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On 2 July, RTE, the French public electricity transmission system operator, together with its partner Nidec Industrial Solutions (NIS), part of the Energy & Infrastructure Division of the Nidec Group, inaugurated "Ringo". Located in Vingeanne - Jalancourt, in the Côte-d'Or department, Ringo is RTE's first experimental site for the automated management of large-scale electricity storage.

Just over a year after its announcement, the experiment, a world's first, will test the automatic management of surplus renewable electricity. This represents an important step in the process of transforming the electricity system, assisting in the energy transition from polluting to sustainable and renewable sources.

Nidec Industrial Solutions was chosen by RTE to install the first electrical energy storage system on mainland France, used to optimize management of energy flows on the transmission grid. The system makes it possible to better manage the electricity grid, avoiding congestion at times of peak demand. A project that sees battery storage systems become an integral part of modern electricity grids and key elements for realizing the vision of an electric and sustainable future.

Depending on weather conditions (sun, strong winds), local solar or wind energy production can greatly increase and exceed the transport capacity of the national electricity grid, resulting in the dispersion of the energy produced. The Ringo system makes it possible to store surplus renewable energy during peaks in production and return the stored energy to the grid as and when needed. This prevents having to build new electric lines and the loss of electricity produced from renewable sources thus contributing to reductions in CO2 emissions, without having to use polluting energy sources.

WITH THIS MAJOR PROJECT, THE TWO GROUPS ARE PROMOTING THE DEVELOPMENT OF ELECTRICITY STORAGE WHICH IS ESSENTIAL IN DRIVING THE EVOLUTION OF THE ENERGY MARKET TOWARDS GREATER SUSTAINABILITY

It is also a smart system. In fact, for the first time in the world, a storage battery site will be remote controlled using robots that collect data in real time, representing the first automatic control on a national energy grid. Thanks to sensors installed on the grid that constantly measure electron flows, algorithms are able to optimize storage in real time.

The Vingeanne - Jalancourt site, located in a region of high wind energy production, was chosen as the location for one of the experimental batteries with a storage capacity of 12 MW/24MWh, equal to the amount of energy produced by 5 wind turbines or the consumption of 10,000 families. Work commenced in January 2020, and now the system has been put into service, meeting the expected delivery times, despite the difficulties encountered due to the pandemic. The experiment will last 3 years, the time needed to learn how to manage renewable energy.

More specifically, for the Vingeanne - Jalancourt site, Nidec Industrial Solutions is supplying its power electronics converters and the PMS (Power Management System) control system that make it possible to convert stored energy into electricity and use it to feed into the grid supplying consumers. The batteries connected to the grid that make the storage of surplus renewable energy possible are of the NMC (Nickel, Manganese, Cobalt) high energy density lithium-ion type.

With this experiment, RTE and its partners, among which Nidec Industrial Solutions stands out, are participating in the spread of systems of large-scale electricity storage. A great industrial challenge to meet the fundamental energy transition needed to reduce GHG emissions and mitigate global warming, an increasingly topical and urgent issue for the energy sector.

The Ringo project meets the renewable energy development goals set by the French government and aims to make the electricity transmission grid more flexible by 2030 and to integrate, in particular, large-scale electricity storage solutions. This is to ensure that all French people have access at all times to a safe, clean and affordable power supply. This storage experiment has been approved by the French CRE (Commission de Régulation de l'Energie - Energy Regulatory Commission) for a total investment of € 80 million.

"The experiment we have launched today with RTE is a fundamental step towards achieving a zero-emissions society by 2050, a goal Europe is committed to reaching.  To achieve this, more electricity will have to be produced which is why it will be necessary to improve energy management by modulating production and consumption. Ringo will allow us to acquire the knowledge and experience needed to overcome this challenge. We are proud that RTE has chosen us as a partner in this highly innovative project. A collaboration that confirms our world leadership in renewable energy battery storage systems, which incorporate advanced technologies and solutions, offered at the best price and able to guarantee reduced execution times. Thanks to this, we can contribute to realizing the vision of an electric and green future” said Dominique Llonch, CEO of Nidec ASI and Chairman of Nidec Industrial Solutions.

Nidec Industrial Solutions, which has reached approximately 1 GWh of BESS plants installed worldwide, making it one of the top 3 world leaders in this sector, can boast significant experience in France, having developed in 2013 the country's first BESS plant of over one megawatt (7000 kW) installed on the island of Corsica. The Group continues to consolidate its leadership in Europe, where it is the number one supplier of BESS plants for the utility sector, and is currently developing electricity storage systems in Germany, England and Finland. The agreement with RTE is fully in keeping with the strategy and vision of Nidec Industrial Solutions which, thanks to its know-how, the result of over 150 years of technological innovation, and the expertise in the field of batteries and power electronics, wants to actively contribute to the transition towards renewable energy in order to combat climate change and the air pollution generated by the continuous increase in CO2 emissions, favoring the transition from a development model with high carbon emissions to a sustainable and green one.

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Further Reading:

• Read more about Digital Transformation @ www.fieldservicenews.com/digital-transformation
• Read more about Sustainability on Field Service News @ www.fieldservicenews.com/sustainability
• Read more about Renewable Energy on Field Service News @ www.fieldservicenews.com/renewableenergy
• Find out more more about RTE @ www.rte-france.com
• Learn more about Nidec Industrial @ www.nidec-industrial.com

 

 

In a recent edition of the Field Service Podcast, Field Service News, Editor-in-Chief, Kris Oldland sat down with Patrick Jansen, Field Service Manager, VBR Turbines, about why they decided to undertake an in-depth build of their own bespoke IoT solution.

"It all started about 6 years ago. We are an MRO (maintenance and repair organisation)  so we do own anything, we don't produce anything, our business is service. We saw that our market was changing. There was knowledge drain, changes in the labour market and more." Jansen explained. 

"So we started to look at what our service deliver should be like ten years from now and alongside that how could we overcome the challenges that we face in the labour market and how could we address the knowledge drain with our customers. There were a couple of things that saw needed to be done.

"One of the main drivers for us was to create an additional tool to facilitate remote support for the customer but also do diagnostics on the assets. This is because in the energy market within Europe has changed significantly." he added.

One such change has been the shift within the energy sector is that the traditional way of working with a predictive maintenance schedule was to base the schedule on running hours, but this is no longer an appropriate methodology as the amount of running hours has reduced. 

However, there were other benefits that Jansen and the team at VBR Turbines were able to benefit from - including the reduction in training time for new engineers. 

"The remote solutions can help people to get trained faster, the time to training a field service engineer really dramatically reduced." Jansen added. 

 

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Report highlights that threat actors are advanced and persistent, but companies are using outdated systems and technology to save money. Poor security posture, prioritization, and awareness are also gifts to attackers. 

Malicious actors are targeting critical infrastructure (CNI) sites and energy distribution facilities exponentially. Interconnected systems in the energy industry increase vulnerabilities, and cyber attacks often go undetected for some time.

As energy companies save costs against the backdrop of lower oil prices, consolidating operations can weaken business resilience and redundancy levels. This gives rise to new, single critical points of failure, with any disruption across the supply chain potentially having increased consequences.

“Espionage and sabotage attacks against CNI organizations have increased over the years and I don’t think we have seen it all yet,” says Sami Ruohonen, Labs Threat Researcher at Finnish cyber security company F-Secure.

Connecting Industrial Control Systems (ICS) to the Internet is increasing, and a considerable number of CNI systems in use today were installed and built before 24/7/365 internet connections were the norm and the advent of Stuxnet. Many Operational Technology (OT) components have built-in remote operation capabilities, but are either partly or entirely lacking in security protocols such as authentication.

Moreover, cyber security was not a realistic threat when these systems were manufactured, and legacy protocols and systems never had the built-in security controls that we take for granted today. Transitioning these systems to the Internet has opened them up to attacks from a myriad of angles.

“Critical Infrastructure due to its nature is an interesting target for a foreign nation-state, even during peacetime,” Ruohonen explains.

F-Secure’s report shows that:

• A variety of different adversaries, each with their own motivations and tradecraft, constantly strive to compromise organizations that operate critical infrastructure
• Attackers have more time than their targets and will take months to plan their attack
• People are the weakest link in production, with company employees seemingly being criminals’ go-to target
• Attackers continue to succeed mainly due to organizations’ lack of mature cyber security practices
• Nation-state sponsored Advanced Persistent Threat (APT) groups are relentless, and continue to seek network foothold positions on CNIs and espionage opportunities in the interests of exercising political leverage
• Nine different attackers/malwares/techniques targeting the energy industry stand out, with spear phishing being the most common initial supply chain attack technique
• Keeping a small attack surface in the energy industry – while often pitched as the best way to mitigate the risk of a cyber attack – is simply not possible

While breaches are a certainty, Ruohonen advises organizations review their cyber security posture to implement latest technologies such as an endpoint detection and response (EDR) solution.

“EDR is a quick way to tremendously increase capabilities to detect and respond to advanced threats and targeted attacks which might bypass traditional endpoint solutions,” he explains. “Managed EDR solutions can provide monitoring, alerting, and response to cover the needs 24/7. This means organizations’ IT teams can operate during business hours to review the detections while a specialized cybersecurity team takes care of the rest,” says Ruohonen.

The complete report is available here.

Research Nester has recently announced its latest research on “Global Internet of Things (IoT) in Energy Sector Market: Global Demand Analysis & Opportunity Outlook 2023”.

Rapid growth of urbanization across the globe is changing the way of using devices and things present in the technological environment. Internet of Things (IoT) in energy sector includes the devices and software which have connectivity feature with internet. The devices are embedded with sensors, chips, and others to enhance the user’s experience and to increase the operational efficiency of the operations in energy sector.

These devices and software are efficient to operate various tasks with less time consuming methods. The growing need of internet enabled devices and rising need of internet connectivity are some of the major factors which are anticipated the positive growth of internet of things in energy sector globally. Technological advancements in semiconductors offer the advantages to develop lightweight and efficient devices which are much smarter than the conventional and heavy devices. Internet of things (IoT) in energy helps the sector to reduce the loss of resources and also help them to optimize the use of available resources through smart grids.

Moreover, rising need of remote monitoring systems and internet enabled devices had supported importance of internet of things (IoT) in energy sector especially in utility and power distribution. These devices and systems enabled to operate efficiently and serve better to consumers.

Likewise, the energy management provides ease to various end-use industries such as Power, Oil & gas and mining industries to minimise the energy losses which further cuts down the operational cost. Wide-scale availability and diversity in technological devices are providing ease to the energy sector to adopt latest technology. On the other hand, mining and petroleum industries are also looking forwards to real-time monitoring systems to manage the mobile workforce. The growing concern towards energy management is one of the major factors which are fuelling the demand for internet of things (IoT) devices and software.

 

The connected devices help the users to maintain their lead time and increase their operational efficiency. The demand for power and fuel is growing in developing countries across the globe due to rapid pace infrastructural development. These factors are creating a huge pressure on the energy sector to increase the supply by utilising their resources efficiently.

Further, rapid pace development in energy sector including the power and oil & gas sector is changing the ecosystem of these sectors. Urbanization across the globe is increasing the demand for resources such as fuel, power and others. In addition to this, the robust pace in smart cities and smart infrastructure in various developed countries such as U.S. and others are encouraging the energy sector to adopt advanced technology such as internet of things (IoT).

Moreover, the smart power grids are showcasing a tremendous growth on the back of rapid adoption of IoT in energy. The construction of smart power grids with hundreds of sensors and devices further help the energy sector to increase the response and supply.

Privatization and newer regulations is expected to increase the penetration of internet of things in energy sector. Government authorities are taking initiatives in developing regions such as Asia-Pacific, Europe and others to strengthen the energy sector by adopting internet of things (IoT) in energy sector. The setting up of smart cities along with growing concern towards optimisation of resources is bolstering the growth of IoT in energy. However, issues related to security and privacy of data and connectivity of devices is the major restraint for the market which is creating cynicism among the end-use sector.

Furthermore, high cost of internet of things devices and software is one of the major reasons which are hampering the growth of IoT in energy sector. The global internet of things (IoT) in energy market reached USD 6.8 Billion in 2015 and the market is expected to reach USD 26.5 Billion by 2023.Further the market is projected to register a CAGR of 15.5% during the forecast period 2016-2023 globally. The internet of things comprises devices and software that enable connectivity and exchange of information.

 

From a field service perspective it is interesting of course to see yet further evidence in the rapid rise of IoT given the comprehensive impact it is set to have on our industry.

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To know more about this research visit: http://www.researchnester.com/reports/global-internet-of-things-iot-in-energy-sector-market-global-demand-analysis-opportunity-outlook-2023/256

 

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