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voda 2 december 2017 16:45

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Tesla Completes World’s Largest Battery

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voda 7 december 2017 19:46

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Enel inks 85 MW of capacity storage agreements in US with Pacific Gas and Electric
Published on Thu, 07 Dec 2017

Enel SpA through its US renewables company Enel Green Power North America, Inc signed three Capacity Storage Agreements with California utility Pacific Gas and Electric for a total capacity of 85 MW/340 MWh. Under the agreements, Enel will build the Kingston, Cascade, and Sierra stand-alone lithium-ion energy storage projects, which will all be located in California.

Source : Strategic Research Institute

[verwijderd] 8 december 2017 10:07

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oilprice.com/Latest-Energy-News/World...

Budweiser Bets On Tesla To Replace Its Fleet

voda 27 december 2017 14:42

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Chinese Zhejiang University develop aluminium-graphene battery
Published on Wed, 27 Dec 2017

Aluminum Insider reported that Researchers from Zhejiang University in the People’s Republic of China announced the development of an aluminum-graphene battery with a lightning-fast recharge capability. The battery, which was developed by Zhejiang University’s Department of Polymer Science and Engineering, utilizes graphene films as an anode with a cathode made from metallic aluminium. Researchers revealed to domestic media that such a battery has a design life of hundreds of thousands of cycles and is able to be fully charged in a matter of seconds.

According to their research, the battery continues to be charged to over 90 percent of its capacity after 250 thousand recharges, far exceeding the cycle life of any other known battery configuration. Such a battery can be fully charged in the span of just over one second as well, and can operate in temperatures ranging from -40 °F to 248 °F.

Per the paper the team published recently in the journal Science Advances, the battery is quite resilient to abuse, as it can withstand folding and is not a risk for explosion when exposed to a flame.

Though it offers several advantages over conventional batteries, the team laments that it falls short in other areas, as it does not match lithium-ion batteries for energy density.

Team leader and professor Gao Chao explained that “It is still costly to make such battery. Commercial production of the battery can only be possible until we can find cheaper electrolyte.”

Source : Aluminium Insider

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[verwijderd] 27 januari 2018 11:37

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www.mining.com/web/best-performing-ba...

Best-performing battery metal of the past year isn't cobalt

voda 2 februari 2018 17:18

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Younicos to install 10 MW energy storage system

Younicos has signed an agreement with TerraForm Power to install and commission a 10 MW battery-based energy storage system upgrade at the site of the Kaheawa wind farm on the island of Maui, Hawaii. The batteries will be primarily used to provide ramping services to smooth out wind variability. The project is expected to be completed in the second half of 2018.

The agreement calls for Younicos to replace existing lead-acid batteries with advanced Samsung SDI lithium-ion batteries, which will be managed by Y.Q, Younicos’s proprietary control software. Lithium-ion technology will provide a significantly higher usable energy capacity potential, as well as increase the operational lifetime of the system. It will also enable fully automated operation with no manual battery balancing or state-of-charge management needed.

Mr Jayesh Goyal MD of Younicos said that “We’re pleased to be working with TerraForm to implement this significant upgrade of their energy storage system. The combination of wind plus storage adds stability, while also making new revenue streams for renewables possible through services such as peak shifting or arbitrage. It’s a win-win for both TerraForm and the environment.”

Source : Strategic Research Institute

voda 7 februari 2018 19:57

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Sweden to invest SEK 146 million in Northvolt battery plant

Reuters reported that Sweden will invest SEK 146 million in a multibillion-euro project to build Europe's biggest battery cell plant in the north of the country, its Energy Agency said. Swedish company Northvolt, whose CEO Peter Carlsson used to work for Tesla, is racing against rivals such as South Korea's LG Chem to set up large-scale battery cell plants across Europe, where automakers and industrial firms have so far been largely reliant on Asian imports.

The Swedish Energy Agency said that the money will be used to finance a pilot facility in Vasteras, west of Stockholm. The total cost of the plant and research facilities is EUR b4 billion.

Volkswagen-owned truck-maker Scania, Swiss engineering group ABB and Danish wind turbine maker Vestas have also signed partnership deals with the company, but Northvolt still needs to raise the vast bulk of the financing required for the plant.

Source : Reuters

voda 26 februari 2018 17:14

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Saft creates European battery alliance with Siemens, Solvay and Manz

Economic Times reported that French battery maker Saft, part of energy group Total, said that it had formed an alliance with European partners Siemens, Solvay and Manz to research, develop and build a new generation of batteries. The move is part of a European efforts to develop battery manufacturing to compete with Asian and US manufacturers.

The European Union's executive arm invited the bloc's industry chiefs in October last year to work towards a European battery consortium which could benefit from the executive's support and funding.

Saft said Siemens, Solvay and Manz had committed to work with it in the fields of materials, equipment and digitalisation of industrial processes. It said the partnership, focusing on advanced high-density Li-ion and solid-state technology, would target the market for electric vehicles, railway, marine, aviation, energy storage and speciality industries.

Saft said in a statement that "These new generation batteries will provide performance, cost and safety advantages, compared to current lithium-ion products.”

Saft said the alliance was not exclusive and the companies would work together over the next seven years to reach a common goal.

Source : Economic Times

voda 20 maart 2018 16:48

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New way to recycle lithium ion batteries

Metal News - Published on Tue, 20 Mar 2018
Image Source: latimes.com

La Times reported that the promise of a global electric-vehicle transformation has a looming problem. The cathodes in the lithium-ion batteries typically used in electric vehicles are made of metal oxides that contain cobalt, a metal found in finite supplies and concentrated in one of the globe's more precarious countries.

But an assistant professor at UC San Diego said that he has developed a way to recycle used cathodes from spent lithium-ion batteries and restore to perform as well as they did when new.

Mr Zheng Chen said, a 31 year old who works as a nanoengineer at the Sustainable Power and Energy Center at UC San Diego's Jacobs School of Engineering that "Yes, it can work effectively."

The method also works on lithium cobalt oxide, which is widely used in electronic devices such as smartphones and laptops.

Mr Chen said that "In my house I have about six cellphones." Mr Chen said that "I have probably about five laptops. They all have lithium batteries. I thought, there is no clear system to recycle and retrieve them. From a battery researcher [standpoint] I know this is something we have to face, we have to solve."

The process takes degraded particles from the cathodes found in a used lithium-ion battery. The particles are then pressurized in a hot alkaline solution that contains lithium salt. Later, the particles go through a short heat-treating process called annealing, in which temperatures reach more than 1,400 degrees Fahrenheit.

After cooling, Mr Chen's team takes the regenerated particles and makes new cathodes. They then test the cathodes in batteries made in the lab.

The results, Chen said, have been impressive.

The new cathodes have been able to maintain the same charging time, storage capacity and battery lifetime as the originals did.

Mr Chen said that "Originally I thought we couldn't get all this performance back, that we would lose 10% or 20%." Mr Chen added that "But it turns out we're getting exactly the same performance."

Details of the recycling method were recently published in the research journal Green Chemistry, submitted by Chen and two colleagues.

Source : La Times

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voda 27 maart 2018 21:11

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ISRO–BHEL tie up for production of Space Grade Lithium-Ion Cells

ISRO announced that has entered into a Technology Transfer Agreement with Bharat Heavy Electricals Limited, which is one of the country’s leading PSUs, to transfer the technology for the manufacture of space grade Li-Ion cells. The TTA was signed at ISRO Headquarters, Bengaluru yesterday in the presence of Dr K Sivan, Chairman, ISRO and Mr Atul Sobti, Chairman & Managing Director, BHEL.

ISRO uses Li-Ion batteries as power sources for satellite and launch vehicle applications due to their high energy density, reliability and long cycle life. Vikram Sarabhai Space Centre of ISRO at Thiruvananthapuram has successfully developed the technology to produce space grade Li-ion cell, demonstrated the performance of the cell under various testing conditions and established its cycle life characteristics in accelerated mode. These cells are currently being used for various satellite and launch vehicle applications.

This Li-ion cell Technology Transfer will enable BHEL to produce space grade Li-Ion cells which can meet the country’s space programme requirements. This technology can also be adopted to cater to the Li-Ion cell requirement for other national needs.

Source : Strategic Research Institute

voda 2 april 2018 15:40

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Lockheed Martin commissioned 12 MWh of GridStar™ Lithium energy storage systems

Lockheed Martin and Cypress Creek Renewables have commissioned 12 MWh of GridStar™ Lithium energy storage systems for 12 solar-plus-storage projects. The solar-plus-storage system will provide clean electricity to communities served by Brunswick Electric Membership Corporation in southeastern North Carolina.

Lockheed Martin's GridStar™ technology ensures that this power is rapidly dispatchable a key benefit that allows Brunswick EMC to avoid peaking costs and pass the savings to its member-owners in Brunswick and Columbus Counties, as well as small areas of Robeson and Bladen Counties.

Mr Don Hughes, CEO/general manager of Brunswick EMC said that "These projects provide solar energy to our members and compound the value by delivering it exactly when we need it. This collaboration will provide significant value to our members for years to come."

These 12 solar-plus-storage projects represent the first set of battery storage projects developed, constructed, financed and commissioned by Cypress Creek. Cypress Creek acquired the projects from United Renewable Energy (URE), the initial developer of the projects.

Mr Brian Knowles, director of energy storage, Cypress Creek Renewables said that "We are approaching a point where many newly originated solar projects will become solar-plus-storage by default. Cypress Creek Renewables is proud to collaborate with Lockheed Martin and URE to provide Brunswick EMC with a dynamic solar product that is able to respond to changing conditions on the grid or in energy markets."

Mr Roger Flanagan, director for Lockheed Martin Energy, added that "We are pleased to support Cypress Creek Renewables' innovative solar-plus-storage projects. Energy storage is key to unlocking the true potential of renewable energy generation."

Lockheed Martin's GridStar™ Lithium energy storage systems are compact, easy to install, and scalable for 100 kW to multi-MW projects. GridStar™ system architecture consists of modular, purpose-built energy storage units that contain batteries, local controls software and all required balance-of-system components. The systems are certified to UL 9540 standards, a key certification for product safety for energy storage systems and equipment.

Source : Strategic Research Institute

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voda 12 april 2018 17:09

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Kokam commissions 30MW battery to help supply Gina Rinehart mine

Renew Economy reported that South Korea battery manufacturer Kokam has commissioned a 30MW/1MWh battery storage facility in Western Australia’s Pilbara, the large installation of its type in the country. The battery is located next to the 180MW Newman gas-fired power station owned by Alinta, which supplies the Roy Hill iron ore mine that is majority owned by Gina Rinehart’s Hancock Prospecting.

The Kokam battery is configured quite differently from the Tesla big battery in South Australia, which is 100MW/129MWh, and deliberately so because its main role is to displace costly and polluting “spinning reserve”. While the Tesla battery – known as the Hornsdale Power Reserve – combines the ability of energy arbitrage (storing wind or other cheap energy for sale at peak times), or smoothing the output, as well as providing grid security services, the Kokam battery is focused on a different market, essentially providing inertia and frequency.

Its combination of high power, low energy, is designed to allow one of the gas generators at the Alinta facility to be switched off, because the Kokam battery will jump in to provide inertia, frequency, voltage and operating protections.

Source : Renew Economy

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voda 12 april 2018 18:53

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BP Wind Energy launches its first battery storage project at US wind farm

BP Wind Energy, through its wholly-owned subsidiary Rolling Thunder I Power Partners LLC, has signed a purchase agreement to install a high-storage battery at its Titan 1 Wind Farm in South Dakota. The project is the first of its kind in BP’s U.S. operated wind business and a potential step forward in the performance and reliability of wind energy. The 212kW/840kWhr battery, supplied by Tesla, will be integrated with the wind farm and configured to help manage internal electricity demands of turbines when wind isn’t blowing. By doing so, it will enable the wind farm to store electricity when the site is generating it, and then have that electricity available to be consumed whenever needed.

Ms Laura Folse, chief executive of BP Wind Energy said that “The battery pilot project at our Titan 1 Wind Farm will provide BP Wind Energy valuable insights as we seek opportunities to use energy storage more effectively across our diverse portfolio. It’s another way that we’re working to create a wind energy business that is sustainable for the long-term and supporting the broader transition to a low-carbon future.”

Situated on 7,500 acres in Hand County, Titan 1 Wind Farm is wholly owned and operated by BP Wind Energy. The farm has 10 turbines with the capacity to generate 25 MW of wind energy enough to power about 6,700 average homes annually.

The battery storage project is expected to launch at the site during the second half of 2018. Lessons from the project will enable BP to make better informed decisions when evaluating and developing battery applications in the future.

The project also supports BP’s broader strategy to invest half a billion dollars annually into low-carbon technologies, including projects within its established renewables portfolio as well as in new low-carbon businesses. Specifically, BP will focus on five areas: advanced mobility; bio and low-carbon products; carbon management; power and storage; and digital.

Mr Dev Sanyal, BP CEO of Alternative Energy said that “As a global energy business, BP is committed to addressing the dual challenge of meeting society’s need for more energy, while at the same time working to reduce carbon emissions. Projects like this one will be key in helping us get there and in playing our role in the global energy transition.”

Renewables are the fastest growing form of energy. They account for around 4 percent of global energy demand today and by 2035 BP estimates that could grow to more than 10 percent – a rate of growth not seen in recent history.

Source : Strategic Research Institute

voda 19 april 2018 21:46

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ABB deploys microgrid with large battery energy storage in Australia

ABB has supplied a containerized microgrid solution to support a gas fired power station to optimize and automate its operations, increase energy efficiency, reduce fossil fuel consumption and enable uninterrupted power supply from Alinta Energy’s Newman Power Station, which supplies mining operations in the Pilbara. ABB’s microgrid solution includes a 30 megawatt (MW) battery energy storage system, which is one of the largest of its kind to be deployed in a gas-fired power plant. A 30 MW battery energy storage system can supply 6,000 homes with the power supply, where the average supply would be 5 kW.

Mining is a key focus sector in Australia and accounts for approximately six percent of the country’s GDP. The Newman Power Station, situated around 1,200 km kilometers (km) north of Perth in Western Australia, supplies power to remotely located mining operations.

ABB’s microgrid solution will provide power supply to cover the time it takes to start-up a new gas turbine, when there is a fault in the running turbine causing power to trip. This back-up will enable uninterrupted supply of reliable power and prevent any disruption.

ABB’s modular and containerized microgrid will integrate five 6 MW ABB Ability PowerStore™ Battery energy storage systems with the power station’s existing gas turbines, providing a ‘spinning reserve’. ABB has supplied a range of transformers and switchgear to integrate the system.

The innovative solution incorporates ABB’s Microgrid Plus automation and control technology that serves as the brain of the entire system to monitor the gas turbines and facilitate utility-grade power quality and grid stability. It is also equipped for remote service and maintenance.

Our plug-and-play microgrid solution, has been designed to meet complex automation requirements and will ensure grid stability and fuel saving for Alinta’s operation” said Massimo Danieli, Head of ABB’s Grid Automation business unit, a part of the company’s Power Grids division. “Microgrids and energy storage are key focus areas in our Next Level strategy, supporting our quest to provide grid stability, fuel savings, and bring reliable power to people, while reducing environmental impact, as exemplified by this project.”

ABB is a pioneer in microgrid technology with installations all over the world, across a diverse range of applications serving remote communities, islands, utilities and industrial campuses. 15 of these microgrid solutions are installed in Australia.

Source : Strategic Research Institute

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voda 24 april 2018 16:18

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Tin makes solid state sodium-ion battery super conductive

Scientists at Pennsylvania State and Pacific Northwest universities in the US have developed a super conductive material for solid state sodium ion batteries using tin. The new material is based on the sodium-phosphorus-sulphur family of solid electrolytes, similar to materials being developed for solid state lithium ion batteries. Adding 19% tin into the formula boosted ionic conductivity to a high of 0.67 mS cm-1. The crystal structure of the conductor had a high number of channels and pathways for sodium ions to pass through. The team went on to test a prototype battery, itself using a sodium-tin alloy electrode, to demonstrate its potential application.

Sodium ion batteries are cheaper than lithium ion technologies, though with lower charge capacity, and solid state versions are safer because they don’t have flammable components. They are most likely to be used in larger scale energy storage applications.

Source : International Tin

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voda 10 mei 2018 13:19

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China develops battery to store renewable energy

Economic Times reported that Chinese scientists have developed a lead carbon battery for storing power generated from solar panels and windmills and claimed that with such devices, the electricity supply is stable for use.

An energy storage system with the batteries was piloted in Dalian Institute of Chemical Physics in northeast China's Liaoning Province, Xinhua news agency reported.

There are 46 streetlights and landscape lights using solar energy for power at the institute. Each lamppost has a solar panel to generate power, which is sent to a battery equipped under the post.

A fully-charged battery can power a streetlight for more than 23 hours, the scientists claimed.

The system was developed by a research team led by Professor Li Xianfeng and Professor Zhang Huamin with the institute.

The scientists said that power generated by renewable energy sources was not continuous and stable, making it difficult to regulate.

The battery can ensure a stable output of electricity. Once applied, it can help push the use of clean energy from an auxiliary to a dominant power generating source.

In the pilot, the battery has shown a 100 per cent recharge rate and safety performance.

The team has applied for 10 national patents for the battery.

The research was launched under a contract signed between the institute and the Baoding Fengfan Co Ltd under the China Shipbuilding Heavy Industry Group in 2015.

For the next step, the two sides will start to develop a kilowatt-level and a megawatt-level lead-carbon battery energy storage system for renewable energy projects as its first industrial applications.

Source : Economic Times

voda 25 mei 2018 17:03

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Limejump target battery asset portfolio of 1000 MW by 2022

Limejump announced that with the recent commissioning of an additional 20 MW of National Grid tested battery storage completed this week, adding to their current portfolio under management, the energy industry challenger now manages one of the largest centrally controlled battery asset portfolios in the world.

Reaching over 130 MW of active Battery Capacity or over 40% of the UK market, this portfolio includes UKPN Leighton Buzzard, Clayhill (the first subsidy free Solar with Battery), one of the United Kingdom’s largest sites at 29MW and several smaller behind the meter batteries ranging from 175kw to 2MW (including the UK’s largest Tesla battery combined with Solar PV). This portfolio is centrally controlled and dispatched automatically by Limejump’s cloud-based technology platform combining other generation assets with various profiles to feature in wholesale markets as well as many contractual obligations to National Grid. What’s more, with recent new developments in the market, Limejump is targeting a combined active market portfolio of over 1000 MW by 2022.

Limejump has been on the forefront of battery technology in the UK since 2016 and some recent announcements support this position as a business at the forefront of this dynamic space:

Illustrating Limejump’s expertise in batteries and the trading abilities to manage these assets on the wholesale market, Limejump recently took advantage of negative system prices to charge their batteries to make a profit and helping to balance the system. On Thursday, the 3rd of May 2018, a period of higher than forecast generation from both solar and wind drove the system prices negative. Solar was under-forecast by 17% and wind by 27% bringing 2GW of unexpected generation onto the grid. Three Scottish wind sites at Clyde, Kilbraur and Beinn Tharsuinn received instructions from the grid as part of the Balancing Mechanism to reduce generation. Kilbraur and Beinn Tharsuinn were called to reduce generation because of grid constraints but Clyde was instructed to reduce its output to help the National Grid manage the excess of renewable energy.

This had the effect of pushing system prices, reaching -GBP 69/MWh for two half hourly settlement periods (1 hour). Spotting this opportunity, Limejump charged around 45MW of batteries, reducing the amount of excess renewable energy that would otherwise be wasted, helped the grid deal with the excess supply that was then delivered back to the grid when prices were high and when there was limited generation on the system and all whilst optimising battery revenue.

Source : Strategic Research Institute

voda 25 mei 2018 20:59

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BP invests in Israeli fast-charge battery company

Oil major BP said that its venture capital fund invested USD 20 million in Israeli firm StoreDot, which developed a battery system that could potentially charge an electric car in the amount of time it takes to fill a gas tank.The investment, BP Ventures said, is part of a push to tap into the growth in electric vehicle technologies and infrastructure.

Tufan Erginbilgic, chief executive at BP downstream, said that "Ultra-fast charging is at the heart of BP's electrification strategy. We are committed to be the fuel provider of choice - no matter what car our customers drive."

StoreDot, which raised $60 million from Daimler in September, developed a super-fast charger for cellphones before expanding into automotives. The company says its lithium ion-based battery technology can fully charge an electric vehicle in five minutes.

Source : Strategic Research Institute

voda 28 mei 2018 20:24

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Siemens Gamesa tests redox flow battery at its La Plana test site in Spain

Hybrid projects combined of wind-energy, solar PV and other energy sources are becoming a more and more attractive option to drive the energy transition to higher shares of renewable energy in the mix. Siemens Gamesa is one of the pioneers in this development with a long term track record in hybridization and off-grid technology. Now the company has taken another important step and is testing a battery storage technology with large future potential. At SGRE’s La Plana R&D site near Zaragoza, Spain, a redox flow energy storage system has been commissioned. The system is connected to the hybrid controller of the combined wind and PV generation system and supplements the lithium-ion batteries that have been in use here for around two years.

The La Plana test-site integrates the next-generation Vanadium redox energy storage system with a wind turbine, solar-PV modules and a diesel generator. The new redox flow battery offers a 120kW energy output with a storage capacity of 400kWh. Siemens Gamesa has been refining its knowledge in hybridization over years. A sophisticated flexible hybrid controller is the resulting product of this R&D effort. It is the digital core that coordinates the generation of all energy sources to meet the electrical load, in order to reduce the LCoE of the plant regardless of whether the grid is connected or disconnected. To reduce energy costs the controller is targeting to achieve the maximum integration of renewable energy.

To support the highly efficient dispatch strategy steered by intelligent control algorithms a large storage capacity helps to keep generators to their technical minimum load and to enhance the share of renewables – even when low wind periods and cloudy sky occur at the same time.

Mr Antonio de la Torre, SGRE’s chief technology officer said that “With the Redox-Flow technology commissioned at our La Plana test site, we are now active in all relevant storage technologies including Power-to-Heat and also battery storage systems. Due to its scalable energy capacity the Vanadium redox battery is a highly promising option to support our advanced technology offers for isolated and grid connected systems.”

Source : Strategic Research Institute

voda 1 juni 2018 19:58

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Sterling and Wilson to Deliver the Largest Battery Energy Storage Project in Africa

Sterling and Wilson, an Indian multinational engaged in engineering, construction, manufacturing and energy services with over USD 1.5 billion in revenue has bagged its first large scale hybrid and energy storage turnkey engineering, procurement and construction order in Western Africa. Sterling and Wilson’s turnkey scope of work includes complete design, engineering, procurement, construction and O&M of a captive hybrid microgrid powered by solar, diesel and battery energy storage. This first of it’s kind project powering behind-the-meter clients in the educational sector in Western Africa will also play host to the continent’s largest battery energy storage project with 30MWh of batteries spread across three sites, including single largest battery installation of 17MWh.

Besides providing microgrid integration and enabling the educational institutions to get off the grid, the hybrid microgrid backed by the batteries would also provide uniquely designed one-day power autonomy to the institutions, thus enabling efficient operations, effective learning and allocation of a larger budget towards the school programs. Sterling and Wilson’s proposed hybrid and energy storage solution is expected to deliver an envisioned reduction of 137,170 metric tonnes of carbon footprint, equivalent to planting 3.5 million new trees.

Speaking on this occasion, Mr Deepak Thakur CEO Hybrid and Energy Storage, Sterling & Wilson, said that “Lack of power supply is a primary barrier in imparting effective learning and development of any nation. We are extremely glad to have bagged our landmark first project in the hybrid and energy storage space, which not only consists of the largest battery installation in Africa till date, but also hopefully proves to be a marquee installation empowering future generations. We are confident of meeting the most stringent quality, safety and financial needs of our client given our combined global expertise of having delivered over 7GW of solar, diesel and gas based power plants on turnkey basis till date.”

Given its global energy expertise, Sterling and Wilson through its Hybrid and Energy Storage business unit has an extensive focus on where and how hybrid and energy storage solutions can be applied across the energy sector from centralized large fossil and renewable power plants, to data centres, C&I segments and remote settings such as Islands. The newly formed business unit is actively pursuing further opportunities in the aforesaid segments across Europe, Middle-East, Africa, Asia and Australia besides setting its sights on USA.
About Sterling and Wilson.

Source : Stretegic Resersh Institute

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