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voda 22 februari 2021 10:14

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Siemens Gamesa & CrossWind Hollandse Kust Noord Offshore Project

Siemens Gamesa Renewable Energy and CrossWind have executed the contract to deliver the turbines for the 759 MW Hollandse Kust Noord offshore wind park. It includes the supply of 69 SG 11.0-200 DD offshore wind turbines and a 15 year service and a maintenance agreement. Final conditions are planned to be met in the coming months, converting the contract into a firm order for Siemens Gamesa. The Notice to Proceed has been signed, following the issuance of the irrevocable permit from the Dutch authorities to CrossWind in December 2020.

The Hollandse Kust Noord project is the third project of the Dutch national offshore wind roadmap based on subsidy-free tenders. As the first project for Siemens Gamesa with joint venture partner Shell, and the second offshore project with joint venture partner Eneco, the companies are keen to join forces and create a broader renewable-energy future. CrossWind’s parent companies Shell and Eneco have already taken the Final Investment Decision.

CrossWind is a joint venture between Shell (79.9%) and Eneco (20.1%), specially created for this offshore wind project. Construction work on Hollandse Kust Noord is expected to commence in 2023 with turbine commissioning planned to be completed the same year. When operational, the offshore wind power plant will be able to generate renewable energy equal to the energy needs of 1 million Dutch households.

The Netherlands is planning to build six offshore wind zones between 2015 and 2030 on the path to achieve carbon neutrality and combat climate change. Of these zones, Siemens Gamesa offshore wind turbines will be installed at all three awarded zones when construction is completed: exclusively at Hollandse Kust Zuid and Hollandse Kust Noord and co-installed at Borssele.

Offshore wind has been determined to play a decisive role in the Dutch movement towards carbon neutrality and combatting climate change. Under the Ministry of Economic Affairs and Climate Policy, the Dutch national government is aiming for a minimum of 55% reduction of greenhouse gas emissions in 2030 compared to 1990. The Netherlands also wants to achieve zero greenhouse gas emissions from the energy supply by 2050. Both an acceleration of deployment of offshore wind and a focus shift from “cost reduction” to “minimal CO2 design” change is needed to reach both 2030 and 2050 targets.

The SG 11.0-200 DD offshore wind turbine provides a high degree of reliability in demanding offshore wind projects from its strong performance, swift time-to-market, and low risk. The machine features a 200-meter diameter rotor utilizing the 97-meter long Siemens Gamesa B97 Integral Blade. It furthermore provides an increase of 9% in Annual Energy Production compared to the SG 10.0-193 DD offshore wind turbine.

Source - Strategic Research Institute

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ffff 4 maart 2021 10:54

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www.finanzen.net/nachricht/aktien/ind...

Eigenlijk best frappant: SIEMENS ENERGY staat over ruim twee weken ook in de DAX !!

Dit ten koste van het alombekende Beiersdorf. In principe natuurlijk positief voor Siemens Energy. Opvallend die verschuiving van sectoren, ook binnen de DAX.

Peter

Felix07 4 maart 2021 11:36

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Je bent me voor, Peter, ik had het bericht zojuist ook op linked-in gezien en wilde het hier ook plaatsen:)

Inderdaad uitstekend nieuws. Dit trekt een grote groep passieve investeerders (zij die simpelweg de DAX volgen), en daarnaast is het een belangrijk onderdeel van de equity-story voor Energy. Size does matter in deze industrie, en dit geeft simpelweg de grootte van de onderneming aan.

Daarbij is dit ook goed nieuws voor Siemens: Siemens houdt direct en indirect (via het pensioenfonds) een belang in SE. Daarnaast is het ook een teken dat de carve-out, spin-off en de roadshow hieromheen goed is gelukt: beleggers hebben simpelweg interesse in Energy.

voda 5 maart 2021 15:23

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DNV GL Certificate for Siemens Gamesa’s La Plana

DNV GL has awarded the first Type Certificate of grid code compliance for Siemens Gamesa´s hybrid power plant “La Plana: Storage, wind and solar” near Zaragoza, Spain. The Type Certificate for control behaviour and other grid code requirements, based on tailored testing approach within existing specification, proves the potential to support grid stability and features specially developed tests for control functions that are not yet covered by international guidelines.

The deployment of renewable energy is accelerating in electrical systems around the world to meet emission targets. However, renewable sources like solar and wind are intermittent – with generation levels dependent on conditions. By combining renewables with energy storage and optionally other generation technologies, hybrid power plants offer the potential to reduce the variability of supply. This makes hybrid plants an increasingly attractive option to continue the development of renewable energy.

To demonstrate that such a hybrid power plant could supply electricity to the grid in a stable way, Siemens Gamesa contracted DNV GL to carry out grid code compliance certification on the entire plant without diesel gensets. The certification was carried out using a tailored approach that followed the procedure defined in the DNVGL-SE-0124 certification of grid code compliance service specification. As part of the approach, DNV GL developed new tests for hybrid-specific control functions that are not currently covered by international guidelines, including control functions like “base load”, “peak shaving” and “smoothing control”.

The “La Plana” pilot plant was commissioned in 2015 to explore the potential of hybrid power. It combines 850 kW of wind power, 245 kWp of solar photovoltaic panels three optional diesel generators and two types of battery energy storage technologies with a novel hybrid plant controller (HPC) that manages the mix of generating technologies in real time. “La Plana” is one of Siemens Gamesa’s critical assets for its main validation and verification activities in Spain. The plant can work in Ongrid but also in Offgrid operation mode, and is also able to work in Offgrid zero-diesel operation mode with gensets turned off. Transitions between Ongrid and Offgrid are also possible thanks to the Weak Grids control mode. Currently the Virtual Power Plant (VPP) control mode is added to “La Plana”.

Source - Strategic Research Institute

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voda 5 maart 2021 15:56

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Siemens Gamesa Bags Order for Courseulles-sur-Mer Offshore Wind

Leading France’s wind power revolution, Siemens Gamesa Renewable Energy has been awarded the firm order from the EDF Renewables-Enbridge-wpd consortium for the 448 MW Courseulles-sur-Mer offshore wind power project. Located 10 km off the Bessin coast, the project brings the total capacity awarded to Siemens Gamesa by the consortium in France to approx. 1 GW. Both the wind turbine nacelles and blades for the Courseulles-sur-Mer project are scheduled to be produced at the Siemens Gamesa facility currently under construction in Le Havre.

The 448 MW project will rely upon the stable technology of the SWT-7.0-154 Direct Drive offshore wind turbine, a part of the world’s most installed offshore turbine fleet. Installation and commissioning of the Courseulles-sur-Mer project is scheduled for 2024.

Source - Strategic Research Institute

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voda 9 maart 2021 10:52

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Siemens Gamesa Inks 50MW Deal with EnergieKontor UK

Siemens Gamesa has signed a 50 MW deal with EnergieKontor UK Ltd to supply the subsidy-free Longhill Burn wind farm near Edinburgh with the industry-leading SG 5.8-155 turbines, one of the most powerful wind turbines in the sector. The contract comes before the next renewable energy auction, CfD round 4, scheduled for late this year. The deal shows green shoots for the resilient onshore wind sector in the UK and is a strong sign that one of the lowest cost sources of energy is able to help meet the country’s ambitious net zero target.

The deal is also the first for the Siemens Gamesa 5.X platform in the UK, a platform that through its large 155-meter rotor and latest technology offers one of the highest power ratings in onshore wind and a flexible rating capability to 6.6 MW. The wind turbine order is accompanied by a 25-year full-scope service agreement.

Since its launch in April 2019, the Siemens Gamesa 5.X platform has now recorded over 2.3 GW in sales, with major contracts to supply wind farms in Sweden, Brazil, Finland and now the UK.

Source - Strategic Research Institute

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voda 16 maart 2021 09:56

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Siemens Gamesa to Supply 41 Turbines for Harapaki Wind Farm

Siemens Gamesa will supply 41 of its wind turbines for New Zealand’s second largest wind farm to Meridian Energy, strengthening its leading position in the country’s wind energy market. Following its expected commissioning in 2023, the 176 MW Harapaki wind farm will generate sufficient renewable energy to power over 70,000 local average households and support New Zealand’s goal of achieving 100% renewable electricity generation by 2030. Additionally, Siemens Gamesa signed a 30-year long-term contract to provide operation and maintenance services, ensuring optimized performance of the wind farm.

The wind farm will be developed by Meridian Energy, one of New Zealand’s largest listed companies and the country’s largest wind energy developer. Siemens Gamesa has already supplied 267 MW to Meridian, including West Wind, its largest operating wind farm (142.6 MW).

As New Zealand strives for 100% renewable energy generation by 2030 and net zero carbon emissions by 2050, the role of electricity and wind energy in the aspirational transformation is increasingly recognized. At present, the country has installed wind capacity of approximately 1,050 MW.

Source - Strategic Research Institute

voda 17 maart 2021 08:55

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Siemens Gamesa to Supply 30 Turbines to Elawan Energy in Spain

Siemens Gamesa has signed one of its largest contracts in Spain in terms of capacity. It is a 150 MW agreement with Elawan Energy to supply 30 SG 5.0-145 model turbines, one of the company's most powerful onshore wind turbines, which is increasingly gaining ground in the country, and is especially suitable for sites with medium level winds. The wind complex, formed by three wind farms in the same area – Fuente Álamo, Frontones and Derramador, with 50 MW each - is located in central Spain, in the province of Albacete, and is scheduled to be commissioned in mid-2022. The contract with Elawan also includes a long-term service agreement for a period of 20 years.

The 150 MW of clean energy that the complex will produce will provide electricity to more than 110,000 households, almost the entire province of Albacete. In addition, its size will help to avoid the emission of nearly 400,000 tonnes of CO2 a year, the equivalent to the emissions of more than 200,000 vehicles. To achieve this CO2 saving, just over six million trees would need to be planted.

Siemens Gamesa currently has around 15 GW installed across Spain, representing 53% of the total installed capacity in the country, which, according to the latest available data from the Spanish Wind Energy Association (AEE), reached 27.5 GW in 2020. Wind power has become the technology with the largest installed capacity in the country for the first time.

The company will also strengthen its position in Castilla La Mancha, a region where it has been present since 1999 and where it currently has 2,292 MW installed and connected to the grid, 59% of the total installed capacity in the region. To this capacity must be added the 150 MW signed with Elawan.

The 30 nacelles will be assembled at Siemens Gamesa's plant in Ágreda (Soria), the gearboxes will be produced at the plants in Asteasu (Guipúzcoa), Lerma (Burgos) and the city of Burgos, and the electrical components will be produced at the factories in Reinosa (Cantabria), San Fernando de Henares (Madrid) and Benisanó (Valencia). Siemens Gamesa has nine plants in Spain employing 1,200 people, and 4,500 employees in total in the country.

Source - Strategic Research Institute

voda 22 maart 2021 11:18

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Siemens Sumitomo JV Commissions VSC HVDC Link in India

The joint venture of Siemens Energy and Sumitomo Electric has completed connecting India’s first high voltage direct current link featuring voltage-sourced converter and DC-XLPE cable technology. The 2,000 megawatts electricity transmission system consists of two converter stations, that are connected via two links comprising DC-XLPE cable and overhead transmission line. It enables the power exchange between Pugalur in the southern state of Tamil Nadu and Trichur in Kerala State in South-West India and supports transmission operator Power Grid Corporation of India to counter power deficit in India’s southern region and improve the grid stability. Siemens Energy supplied the two converter stations for the ±320 kilovolt (kV) HVDC system while Sumitomo Electric was responsible for the XLPE HVDC cable system in the DC circuit.

Siemens Energy is responsible for design, engineering, supply, installation, and commissioning of the HVDC stations, including converter valves, transformers, cooling systems as well as control and protection technology, plus a complete transition station, while Sumitomo Electric provides design, engineering, supply and installation of the HVDC cable system including civil and installation works. In comparison to conventional HVDC systems, the VSC-based HVDC PLUS technology featured at the Pugalur-Trichur link comes with benefits like additional control features, black start capability, and other functions that will improve the performance and security of the transmission system. The converter stations are linked via a 108km XLPE HVDC cable system comprising four cables a route of 27 km each which was supplied by Sumitomo Electric, and overhead transmission line a route of approximately 155 km installed under another contract.

Source - Strategic Research Institute

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voda 23 maart 2021 10:20

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Siemens to Supply Gas Turbines to Shenzhen Energy

Siemens Energy has been selected by Shenzhen Energy Corporation in China to supply two 460-megawatt F-class gas turbine power islands for Phase Two of the Corporation’s Fengda Power Plant Natural Gas Power Generation Expansion Project. The order marks another milestone resulting from the Comprehensive Strategic Partnership Agreement signed by the two companies in 2019. Under terms of the technology supply agreement, Siemens Energy will supply two sets of SGT5-4000F gas turbines, steam turbines, generators and related auxiliary equipment for the project. Located in Huizhou City, Guangdong Province, the project is expected to be put into operation in 2023.

When completed, the estimated annual power generation capacity will exceed 2.7 billion kWh and carbon dioxide emissions target per unit GDP will be significantly reduced as will nitrogen oxide emissions This will mark a significant step in helping meet the rapidly growing power demand in the eastern core area of Guangdong-Hong Kong-Macau Greater Bay Area and help ensure the safe and stable operation of the region’s power supply system. In addition, the project will play an important role in peaking operation in the power load center.

Siemens Energy and Shenzhen Energy Corporation signed the Comprehensive Strategic Partnership Agreement in December 2019. According to the agreement, the two sides will jointly build energy laboratories and actively expand cooperation in energy technology research and development, comprehensive solutions for clean energy, smart energy and digitalization, and green hydrogen energy. In January 2021, Siemens Energy launched its Shenzhen Innovation Center, and the two companies signed a framework agreement to continuously strengthen cooperation in technology and industrialization.

Source - Strategic Research Institute

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voda 24 maart 2021 11:34

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Cloud Based Power Monitoring at Port of Kiel’s Shore Power System

The Port of Kiel commissioned Siemens Smart Infrastructure to implement a cloud-based power monitoring solution for its shore power system. The shore power system, also from Siemens, will cover the electricity demand of all ships at the Ostseekai and Schwedenkai with green power while they are berthed at the Port of Kiel. This saves more than 8,000 tons of CO2 per year. The new power monitoring solution makes it possible to measure the energy consumption in the shore power operations building and at the Ostseekai and Schwedenkai connecting points, and store the data in MindSphere, the cloud-based IoT system from Siemens. The operators have access to all relevant electrical values at any time and from anywhere, allowing them to determine consumption, identify faults, avoid downtimes, and plan maintenance routines better.

All data is captured using 7KM PAC series measuring devices, bundled, and transferred to MindSphere via the Powercenter 3000 IoT data platform, and visualized either via the integrated web server or the Sentron “powermind” app. The app can be used intuitively and requires no specific IT knowledge.

The Port of Kiel has ferry connections to Scandinavia and to the Baltic states and is the starting point for many cruises. In 2019, 32 different cruise ships called at the Port of Kiel a total of 174 times, bringing about 800,000 passengers to Kiel. The first shore power system was commissioned in May 2019 at Norwegenkai. The second facility, with connecting points at Ostseekai and Schwedenkai, was connected to the grid this year. It has a capacity of 16 megavolt amperes (MVA) and will be able to supply two ships in parallel for the first time.

Source - Strategic Research Institute

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voda 25 maart 2021 08:39

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Siemens Supports Decarbonization at Coca Cola Plant in Sweden

The Coca-Cola European Partners production facility in Jordbro south of Stockholm has reached a new milestone. In less than a year, the 70,000 square meter plant has slashed its energy use by 13 percent, thanks to a major energy efficiency project executed with Siemens Smart Infrastructure. The factory, which opened in 1997, produces more than 1 million liters of beverages a day, in different flavors and package sizes. Over the years, CCEP has worked systematically to reduce its climate impact. It partnered with Siemens to cut energy consumption and improve sustainability during production. The energy efficiency project resulted in annual savings equivalent to the amount of energy needed to charge a hybrid car 400,000 times.

Following an audit of the production plant’s energy use, Siemens together with Coca-Cola defined several energy-saving measures. In particular, new fans and heat recovery from high-pressure compressors were installed. This has led not only to substantial energy savings, but also to improved air quality within the buildings and to quieter operations, which has enhanced the quality of life for the surrounding residential areas. In addition, Siemens upgraded the existing building management system to the Desigo CC platform, facilitating continuous optimization of the production plant’s energy use.

For years, Siemens and Coca-Cola have collaborated on property automation. Now, they are looking into supporting CCEP’s net-zero target goals by 2040.

Source - Strategic Research Institute

voda 25 maart 2021 13:42

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Siemens Healthineers haalt miljarden op

(ABM FN-Dow Jones) Siemens Healthineers heeft 2,3 miljard euro opgehaald met de plaatsing van aandelen voor 44,10 euro per stuk. Dat maakte de Duitse fabrikant van medische apparatuur donderdag bekend.

Ongeveer 16,2 procent van de 53 miljoen nieuwe aandelen werd toegewezen aan Qatar Investment Authority.

Siemens Healthineers, een sectorgenoot van Philips, kondigde in augustus vorig jaar de overname aan van Varian Medical Systems voor 16,4 miljard dollar. De kapitaalverhoging zal deels worden gebruikt om een overbruggingskrediet van Siemens Finance af te lossen.

Door: ABM Financial News.
info@abmfn.nl
Redactie: +31(0)20 26 28 999

© Copyright ABM Financial News B.V. All rights reserved.

voda 26 maart 2021 08:39

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Siemens Enterprise Charging Network for EVs

Siemens Smart Infrastructure and Digital Charging Solutions are collaborating to help ease the transition to electromobility for fleet drivers and managers. The initial result of this collaboration is a new Siemens charging service called Enterprise Charging Network. This service provides a simple end-to-end solution for charging at the company site, in the public and at home, thus standardizing the charging experience for drivers and reducing the effort for fleet managers. Drivers of company-owned electric vehicles can charge the same way wherever they are, using just one company charging card and app. They have access to the charging infrastructure at their own company sites as well as to over 190,000 public charging points in 21 European countries.

All charging processes, regardless of where they take place, are billed via an integrated monthly invoice in the fleet portal. This gives fleet managers transparency over all operations while reducing the administrative overhead.

The Enterprise Charging Network service is the initial result of the cooperation between Siemens and Digital Charging Solutions, which aims to make electromobility as accessible and usable for fleet customers as possible, thus promoting its adoption and expansion. To this end, the partners intend to connect electric vehicles, charging operations and the charging infrastructure intelligently and digitally to optimize the user experience for fleet drivers and simplify the processes for fleet managers. DCS brings Europe’s largest charging network with validated charging infrastructure point of interest (POI) data to the collaboration.

Source - Strategic Research Institute

voda 29 maart 2021 09:45

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140 Siemens Gamesa Turbines for Wind Farm Hollandse Kust Zuid

Vattenfall and Siemens Gamesa are working together on the development of the new 11 MW Siemens Gamesa wind turbines for offshore Wind Farm Hollandse Kust Zuid. Hollandse Kust Zuid will be the first offshore wind farm to install a new series of wind turbines: the Siemens Gamesa Direct Drive 11 MW. These 140 new turbines will be the biggest ever to be installed at scale. To ensure that they will soon be able to supply green energy for decades, Siemens Gamesa is performing intensive tests with a prototype installed onshore in Østerild, Denmark. We spoke with Kevin Metcalfe, Wind Turbine Package Manager at Vattenfall, and with Peter Esmann and Rasmus Holm, Senior Product Manager and Chief Engineer at Siemens Gamesa. They discussed the intensive cooperation between the two companies and the development of these new turbines.

At the start of the collaboration between Vattenfall and Siemens Gamesa, the Siemens Gamesa Direct Drive 11 MW was selected as the turbine of choice for Hollandse Kust Zuid. At that time, each turbine was planned to feature a 193-meter rotor diameter. A few months ago, following an intensive thought process and lots of calculations, it was decided to upgrade to a rotor diameter of 200 meters. Kevin Metcalfe from Vattenfall explains why: “The larger blades result in a ~2,100 m2 increase in the swept area, which is about the size of eight tennis courts. This means the turbines generate even more green energy throughout their lifetime, even at lower wind speeds, which is important for a subsidy-free wind farm such as Hollandse Kust Zuid.”

1,200 Direct Drive turbines at sea

The biggest challenge that Siemens Gamesa sees for the coming year is scaling up the production process from a single prototype to serial production of one to two turbines per day. While the towers are almost the same for the 8 MW turbines and production can be scaled up quickly with familiar suppliers, the nacelle contains all kinds of new parts.

Source - Strategic Research Institute

voda 2 april 2021 09:56

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Siemens Gamesa Bags 5.X Platform Order in Sweden

Siemens Gamesa has notched another two contracts totalling 86 MW in Sweden for its market leading Siemens Gamesa 5.X platform, building on a growing partnership with independent green energy supplier European Energy. The contracts will see Siemens Gamesa provide turbines at two different sites to be installed in 2022. At the site of Grevekulla near Eksjö six SG 5.8-170 turbines will be installed, and at the site of Skåramåla near Växjö a further eight of these turbines, with one of the largest rotors in the industry at 170 meters, will be erected. The turbines will have a flexible rating with most at these sites operating at 6.2 MW. The nacelles will sit on 115-meter towers at both sites, giving them a tip height of 200 meters.

Siemens Gamesa has signed three contracts with European Energy in the country in under six months. Indeed, Sweden has recorded the fastest uptake of the Siemens Gamesa 5.X platform providing one of the most competitive Levelized Cost of Energy (LCoE) in the sector, with over 1 GW of sales. Globally the platform has now registered around 2.5 GW of sales, with particular interest in the Nordics, but also in Brazil, the UK and Germany.

Source - Strategic Research Institute

voda 5 april 2021 09:42

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Siemens Gamesa to Supply Turbines to Repsol for WindFarms in Spain

Siemens Gamesa and Spanish energy giant Repsol have signed their first contract together that will see the installation of 24 SG 5.0-145 wind turbines across four wind farms in Spain, with a total installed capacity of 120 MW. This is the first contract between the pair as Repsol rolls out its ambitious growth plans in renewable energy. The agreement includes the supply of 20 turbines for two wind farms in the province of Zaragoza, in the North-East of Spain (part of Delta II project), for 100 MW, and the installation of four wind turbines in two other wind farms in the province of Valladolid to the North-West of the country (part of the PI project), with a capacity of 20 MW.

The SG 5.0-145 is one of the most powerful onshore turbines in Spain, with just one supplying sufficient green energy to around 4,000 households. The wind farms are scheduled to be commissioned between the end of 2021 and the beginning of 2022. The agreement includes the maintenance of the turbines for a period of five years.

Repsol's Delta II project consists of 26 wind farms located in the provinces of Huesca, Zaragoza and Teruel. It will have a capacity of 860 MW, and will be developed between now and 2023. When operational it will supply electricity to 1.8 million people, over the entire population of the region of Aragon. In addition, it will prevent the emission of more than 2.6 million tonnes of CO2 per year. The wind farms in Valladolid correspond to the PI project, which will have a total installed capacity of 175 MW.

Once these four parks are operational, they will be supply enough clean energy to power around 130,000 Spanish households and will prevent the emission of 430,000 tonnes of CO2, equivalent to that produced by around 150,000 vehicles. To avoid a similar amount of emissions, around seven million trees would have to be planted.

The 24 nacelles will be assembled at Siemens Gamesa's plant in Ágreda (Soria), the gearboxes will be produced at the plants in Asteasu (Guipúzcoa), Lerma (Burgos) and the city of Burgos, and the electrical components will be produced at the factories in Reinosa (Cantabria), San Fernando de Henares (Madrid) and Benisanó (Valencia). Siemens Gamesa has nine plants in Spain employing 1,200 people, and 4,500 employees in total in the country.

Source - Strategic Research Institute

voda 5 april 2021 09:49

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Siemens EV Chargers for On’s Urban Mobility in Rome

Siemens Smart Infrastructure is delivering charging stations as well as a cloud-based software for charging infrastructure management to On in Italy. The solutions provide the basis for a new electric vehicle sharing service in the city of Rome developed by the Italian start-up. The first 23 charging stations have already been installed in the center of Rome; the rest will follow during the year. To support Rome’s transition to cleaner and better urban transport, the city is implementing a Sustainable Urban Mobility Plan. The goal is to promote accessibility for all and increase quality of life, as well as public health and environmental sustainability. An important component of realizing this goal is installing shared mobility services, for example for car and bike sharing.

Siemens is providing the charging infrastructure to the project, consisting of 120 compact Sicharge AC22 charging stations. At these stations two electric vehicles can be charged simultaneously via two outlets with a capacity of 22 kW. At two 230 Volt AC power sockets also e-bikes, electric scooter and other new small e-vehicles can be recharged. These stations are connected to E-Car Operating Center (E-Car OC), Siemens’ cloud-based charging infrastructure software. Via E-Car OC the charging infrastructure as well as charging events can be managed. It also allows the export of processed data to adjacent systems for use in further processes, such as billing.

This data is used by the On app to show users where all Siemens charging points are located on a map, as well as their availability and operational status in real-time. The drivers can start the charging process and access related payment services on the smartphone app that is provided along with the web-based backend software.

Source - Strategic Research Institute

Bijlage:

voda 12 april 2021 08:28

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Siemens Gamesa Turbines for Sofia Offshore Wind Power Project

Siemens Gamesa Renewable Energy has been awarded the firm order from RWE for the 1.4 GW Sofia offshore wind power project. Sofia represents a giant leap for the company; located 195 km off the UK’s north eastern coast on Dogger Bank in the North Sea, the project will be the first to install the company’s flagship 14 MW Direct Drive offshore wind turbine. At 593 square kilometres, the Sofia project will also cover an area greater than that of the Isle of Man and will utilise the evolutionary technology of the SG 14-222 DD offshore wind turbine commercially for the first time anywhere in the world. The development brings other milestones; the 100 turbines will be installed furthest from shore of any project yet undertaken by the company and will feature the world’s largest single-cast turbine blade at 108 m long.

The B108 blades being used at Sofia are more than six times longer than the first offshore wind turbine blades ever installed, namely the 16-meter long blades used at Vindeby in Denmark in 1991. The 35-meter water depth, the distance from the UK’s coastline and the sheer scale of the turbine and its components make the stable, proven technology of Siemens Gamesa’s Direct Drive technology, where no gearbox is involved,an obvious choice for the Sofia wind power project. The strong, reliable winds far from shore will enable the completed wind power project to power the equivalent of 1.2 million UK households. Offshore construction works for the Sofia project will start in 2023 with turbine installation set to commence in 2025.

Two further preferred supplier agreements for wind power projects employing the SG 14-222 DD turbine are signed, totalling 2.94 GW: the 300 MW Hai Long offshore wind project in Taiwan and the 2.64 GW Coastal Virginia Offshore Wind project in the USA. The enormous machines, with a capacity of up to 15 megawatts with Power Boost, a 222 m rotor diameter and overall height of 252 m, are able to bring utility-scale energy generation with far fewer turbines installed than was possible only a few years ago.

The B108 blades take advantage of the IntegralBlade® technology, as well as the superior Siemens Gamesa PowerEdge™ solution and lightning protection system. Recently produced, the first three B108 blades will be installed on the SG 14-222 DD prototype in Østerild, Denmark later in calendar year 2021.

Source - Strategic Research Institute

voda 12 april 2021 09:24

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Siemens to Digitalize Mercedes-Benz Marienfelde Plant

Mercedes-Benz and Siemens plan to cooperate on advancing digitalization and automation in the automotive industry, supported by the State of Berlin. Mercedes-Benz AG aims to digitize its production processes. Siemens, a leading supplier in the field of automation, industrial software and smart infrastructure, will bring its expertise and technologies to the partnership to develop highly flexible, efficient and sustainable automotive production together with Mercedes-Benz.

In this context, the Mercedes-Benz Berlin-Marienfelde site in Germany will be transformed into a competence centre for digitalization with a focus on the development and implementation of the digital Mercedes-Benz Cars ecosystem MO360, in addition to the redesign of production activities. In the future, e-mobility components will also be assembled in Berlin. The company wants to secure the future for the Berlin plant, which is the oldest site in the Mercedes-Benz global powertrain production network. The Mercedes-Benz Digital Factory Campus in Berlin is the technological and digital nucleus for the whole Mercedes-Benz Cars production network. Its objective is to roll out the new developments that have been tested in Berlin at the Mercedes-Benz plants worldwide and to provide the users with the required qualifications.

With the Werner-von-Siemens Centre for Industry and Science in the Siemensstadt in Berlin, there is already an excellent wealth of experience that can be incorporated into the cooperation. With the synergies of the Siemensstadt2 and the Mercedes-Benz Digital Factory Campus Berlin, plants that represent the origin of industrialization in Germany, will be transformed into two modern digital sites.

Siemens leading automation and software solutions lay the foundation for the digital transformation of automotive production. The physical and virtual worlds as well as operational technology and IT can be combined with them. This opens up new possibilities for gathering, understanding and using the huge amounts of data generated in engineering and production. With innovative IoT applications, for example, production processes can be made much more flexible and energy efficient.

Source - Strategic Research Institute

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