaculture. This includes nearshore SKipp applications, land-based PV systems on rooftops and operational areas, complementary wind energy solutions and storage systems. In this way, different energy sources and available surface potentials can be combined to supply aquaculture operations directly on site with reliable, clean electricity. (Nikofarm LTD Aquaculture - Loutra Edipsos, 34300 Εvia, Greece) Building on the current implementation and the joint TASC-RestoreMed application , the next development stage is already being planned: a floating SOcean supply platform for offshore aquaculture operations . TASC-RestoreMed is a European initiative within the EU Mission “Restore our Ocean and Waters by 2030” and supports community-led projects in the Mediterranean region that develop, demonstrate and scale innovative solutions for healthier and more resilient marine and coastal ecosystems. The planned SOcean supply platform is designed to combine solar and wind energy, storage, sensors, monitoring, as well as applications for feeding processes and operational management directly on the water. This will create a scalable solution enabling fish farms to operate significantly more efficiently, independently and in a more climate-friendly way in the future. SKipp technologies Rooftop PV systems The challenges in aquaculture Dependence on fossil energy Many aquaculture operations require continuous electricity for feeding, pumps, cooling, aeration, and monitoring. When this demand is met by diesel generators or external energy sources, it leads to additional CO₂ emissions and high operating costs. Feed loss and water pollution During manual feeding, unused feed can enter the water and settle on the seabed. This impacts water quality, can harm local ecosystems, and increases the need for monitoring during operations. Feed as the largest cost factor Feed can account for up to 70% of operating costs in aquaculture. Any feed loss therefore not only represents an environmental burden, but also leads to direct economic losses for the operation. The Fishfarm Platform as a solution Reduced dependence on fossil energy The Platform generates renewable energy directly on-site from solar, wind, and wave power, thereby supporting a lower-CO₂ energy supply. Less feed waste, improved water quality Enhanced monitoring supports more targeted feeding and can help improve the economic efficiency of aquaculture. Sensors and monitoring for better control Improved monitoring supports more targeted use of feed and can help enhance the economic efficiency of aquaculture. Modular by design. Built for offshore. The aquaculture model. The system is based on a scalable platform model. Depending on project requirements, the platform can be equipped for renewable power generation with: Photovoltaics, Small wind turbines, or wave energy be equipped. The platform includes essential operational system components such as: Feeding and distribution system Storage containers Crane system for feed logistics Energy and distribution containers Silo cooling Backup system with generator and diesel tank Our technology The platform is a modular offshore platform designed, among other things, for sustainable aquaculture applications. The system combines renewable energy generation, technical infrastructure, and monitoring within a scalable platform concept for use in maritime environments. Aquaculture platform system Energy & Aquaculture Infrastructure Integration Energy & Aquaculture Infrastructure Integration Offshore operations & monitoring Photovoltaic and small wind systems can be integrated Feeding and distribution systems Feed silos and storage containers Crane system for feed logistics Energy and control containers Battery storage and electrical systems Silo cooling and refrigeration units Applications: aquafarming, monitoring, supply systems The Platform enables the integration of renewable energy and aquaculture operational systems within a modular offshore platform. Sensor and camera systems for monitoring Monitoring of fish behavior and feeding Support for reducing feed waste Standardized transport and installation processes Scalable installation and maintenance Designed for reliable offshore operation Containerized offshore platform with standardized transport, operation, and maintenance solutions for use in modern aquaculture. Standard platform size (m): 24 × 30 × 6 Seawater-resistant aluminum structure Scalable multi-module arrays Platform module combines 100 kWp PV with 4 kWp small wind turbines * Seawater-resistant aluminum structure Integration of energy, monitoring, and communication systems Standardized transport, installation, and maintenance processes Modular offshore platform structure for aquaculture with a robust support architecture for the integration of energy, feeding, and infrastructure systems. * Based on a platform size of 24 m x 30 m x 6 m Advantages With the Platform, the aquaculture area itself becomes an energy and infrastructure platform — enabling a more independent, future-ready fish production with reduced CO₂ emissions. Lower operating costs Since feed can account for up to 70% of operating costs, reducing feed waste can make a significant economic difference. Modular and scalable Individual platform modules can be combined according to project-specific requirements and expanded into larger units. Low-CO₂ energy supply The platform generates renewable electricity directly on the water and can combine solar, wind, and wave energy. Reduced dependence on fossil energy Aquaculture operations can cover part of their energy demand directly on-site, thereby becoming less dependent on diesel generators or external power supply. Centralized technical infrastructure Feeding systems, silos, crane systems, battery storage, electrical equipment, and backup systems can be bundled on a single platform. Next step: From platform concept to aquaculture application From platform concept to aquaculture application With NIKOFARM as pilot operator and future user, SINN Power is preparing the next development step for integrated energy solutions in the aquaculture sector, together with the University of Patras and the Decentralized Administration of Thessaly and Central Greece. The operational requirements of the fish farm are directly incorporated into the development and testing process. The University of Patras supports monitoring and KPI validation, while the Decentralized Administration supports the involvement of relevant stakeholders and social acceptance. The focus is on transferring various SINN Power technologies to the real requirements of fish production – from electrical supply, monitoring and operational safety to infrastructure on the water, at the shore and on land. This creates a holistic approach: the platform can be used as a floating energy and support system on the water. In addition, near-shore SKipp applications can provide additional solar energy, while land-based PV systems on roofs or operational areas can support the energy demand on land. In combination with storage systems and suitable electrical infrastructure, different area potentials can be connected in a meaningful way. This results in a practical approach that combines renewable energy, maritime infrastructure and fish production – for more independent, efficient and CO₂-reduced aquaculture. BACK TO OVERVIEW

District Solutions Thinking about heat supply together – efficient, networked, future-proof Districts play a key role in the energy transition. Whether new developments, commercial areas, or existing neighborhoods: solutions for individual buildings quickly reach their economic and technical limits. District solutions make it possible to plan heat supply holistically – across multiple buildings, uses and technologies. Why district solutions make sense Synergies can be utilized within the district that would be lost at the building level: Increased efficiency through joint generation and distribution better utilization of generation assets lower investment and operating costs per unit greater security of supply and future viability Experience, Planning depth & Tools SINN Power brings experience from complex energy and infrastructure projects and works with modern planning and simulation tools to design well-founded neighborhood solutions. This allows different scenarios to be compared, expansion paths to be evaluated, and decisions to be made based on facts. Our focus is on: technical feasibility economic viability long-term operational reliability Now, let's think about the neighborhood together. Are you planning a new neighborhood or developing an area? Then let's examine together what a sustainable heat supply could look like. Discuss your project idea or have your district analyzed. Non-binding, practical, and on equal footing. Kontakt Zurück zur Übersicht

Innovative technologies for a sustainable and economically successful future Revolutionary photovoltaic technology from Bavaria For greater efficiency and independent energy generation CONCEPT REQUEST SOcean launch in Heraklion successful Start of the long-term testing phase As part of the 7th Energy Research Programme of the Federal Ministry for Economic Affairs and Energy As part of the 7th EFP, the next development phase of the SOcean platform is underway—featuring fixed positioning, long-term testing, and further advancement into a hybrid offshore platform. With this, SINN Power reaches another milestone on the path toward modular offshore solutions for renewable energy and maritime infrastructure. Read more At SINN Power, we develop and manufacture our technologies in Germany, supported by funding from the German Federal Ministry for Economic Affairs and Climate Action. This seal of quality stands for precision, reliability and sustainable excellence that sets standards worldwide. Awarded as a “Contributor to the Team Energy Transition Bavaria.” SINN Power was recognized by State Minister Hubert Aiwanger as a “Designer in the Bavarian Energy Transition Team” for the world’s first vertical floating photovoltaic system. The system is located at a quarry lake in Bavaria. The Chamber of Industry and Commerce (IHK) confirms our professional expertise and reliability, including in the fields of photovoltaics and municipal heat planning. This recognition underlines our competence and facilitates participation in public tenders. Aufdach-PV Förderband-PV: Kieswerk, Ebenhöh Floating-PV: Klärwerk, Eching am Ammersee Aufdach-PV 1/7 Products and Technologies SKipp Technologies The SKipp family offers versatile application possibilities in agricultural areas, water protection zones, open spaces, landfills, bodies of water such as dredging and open-cast mining lakes, fish farms, port areas as well as on flat and green roofs, thus enabling sustainable energy solutions in urban, aquatic and agricultural environments. To Skipp - Family Floating PV-technologies Efficient energy solution on the water SINN Power's floating PV technologies are ideal for use on gravel pits, quarry ponds, open-cast mining lakes, reservoirs, lagoons, docks, industrial fish ponds and in moderate to harsh maritime environments to enable sustainable use of water areas through innovative and scalable designs To Floating-PV Special PV-Technologies Special solutions for individual requirements The specialized PV technologies are specifically designed for demanding application areas, including conveyor belt structures, industrial applications, complex infrastructure projects, and environments with particular challenges, efficiently utilizing existing structures for energy generation. To Special-PV Why SINN Power? We handle the entire implementation of your projects – from planning and permits to installation and electricity marketing, all the way to maintenance and plant sales. With our comprehensive service, your project is in the best hands! Potentials and Studies Development of comprehensive potential and feasibility studies to support strategic decisions. We create a transparent and targeted basis for project management - from analysis to recommendation, with clearly structured roadmaps and comprehensible documentation. Permits and Applications Support with approval processes and applications; network inquiries with the network operator Financing Support for project financing through various business models (e.g., power contract model) Maintenance and Operation EPC and GU Electricity marketing and System sales We offer exclusive maintenance contracts for your system(s) and operate your systems(s). Custom-built solutions tailored to your needs. Worldwide custom renewables – electrical and thermal. We distribute and trade your electricity – whether to you, your tenants, neighbors, or on the energy market. Local when possible, global when necessary. Projects Whether on water, land, or in specialized applications – our projects demonstrate how innovative technology and local expertise combine to make renewable energies efficiently usable. With a clear focus on individual requirements and global impact, we transform visions into tangible solutions – we are rethinking energy. Conveyor belt PV Floating PV Green roof PV Agri-PV We lease your open space and roof areas for photovoltaics Do you own areas such as meadows, arable land or large roof areas? Can you provide us with leaseable land? Then you can secure an income by leasing or an attractive commission by brokering the property… leasing models Storage solutions for a resilient energy future. Decentralized electricity generation and the associated energy resilience are of crucial importance for companies, especially in times of increasing uncertainty and challenges in energy supply. Photovoltaic systems and battery storage play a key role in ensuring security of supply: they help stabilize electricity supply and enable greater independence from the volatile energy market. ENERGY STORAGE SOLUTIONS We are looking for visionaries and doers! Do you dream of making a real impact with your work? At SINN Power, we combine technology, innovation, and sustainability to create solutions for the future. In a dynamic team, we work at the intersection of engineering and environmental awareness to further develop renewable energies. You can expect flat hierarchies, exciting projects, and the opportunity to be part of a movement that is truly making a difference. Apply now Press releases and News 2025: A year full of innovation at SINN Power Gauting, 26 January 2026 The year 2025 was marked by numerous successfully realized photovoltaic projects for SINN Power. The implemented systems clearly demonstrate that renewable energy can be effectively deployed even in locations where space is limited or where specific technical and infrastructural requirements exist. Whether in industry, water management, or municipal infrastructure, these projects highlight how photovoltaic systems can be intelligently integrated into existing structures. Interview with Dr.-Ing. Philipp Sinn, Founder and CEO of SINN Power Gauting, 20 February 2025 “The coming years will mark a turning point in the global energy supply. Dependence on centralized structures is increasingly becoming a problem – we provide the solution: independent, decentralized, and intelligent energy systems.” To read To read SINN Power at ForumMIRO 2025 in Berlin: Energy-Self-Sufficient Quarrying Industry in Focus Gauting, 14.01.2026 SINN Power zeigte auf dem ForumMIRO 2025, wie sich die Energieversorgung von Kieswerken, Steinbrüchen und Mischwerken neu denken lässt. Im Mittelpunkt standen unsere praxistauglichen, modularen Photovoltaik-Lösungen, die sich optimal in bestehende Betriebsstrukturen integrieren lassen, den Strom direkt am Standort erzeugen und dabei ohne zusätzliche Flächenversiegelung auskommen. To read World Premiere in Bavaria: SINN Power Inaugurates First Vertically Floating Photovoltaic System Gauting, 11 November 2025 On 10 October 2025, SINN Power made history: the world’s first vertically floating photovoltaic system was inaugurated at the Jais gravel plant in the district of Starnberg. The project is unique worldwide, sets new standards for power generation on inland waters, and is regarded as a milestone for sustainable energy with international significance. For this pioneering achievement, SINN Power was honored as a “Shaper in the Bavaria Energy Transition Team.” This award is a special recognition of technological innovation and the consistent implementation of sustainable energy concepts. To read Clients and Partners (Selection) The future of energy in your inbox Sign up and be the first to hear about new projects, innovations and exciting developments at SINNPower Enter your email here Sign up Thank you for signing up! Your next Projekt We would be happy to advise you in a personal meeting and create a tailor-made energy concept for you. Quick & uncomplicated. Headquarter: SINN Power GmbH Germeringer Str. 9 82131 Gauting, Germany +49 (0)89 92566192 contact@sinnpower.com Country Office SINN Power Hellas Iraklitou 41, Nea Alikarnassos 71408 Heraklion ,Crete Greece +30 2811813975 infohellas@sinnpower.com First name Last name Email address Phone number Adress Subject Enter your message... Submit

Innovative Special-PV-Technologien für Ihre individuellen Anforderungen. SOcean Goes into the Water On May 19, the long-term test of SINN Power’s SOcean platform will begin in Heraklion, Greece. Following an initial floating test, the complete system will be tested under real offshore conditions for the first time. The project is funded by the German Federal Ministry for Economic Affairs and Energy under the 7th Energy Research Programme. Video SOcean Technical overview A Platform for Energy, Infrastructure, and Maritime Applications With SOcean, SINN Power is developing a modular floating offshore platform that combines renewable energy generation and maritime infrastructure in a scalable system. The platform can integrate solar, wind, and wave energy, while also serving as a support system for monitoring, aquafarming, technical installations, or supply solutions - robust, flexible, and designed for demanding conditions at sea. All about our R&D history and vision Designed Modular. Built for Offshore. The system is based on a scalable platform module. Depending on project requirements, SOcean can be equipped with wave energy, photovoltaics, small wind turbines, working areas (for heavy loads) or additional technical components. Thanks to its modular design, the platform is suitable for both pilot projects and larger arrays as well as project-specific special applications. Read more about SOcean technology The Technology The system is based on a scalable platform module. Depending on project requirements, SOcean can be equipped with photovoltaic systems, small wind turbines, wave energy converters, work decks, or additional technical components. Thanks to its modular design, the platform is suitable for both pilot projects and larger arrays, as well as project‑specific special applications. Request datasheet Hybrid Energy & Infrastructure Integration SOcean enables the integration of hybrid energy and infrastructure systems within a modular offshore platform. Up to 40 kWp photovoltaic capacity per platform unit Multi-source energy through integration of small wind turbines and wave energy systems DC / hybrid system architecture Energy storage, monitoring, and communication systems Offshore infrastructure and utility units Applications: island power supply, aquafarming, and autonomous offshore systems Offshore Deployment & R&D Containerized offshore platform with standardized transport, assembly, and maintenance processes for scalable deployment concepts. ISO container-compatible components Standardized installation processes Scalable installation and maintenance Long-term testing in Heraklion within the framework of the 7th Energy Research Program Focus: structural validation, offshore performance, and system integration under real-world conditions Offshore deployment under real operating conditions Offshore Structural System Scalable multi-module arrays Standard module: 12 × 12 × 6 m Designed for wave heights up to approx. 20 m Seawater-resistant aluminum structure Diagonally braced load-bearing system Corrosion-resistant offshore design Segmented buoyancy system Offshore-optimized structural geometry Heavy-duty configurations possible Modular offshore frame structure made of seawater-resistant aluminum components with a diagonally braced load-bearing architecture designed to withstand dynamic wind, wave, and operational loads. Benefits SOcean was specifically developed for real maritime operating conditions. The focus is on scalability, transportability, structural robustness and flexible usage options. Modular and Scalable Individual platform modules can be combined to meet project-specific requirements and expanded into larger units. Designed for Harsh Conditions The platform is engineered for demanding maritime environments and designed to withstand high loads. Hybrid Use Photovoltaic, wind, and wave energy can be combined depending on location and project needs. Transportable The modular design supports transport, installation, and maintenance using standardized processes. Infrastructure Platform SOcean can also serve as a work, monitoring, supply, or aquafarming platform. Fields of Application Open Sea and Offshore Floating platform for energy generation and technical infrastructure at sea. Island Power Supply Autonomous or hybrid energy supply solutions for remote locations and island regions. Aquafarming Carrier system for energy, monitoring, and infrastructure in maritime production environments. Heavy-duty applications Walkable working platform for project-specific loads, technical installations, and maritime infrastructure. From Prototype to Sea Launch All about our R&D history and vision 2014: Funding through EXIST Research Transfer The technological development of the “SINN Power Wave Technology” was already supported before the founding of SINN Power GmbH through the EXIST Research Transfer program. 2014: Founding of SINN Power SINN Power GmbH was founded in 2014 based on the doctoral dissertation and the patented inventions of Dr. Philipp Sinn. 2014: Development of the Linear Generator In cooperation with the CUTEC Institute, SINN Power began revising and further developing the linear generator for the wave power plant modules. 2014: Participation in the 6th Energy Research Programme The development of the wave power plant modules was funded under the 6th Energy Research Programme of the German Federal Government (6th EFP). 12 x 12 m base module 6 m structure height 50 kWp power per platform module 20 m maximum wave height From Prototype to Sea Launch Scientific origin Dissertation & research foundation The technological foundation of today’s SOcean platform originated from the doctoral dissertation of Dr.-Ing. Philipp Sinn. The focus was on wave energy, wave dynamics, load behavior, and the development of robust, modular maritime energy systems. 6th EFP Harbor modules & platform architecture Within the 6th EFP, the research was transferred into an application-oriented system. Modular harbor and platform modules were developed with a focus on transportability, assembly, scalability, and suitability for real maritime operating conditions. 6th Energy Research Programme Harbor modules & platform architecture During the 6th Energy Research Programme, the research was transferred into an application-oriented system. Modular harbor and platform modules were developed, designed to be transportable, easy to assemble, scalable, and suitable for real maritime operating conditions. Floating test as part of the 7th Energy Research Programme Floating test of the PV platform The floating test validated the platform for the first time as a real, integrated system with photovoltaics. Tested aspects included buoyancy, load-bearing structure, PV integration, installation handling, and the platform’s behavior in the water. 7th EFP · Current phase Long-term testing & hybrid SOcean platform In the current 7th Energy Research Programme, the platform is installed at a fixed position and further tested in long-term operation. At the same time, it is being advanced into a hybrid SOcean platform integrating photovoltaics, wave energy, and maritime infrastructure. BACK TO OVERVIEW SKIPP TECHNOLOGIES FLOATING PVs COSTUMIZED PV

Nachhaltige Energielösungen für die Agrarwirtschaft. From Farmer to Energy Manager Traditional agriculture and the production of renewable energy are not mutually exclusive; on the contrary: agri-photovoltaics enables dual use of photovoltaics and agriculture on one and the same area. The area efficiency is increased enormously. SKipp Agri-PV: The advantages at a glance Highest yield with a profile that benefits the grid: A large part of the electricity yield is generated in the morning and afternoon. This is when feeding into the grid is particularly profitable High storm and snow resistance: In the event of high wind loads, the module deflects while maintaining high stability Possible with or without piling: Piling allows for management close to the plant. Low material usage, low maintenance: Made from drinking water and environmentally friendly materials SKipp Agri-PV: Privileges for extensive agriculture Following recent EEG changes: In the spatial-functional context of an agricultural, forestry or horticultural operation that is privileged in the outdoor area, an agri-photovoltaic system of up to 2.5 hectares is now privileged . This means that a building application can be approved without the prior preparation of a development plan (according to Section 35 of the Building Code). By privileging agri-PV systems, the necessary legal framework is in place to advance the pioneering combination of energy production and agricultural use. The use of vertical, bifacial systems that are oriented east and west is particularly useful. They use little space and in periods of drought, slight shading can even lead to better yields. They also promote a more even use of the electricity grid, as they do not generate a midday peak like conventional solar modules, but rather supply electricity primarily in the morning and evening. Our solution: SKipp Agri In order to guarantee the EEG technology bonus of an additional 2.5 ct / kWp (2024), we offer our PV systems with the required clear height of 80 cm. Depending on how your area is managed, you can choose between a piled or non-piled variant. Regardless of this, our SKipp solutions have one thing in common: the PV modules deflect under wind load. Download information sheets here: Datenblatt SKipp Agri BACK TO OVERVIEW Plan your next project with SINN Power! We will be happy to advise you in a personal consultation free of charge and create a tailor-made energy concept for you. Fast & uncomplicated. SINN Power GmbH Germeringer Str. 9 82131 Gauting, Germany +49 (0)89 92566192 contact@sinnpower.com Name Surname Email address Telephone Address Subject Write the message... Send Thank you!

Wir bei SINNPower glauben, dass Nachhaltigkeit und Innovation Hand in Hand gehen. Werde Teil eines Teams, das Lösungen schafft, wo andere keine finden. Shaping the future together... At SINNPower, we believe that sustainability and innovation go hand in hand. Become part of a team that creates solutions where others cannot find them. Apply now! Why SINN Power is the right employer for you Innovative company with a vision for the future SINN Power develops sustainable photovoltaic technologies for energy generation and regularly sets new market standards. Flat hierarchies & creative freedom Everyone can contribute ideas and take on responsibility early. Open communication and a positive approach to mistakes foster innovation. Flexibility & Work-life balance Flexible working hours and a pleasant working atmosphere with modern offices, garden and leisure facilities Personal & professional development Individual training opportunities and career prospects in a dynamic environment Great team & strong company culture A friendly working atmosphere, helpful colleagues and regular team events ensure pleasant cooperation. Attractive additional benefits Sports programs, company bike schemes and performance-related additional benefits make working even more pleasant. SINNPower is looking for you! At SINN Power, personality, passion and a spirit of innovation are paramount. Our young, value-oriented team works on sustainable energy solutions and actively helps shape them. You immediately take on responsibility and can contribute your own ideas. Flat hierarchies and an open, creative environment offer you space for personal development and growth. Diversity and openness are important to us, as is the opportunity to work in small teams on tailor-made solutions. Flexible working hours and an inspiring work environment with a foosball table, large kitchen and garden ensure that work is enjoyable. Job advertisements Your workplace at SINNPower 01 value orientation We are a young team that identifies with SINNPower. Our CEO lives and breathes passion for climate protection and renewable energies. 02 responsibility and trust We trust in your abilities, delegate responsibility early on and promote a positive error culture with flat hierarchies. 03 space for innovation We trust in your abilities, delegate responsibility early on and promote a positive error culture with flat hierarchies. 04 Joint cooperation We trust in your abilities, delegate responsibility early on and promote a positive error culture with flat hierarchies. 05 career-enhancing We offer opportunities for further development and actively strengthen your role. 06 Modern team culture Our working environment is characterised by trusting cooperation, flexible working hours and respectful interaction. We communicate decisions openly and transparently. With us, you will experience startup flair with the security of an established company – no routine, but freedom for innovation and participation! SINNPower success stories #CareerWithMeaning Joshua - From intern to mechanical engineer - an inspiring development! Joshua started with us as an intern in 2023, has since become a working student, wrote his master's thesis here - and will join us as a mechanical engineer in 2025. A success story that makes us proud! We are delighted to be able to continue to accompany Joshua on his journey. Document Sensational Friday – Enjoying the end of the workday together At our company, innovation isn’t the only priority – team spirit matters just as much! Once a month, we wrap up the week together with our “Sinnsational Friday.” Whether it’s a relaxed barbecue in the garden, outdoor activities, or simply spending time together – the afternoon is all about the team. Exchange and networking in a relaxed atmosphere Strengthening team cohesion beyond the daily office routine Delicious food & good conversation Where meaning meets power - Innovative into a sustainably successful future!

Die FAQ-Seite zur Rentabilität bei SINN Power beantwortet häufig gestellte Fragen zu den finanziellen Vorteilen und der Wirtschaftlichkeit unserer innovativen Energielösungen. Rentabilität Wie viel kostet eine Photovoltaik-Anlage von SINNPower? Die Kosten einer PV-Anlage hängen stark von den individuellen Rahmenbedingungen und der gewählten Technologie ab – etwa von der Anlagengröße, dem Standort, der Konstruktion (Dach-, Freiflächen- oder Floating-PV) sowie zusätzlichen Komponenten wie Wechselrichtern oder Montagesystemen. Da jedes Projekt maßgeschneidert geplant wird, erstellen wir gerne ein individuelles Angebot auf Basis Ihrer Anforderungen und Standortdaten. Unser Sales-Team berät Sie persönlich und ermittelt gemeinsam mit Ihnen die beste Lösung. Telefon: +49 89 92566192 E-Mail: sales@sinnpower.com Welche Finanzierungsmöglichkeiten gibt es? Für die Umsetzung einer PV-Anlage von SINN Power stehen verschiedene Finanzierungsmodelle zur Verfügung, die je nach Projektgröße, Standort und Unternehmensstruktur individuell kombiniert werden können: KfW-Förderkredite – Zum Beispiel das Programm KfW 270 „Erneuerbare Energien – Standard“ mit zinsgünstigen Darlehen für PV-Projekte. Leasing oder Contracting durch Dritte – Ein externer Partner übernimmt die Finanzierung und oft auch den Betrieb der Anlage, während Sie den erzeugten Strom nutzen. Eigenfinanzierung – Direkte Investition aus Eigenmitteln, bei Bedarf kombiniert mit BAFA-Zuschüssen für bestimmte Effizienz- oder Speicherlösungen. Einnahmen durch Stromvermarktung – Zusätzliche Erträge können über die EEG-Einspeisevergütung oder PPA-Modelle (Power Purchase Agreements) erzielt werden. Auf Wunsch beraten wir Sie individuell zu den passenden Förder- und Finanzierungsoptionen und begleiten den gesamten Prozess von der Planung bis zur Umsetzung. Welche Voraussetzungen müssen für die Verpachtung erfüllt sein? Für die Verpachtung einer Fläche zur Errichtung einer PV-Anlage sind einige grundlegende Voraussetzungen zu beachten: Klarer Eigentumsnachweis oder vertraglich gesichertes Nutzungsrecht. Langfristiger Nutzungsvertrag, um die Investition abzusichern. Keine Nutzungsrestriktionen wie z. B. Naturschutzauflagen oder bestehende Nutzungsverträge, die der Installation entgegenstehen. Zugang zur Fläche für Bau, Wartung und Betrieb der Anlage. Vorhandener oder herstellbarer Zugang zum Netzanschlusspunkt. Gibt es rechtliche Hürden bei der Errichtung der PV-Anlage? Ja, abhängig von Bundesland, Standort und Anlagentyp können verschiedene Genehmigungen und Auflagen erforderlich sein: Genehmigungspflicht: Je nach Größe, Anlagentyp und Landesbauordnung ist eine Baugenehmigung oder Anzeige erforderlich. Netzanschlusszusage: Vor Baubeginn muss der Netzbetreiber den Anschluss bestätigen. Wasserrecht (bei Floating-PV): Erforderlich für Installation auf Gewässern, teils mit zusätzlicher Planfeststellung bei öffentlichen Gewässern. Wie funktioniert die steuerliche Abschreibung einer PV-Anlage? Für Photovoltaikanlagen stehen in Deutschland aktuell zwei Abschreibungsmethoden zur Verfügung: Lineare Abschreibung (AfA): Gleichmäßige Abschreibung über die Nutzungsdauer, in der Regel 20 Jahre. Degressive Abschreibung: Höhere Abschreibung in den ersten Jahren, derzeit mit bis zu 20–25 % pro Jahr vom Restwert möglich. Betreiber, die Strom verkaufen, sind in der Regel gewerbesteuerpflichtig. Zudem ist bei Netzeinspeisung eine Umsatzsteuer-Identifikationsnummer (USt-ID) erforderlich. Welche Methode wirtschaftlich am sinnvollsten ist, hängt von der Finanzplanung, der Unternehmensstruktur und möglichen steuerlichen Sonderregelungen ab. Ein Steuerberater kann hier die individuell optimale Strategie festlegen. Wie lange dauert es, bis sich meine Investition in eine PV-Anlage amortisiert? Die Amortisationsdauer liegt in der Regel zwischen 5 und 15 Jahren und hängt von verschiedenen Faktoren ab. Entscheidend sind unter anderem die gewählte Technologie, die Systemgröße, der aktuelle und künftige Strompreis, mögliche Förderungen oder steuerliche Vorteile, die Eigenverbrauchsquote sowie die Vermarktungsform des Stroms (z. B. über ein Power Purchase Agreement – PPA). Je höher der Eigenverbrauch und je günstiger die Förder- oder Vergütungsbedingungen, desto schneller amortisiert sich die Anlage – in einigen Fällen sogar deutlich unterhalb des Durchschnittsbereichs. Wie hoch ist die Einspeisevergütung für Photovoltaik-Anlagen? Unter den aktuellen Rahmenbedingungen des novellierten Erneuerbare-Energien-Gesetzes (EEG) beträgt die Einspeisevergütung 9 Cent pro Kilowattstunde (ct/kWh) für neue PV-Anlagen (Stand: 2025). Diese Vergütung gilt für Anlagen, die ihren erzeugten Strom vollständig oder teilweise in das öffentliche Netz einspeisen und dafür einen entsprechenden Netzanschluss sowie eine Meldung bei der Bundesnetzagentur vorweisen können. Die genaue Höhe kann je nach Anlagengröße, Inbetriebnahmedatum und Nutzungskonzept (Volleinspeisung vs. Eigenverbrauch) leicht variieren. Bei Floating-PV-Anlagen, die an Ausschreibungsverfahren teilnehmen, gelten ggf. individuelle Vergütungssätze. Sind PV-Anlagen rentabel? Ja, in den meisten Fällen. PV-Anlagen sind eine langfristige Investition mit attraktiven Renditen durch: gesparte Stromkosten (Eigenverbrauch), Einspeisevergütungen, staatliche Förderprogramme, positive Umweltbilanz und ESG-Wirkung. Kann man mit PV-Anlagen vollständig autark sein? Rein technisch ist eine vollständige Autarkie mit Photovoltaik möglich – in der Praxis aber oft teuer, aufwendig und selten notwendig. Hoher Speicherbedarf: Um auch in der Nacht oder bei Schlechtwetter versorgt zu sein, sind große Batteriespeicher nötig – das erhöht Kosten und Platzbedarf erheblich. Überdimensionierung: Für echte Autarkie muss die PV-Anlage auf den Energiebedarf in den dunkelsten Wintermonaten ausgelegt sein – was im Sommer zu massiven Überschüssen führt. Kosten-Nutzen-Verhältnis: Eine 100 % Autarkie ist meist wirtschaftlich nicht sinnvoll, vor allem bei bestehendem Netzanschluss. Komplexere Technik: Inselnetzbetrieb erfordert spezielle Steuerung, Backup-Systeme (z. B. Notstromaggregat) und regelmäßige Wartung. Fazit: Eine teilweise Autarkie mit PV und Speicher ist gut erreichbar und wirtschaftlich attraktiver. Eine vollständige Unabhängigkeit lohnt sich meist nur in sehr abgelegenen Regionen oder bei besonderen Anforderungen. Gibt es Förderprogramme, die ich mit SINN Power nutzen kann? Ja, es gibt einige attraktive Fördermöglichkeiten, von denen Sie mit einem Projekt bei SINN Power direkt profitieren können. EEG-Vergütung: Auch Floating-PV-Anlagen auf künstlichen Gewässern (z. B. Baggerseen) können nach dem Erneuerbare-Energien-Gesetz (EEG) gefördert werden – etwa über Marktprämien bei Direktvermarktung. Innovationsausschreibungen der Bundesnetzagentur: SINN Power unterstützt gezielt bei Projekten, die an Ausschreibungen für innovative PV-Systeme teilnehmen – z. B. mit Speicher oder besonderen Standortbedingungen. Regionale Förderprogramme: Einige Bundesländer oder Kommunen bieten zusätzlich Investitionszuschüsse oder Beratungsgelder – besonders im Kontext von Dekarbonisierung und ESG-Initiativen in Industrie und Hafenwirtschaft. KfW-Finanzierung: Ergänzend können über die KfW zinsgünstige Kredite oder Klimaschutzprogramme in Anspruch genommen werden. Was sind realistische Erträge für eine Solaranlage? Die Erträge einer Solaranlage hängen von Technologie, Standort und Modulausrichtung ab. In Deutschland liegen realistische Werte bei etwa 800–1.400 kWh pro installiertem kWp und Jahr. Anlagen mit optimaler Ausrichtung und hochwertigen Komponenten erreichen dabei die oberen Werte, während ungünstigere Bedingungen wie Verschattung oder suboptimale Neigung die Erträge entsprechend reduzieren können Wie wirkt sich Eigenverbrauch vs. Einspeisung auf die Rentabilität aus? Der Eigenverbrauch hat in der Regel eine deutlich höhere wirtschaftliche Wirkung als die Netzeinspeisung. Warum? Strom selbst nutzen spart mehr, als ihn zu verkaufen: Der Preis, den man für selbst erzeugten Strom nicht vom Netz beziehen muss, ist meist deutlich höher als die Einspeisevergütung. Höhere Autarkie, geringere Stromkosten: Wer einen Großteil seines PV-Stroms selbst nutzt – z. B. mit Speicher oder intelligentem Lastmanagement – senkt seine laufenden Energiekosten spürbar. Einspeisung als Zusatz, nicht als Hauptstrategie: Die Einspeisung ins Netz bringt zwar Einnahmen, aber kaum Rendite im Vergleich zur Eigenstromnutzung. Gewerbliche Nutzung besonders lohnend: Wenn der Verbrauch tagsüber stattfindet (z. B. in Betrieben), kann ein sehr hoher Anteil direkt genutzt werden – das maximiert die Wirtschaftlichkeit. Fazit: Je höher der Eigenverbrauchsanteil, desto besser die Rentabilität. Eine kluge Anlagendimensionierung, ggf. kombiniert mit Speicherlösungen, steigert den wirtschaftlichen Nutzen deutlich. ALL QUESTIONS

Your Industrial rooftop PV system in Koblenz Including PPA and battery storage 1.09 MWp | ready for implementation Approved. Structured revenue. Implementation in preparation. Click here to access the contact form KEY FACTS Overview of the project location Location: Roof of Kalzip GmbH in Koblenz PV output: 1.09 MWp (rooftop) Storage capacity: 410 kWh battery storage Status: Approved and ready to build Revenue basis: Secured long-term through PPA and 20 years of EEG remuneration Investment model: Acquisition of individual inverter units, 1/7 of the system including proportionate revenues and costs, up to and including total purchase. EXCLUSIVE: PV Investment Koblenz 1.09 MWp photovoltaic power & 410 kWh battery storage At the Kalzip GmbH site in Koblenz, SINN Power has a fully approved and ready-to-build rooftop photovoltaic project. With an installed capacity of 1,086 kWp (875 kW AC) and a 410 kWh (250 kW) battery storage system, an efficient power supply is being implemented directly at the industrial site. The revenue structure is secured in the long term: A power purchase agreement (PPA) with the site user and the 20-year EEG remuneration for grid feed-in ensure predictable cash flows and reduce dependence on short-term market price fluctuations. The PV system is divided into seven technically separately measurable inverter units. Each unit represents 1/7 of the total system and constitutes an economically independent acquisition unit. Acquiring a unit entitles the holder to a proportional claim of 1/7 of the revenue from feed-in tariffs and power purchase agreements (PPAs), as well as the obligation to bear 1/7 of the operating costs. Acquiring multiple units is possible – up to and including the complete acquisition of all seven units. SINN Power will handle the turnkey implementation as well as the ongoing technical and commercial operation of the plant. We would be happy to send you a project exposé via email if you have any further questions. If you are interested, please feel free to arrange a personal meeting with us to discuss participation options and the next steps. First name Last name Email Message Phone number (optional) Submit We appreciate your interest!

Storage solutions for a resilient energy future Decentralized power generation and the associated energy resilience is crucial for companies, especially in times of increasing uncertainty and challenges in the energy supply. Photovoltaic systems and battery storage play a central role in ensuring security of supply: in this way, the power supply can be stabilized and independence from the volatile electricity market can be achieved. SINN Power supports you in optimally integrating battery systems into your energy infrastructure to ensure grid stability, reduce energy costs and increase your resilience. Why storage systems are essential for energy resilience Battery storage systems are the key to a stable and efficient energy supply: they store excess energy and make it available in a targeted manner. Your company benefits from: 01 balancing of fluctuations Renewable energy sources are weather dependent and do not always produce consistent energy. Battery storage systems can store excess energy and release it when needed to balance out fluctuations in the power grid. 03 emergency power supply In the event of a power outage, battery storage can serve as an emergency power supply and ensure uninterrupted production. 02 stabilization of the power grid Large battery storage systems help to stabilize the power grid by absorbing peak loads and regulating the grid frequency. This can prevent power outages. 04 cost efficiency In the long term, battery storage systems can save costs by increasing the efficiency of the energy supply. Three steps to your leasehold rental! Here's how it works: 1. Inspection of the area We examine the conditions of your area for feasibility and energy potential. We ensure that all technical and legal requirements are met. 2. Planning and construction of the plant From the first sketch to the installation: We develop a tailor-made energy solution and take care of the entire planning and implementation of the system. 3. Load management & optimization Our experts take care of the maintenance and smooth operation of the system. You benefit from clean energy without having to worry about the details. We work with proven storage solutions and partners to develop the best resilience strategy for your business and help you find the right storage solution for your needs. Get advice! Would you like to take your energy supply to the next level? SINNPower supports you in the selection, integration and optimization of storage solutions so that your company is supplied with renewable energy in a stable and cost-efficient manner in the long term. Contact

Du hast Fragen zu SINNPower und unseren Photovoltaiklösungen? Unsere FAQ-Seite bietet dir schnelle Antworten zu unseren Produkten, Dienstleistungen und Unternehmensinformationen. Frequently Asked Questions Here you can find the most frequently asked questions and their answers. The questions are organized into categories to help you find what you’re looking for more quickly. General Questions Product-Specific Questions Our solutions combine innovative technology with efficiency. In this section, we answer questions about the features, operation, and applications of our products. Product Questions Do you have questions about SINN Power, our company, or our vision? Here you can find answers to the most important general topics regarding our technology and offerings. General Questions Profitability & Financing How profitable is an investment in SINN Power technology? What financing options are available? Here, you can learn everything about profitability, funding opportunities, and cost structures. Financial Questions Technical Questions From installation to ongoing operation: Here you can find answers to technical questions about our systems, their maintenance, and integration into existing infrastructures. Technical Questions Financial Performance Is investing in our technology worthwhile? In this section, we explain the factors that affect profitability and how you can benefit from our solution in the long term. Profitability Questions Environment and Sustainability Renewable energy is the key to a sustainable future. Here, you can learn how our technology contributes to environmental protection and how it integrates into sustainable concepts. Environmental Questions What would you like to learn more about? Can’t find what you’re looking for? Contact us anytime at info@sinnpower.com

Entdecken Sie unsere patentierten SKipp-Technologien für maximale Energieeffizienz. SKipp technologies Our SKipp product family includes innovative solutions for tiltable photovoltaic (PV) modules that are particularly characterized by flexibility and efficiency. These systems are designed to make optimal use of different surfaces and environments, such as roof surfaces, bodies of water or other specialized locations. The SKipp family stands for reliable and efficient solutions in renewable energy generation. As a patented product, it offers unique technical features that have been specially developed for use in demanding environments: - Modular design: Flexible adaptation to different application areas and project sizes. - High efficiency: Optimized energy generation through innovative technology. - Robustness: Durable and resistant to extreme weather conditions. - Sustainable performance: maximum performance with minimal maintenance requirements. Our patent protects not only the technological design, but also the special properties that make the SKipp family a unique solution on the market. Trust in tested, future-proof technology - for a sustainable energy supply. SKipp Float Areas of application Gravel pits / quarry lakes open-pit mining lakes fish farms Port areas Lagoons Advantages no anchoring in the lake necessary Stability through deflectable modules under wind load Snow slides off the modules high yield through bifacial modules vertical east-west orientation: grid-friendly generation profile No sealing of the water surface (15% regulation): also suitable for smaller bodies of water Construction of up to 30% more modules compared to conventional systems Datenblatt Deutsch Datenblatt Englisch Blog SKipp Agri PV Areas of application Agri-PV as a "special solar system": Construction secures the EEG technology bonus Areas whose soil zone should not be breached Advantages no piling or anchoring in the ground necessary deflectable under wind loads: high storm and snow resistance high yield through bifacial modules vertical east-west orientation: grid-friendly generation profile Datenblatt Deutsch Datenblatt Englisch Blog SKipp Agri PV Areas of application Agri-PV as a "special solar system": Construction secures the EEG technology bonus Advantages Depending on the agricultural use, piling allows for close-to-plant management deflectable under wind loads: high storm and snow resistance high yield through bifacial modules vertical east-west orientation: grid-friendly generation profile Datenblatt Deutsch Datenblatt Englisch Blog SKipp Land Areas of application open spaces water protection zones former landfills Advantages no surface sealing or soil penetration, no piling, deflectable under wind loads: high storm and snow resistance high yield through bifacial modules vertical east-west orientation: grid-friendly generation profile temporary installation possible Datenblatt Deutsch Datenblatt Englisch Blog SKipp Roof Areas of application Green roofs Flat roofs (even in areas that are already greened) Advantages Construction without anchoring in the roof skin Stability through deflectable modules under wind load Snow slides off the modules high yield through bifacial modules vertical east-west orientation: grid-friendly generation profile Green roofs: Vertical structure promotes growth Retrofitting of already green roofs Blog Datenblatt Deutsch Datenblatt Englisch BACK TO OVERVIEW FLOATING PV COSTUMIZED PV Your next planning a project We would be happy to advise you in a personal meeting and create a tailor-made energy concept for you. Quick & uncomplicated. SINN Power GmbH Germeringer Str. 9 82131 Gauting, Germany +49 (0)89 92566192 contact@sinnpower.com First name Last name Email address Phone number Adress Subject Enter your message... Submit