Young people can accelerate digitalisation. re.alto, a corporate startup from Belgium’s Elia Group, is aimed to bring together providers and users from across the energy sector to make data easy to access and integrate. Moreover, the growth of the Internet of Things (IoT) is increasing the potential ‘cyber-attack surface’ in energy systems. 7. 10. Digitalisation of the Energy sector Digitalising the energy sector is crucial for the EU since it enables energy consumers to be at the centre and contributes to a new design for the energy markets. In some respects, the industry can embrace digitalisation as a key enabler of the transition to a low-carbon energy system. HOW DIGITALISATION CAN IMPACT AFRICA’S ENERGY SECTOR IN A POST-COVID WORLD. Digital technologies that make all these potential benefits possible also use energy. In this new energy world, solar and digitalisation have emerged as a natural fit, as both help democratise and decentralise our electricity supply. Depending on future efficiency trends, by 2021 electricity consumption from data networks could increase by as much as 70% or fall by up to 15%. The energy sector began integrating digital technologies in the 1970s and rightly so, because of its high resource levels, costs of failure and outages. Energy suppliers stand to benefit the most. The energy sector began integrating digital technologies in the 1970s and rightly so, because of its high resource levels, costs of failure and outages. Hammam Riza. Digital Single Market and the Energy Unionobjectives; -increase the digital capacity of the energy sector for the benefit of the system that is able to integrate higher shares of renewable energy and to optimise energy use by improving overall energy efficiency •Digitising the energy sector: an opportunity for Europe Beyond the next five years, providing credible assessments of energy use by digital technologies is extremely difficult. I’d say that they are more aligned with the challenges that the globe is facing today. The energy sector is a relatively early adopter of digitalisation, with real-time monitoring equipment, automation and data analytics. Public Consultations & Open Letters. Direct energy use over the long run will continue to be a battle between data demand growth versus the continuation of efficiency improvements. While people are still figuring out whether to call or spell this phenomenon energy digitalisation, digitalization, digitisation or digitization, energy 4.0 or energy digital transformation, it is a disruptor, both on the commercial and the legal side. 50 leading companies have announced their support for further digitalisation of the solar and energy sector. How can digitalisation contribute to cost reductions and higher system integration for wind energy? This could save $270 billion of investment in new electricity infrastructure that would have otherwise been needed. Specific examples include driverless trucks and tele-remote equipment operated from the control room. Full prevention of cyberattacks is impossible, but their impact can be limited if countries and companies are well-prepared. This can be achieved by reducing operating and maintenance costs, improving the efficiency of a power plant and network operations, reducing unplanned outages and extending the life of assets. Digitalisation in the energy sector 5th December 2018 Jon Lawson The process of identifying and managing energy demand was one of the first to adopt computer technology and the internet. But digitalisation is also raising new security and privacy risks. Building system-wide resilience depends on all actors and stakeholders first being aware of the risks. February 7, 2019 by Matt Brown and Ravi Mahendra. “Energy & Digitalisation: Artificial Intelligence (AI) Application in Energy Sector” 24 July 2020. Smart demand response could provide 185GW of system flexibility, roughly equivalent to the currently installed electricity supply capacity of Australia and Italy combined. Ensure appropriate access to timely, robust, and verifiable data. The International Energy Agency’s Digitalization & Energy report attempts to answer these questions. However, cyber-attacks are becoming easier and cheaper to organise. In industry, many companies have a long history of using digital technologies to improve safety and increase production. Data networks, which form the backbone of the digital world, consumed around 1,85TWh globally in 2015, or another 1% of total demand, with mobile networks accounting for around two-thirds of the total. For example, 3D printing can be used to make aircraft lighter, reducing both the materials to build the plane and the fuel to fly it. This article first appeared in ESI Africa Issue 3-2020.Read the full digimag here or subscribe to receive a print copy here. An ever increasing number of devices are being connected to the Internet: there will be around half a billion by 2030. The data This involves the application of new digital technology, such as low-cost cloud computing, the internet of things, big data analytics and blockchain to energy. Let’s explore what this transformation actually means for the electricity network. Digitalisation in the Energy Sector - Questionnaire CONTEXT Within the Energy Union, three key targets and policy objectives have been established in light of the 2030 climate and energy framework of the EC: 40% cut in greenhouse gas emissions, 32% share for renewable energy and 32.5% improvement in energy efficiency. The digitalisation of the energy sector is essential to reach the 2050 objectives AleaSoft, December 4, 2020. Technically recoverable oil and gas resources could be boosted by around 5% globally, with the greatest gains expected in shale gas. We need an appropriate, reliable and secure communication system if the power system is to be operated with Dispersed Energy Resources (DER) in a dynamic way. In the power sector, the analysis indicates that digitalisation has the potential to save around $80 billion per year, or about 5% of total annual power generation costs. Ardi Sutedja. Digitalisation could have its biggest impact on road transport, where connectivity and automation (alongside further electrification) could dramatically reshape mobility. Policy and market design are vital to steering digitally enhanced energy systems onto an efficient, secure, accessible and sustainable path. Policymakers in the energy field should participate in broader government-wide deliberations about these effects and how to respond to them. The European Energy system is in transition towards clean energy and high efficiency. The impact of these tremendous digital advances and their rapid deployment across the energy landscape raises the fundamental question of whether we are on the cusp of a new digital era in energy and, if so, what are the emerging trends. By using our site you accept the terms of our cookie policy. Eddie Widiono. Post COVID-19, it will be imperative for innovative solutions to address Africa’s power crisis and implement a clear strategy for the continent’s recovery. International efforts can also help governments, companies and others to build up digital resilience capabilities. BRICS Youth Energy Agency chairman, Aleksandr Kormishin, echoed Matai’s sentiments: “In terms of the global trends for young people in the industry. Download. In the European Union alone, increased storage and digitally-enabled demand response could reduce curtailment of solar PV and wind power from 7% to 1.6% in 2040, avoiding 30 million tonnes of carbon dioxide emissions in 2040. Digitalisation can help integrate variable renewables by enabling grids to better match energy demand to times when the sun is shining and the wind is blowing. In the residential sector alone, one billion households and 11 billion smart appliances could actively participate in interconnected electricity systems, allowing these households and devices to alter when they draw electricity from the grid. © All content copyright 1997 - 2020 Clarion Energy, unless specified otherwise. It is also changing markets, businesses and employment. The … 14.00 – 16.00 JKT Time. Digitalisation can facilitate the development of distributed energy resources, such as household solar PV panels and storage, by creating better incentives and making it easier for producers to store and sell surplus electricity to the grid. The sensors will be interconnected within the grid using two-way communication. Revenue for digital services for fossil fuel operation and maintenance, or O&M, are estimated to be $24 billion in 2017 – some 44% of the total market size for digitalization measured by BNEF. 4. And this is quite easy to explain. A variety of organisations are involved, each contributing its comparative strengths, including to share best practices and policies as well as to help mainstream digital resilience in energy policy making. While digitalisation can bring many positive benefits, it can also make energy systems more vulnerable to cyber-attacks. The pace of digitalisation in energy is increasing rapidly. New tools such as blockchain could help to facilitate peer-to-peer electricity trade within local energy communities. Participate in broader inter-agency discussions on digitalisation. Smart lighting can provide more than just light when and where it is needed; light-emitting diodes can also include sensors linked to other systems – for example, helping to tailor heating and cooling services. All energy demand sectors are feeling the effects. Rolling out smart charging technologies for electric vehicles could help shift charging to periods when electricity demand is low and supply is abundant. One example of this is the use of drones to cheaply monitor thousands of kilometres of transmission lines over rough terrain. But digitalisation is also raising new security and privacy risks. The EU is transforming its energy system into a more sustainable, renewables-based system, away from large-scale fossil fuel-based energy production. Meanwhile, the overall net impacts on energy use are highly uncertain. Download the full report at webstore.iea.org/download/direct/269. One of the huge trends currently transforming the energy sector is digitalisation. 9. This would provide further flexibility to the grid while saving between $100 billion and $280 billion in avoided investment in new electricity infrastructure between 2016 and 2040. Digitalisation of the energy system: why does it matter and how can Horizon 2020 contribute? To date, the disruptions caused to energy systems by reported cyber-attacks have been relatively small. Solution to Integrate Variable Renewables” indicates digitalization as a major driver for innovation and solutions of the energy sector challenges. Here, we explore the latest technological development for the utility and energy sector. The environmental objectives of the European Union for 2030 and 2050 will require technological improvements both in the electricity generation and in its management in the interconnected electricity systems of all countries, especially in terms of the demand and its flexibility. Energy Digital Magazine focuses on energy news, key … Digitalisation provides new opportunities for suppliers by optimising their valuable assets, integrating renewable energies The energy sector began integrating digital technologies in the 1970s and rightly so, because of its high resource levels, costs of failure and outages. Important drivers of digitalisation in the energy sector Digitalisation means that many more physical components will be equipped with sensors to measure physical parameters related to energy use, the condition of components and more. 2. While there is no simple roadmap to show how an increasingly digitalised energy world will look in the future, the IEA recommends ten no-regrets policy actions that governments can take to prepare for digitalisation: 1. Digitalisation is helping transform the energy system by increasing recovery of resources and reducing costs of supply. Digitalisation has been referred to as one of the three main drivers for change in the energy sector – the ‘three D’s’ – along with decarbonisation and decentralisation (Di Silvestre et al., 2018). ESI, This article is based on an adaption of the Digitalization & Energy report published by the International Energy Agency. In buildings, the analysis shows that digitalisation could cut energy use by about 10% by using real-time data to improve operational efficiency. The nitty-gritty of big data-based analytical tools and standardising, Practice and experience: Power industry reform, EEG investigates pandemic’s lockdown impact on utility revenue, Taking notes from a greening sustainable business, Water security from desalination: A story of technology innovation, Ifeoma Malo has just one goal: Ending energy poverty, Nigeria: C&I solar provider secures local currency debt facility, Practicalities of small-scale PV embedded generation in South Africa, Partnership cultivated to deliver solar-powered farming in Togo. In recent years, the digitalisation of energy has become a major priority in the evolution of the energy sector. 3D printing, machine learning and connectivity could have even greater impacts. Over the long term, under a best-case scenario of improved efficiency through automation and ride-sharing, energy use could halve compared with current levels. The energy data exchange re.alto has been launched to accelerate digitalisation in Europe’s energy sector. While these technologies could improve efficiency, some could also induce rebound effects that increase overall energy use. New business models are emerging, while some century-old models may be on their way out. One of the huge trends currently transforming the energy sector is digitalisation. IEA estimates show that in the energy sector, digitisation can save around 5% of total annual generation costs. Digitalization in the energy sector The ongoing digitalization process is influencing our everyday life. Build digital expertise within their staff. Further cost-effective energy savings can be achieved through advanced process controls, and by coupling smart sensors and data analytics to predict equipment failure. Founder & Chairman PJCI (Indonesia Smart Grid Initiative) Keynote Speaker. In 2018, the European commission set out in its communication a set of objectives and actions to realise its long-term vision for climate neutral economy. Digitalisation is already improving the safety, productivity, accessibility and sustainability of energy systems. https://setis.ec.europa.eu/system/files/setis_magazine_17_digitalisation.pdf, Operational considerations for responding to the threat of cyber-attacks on critical energy infrastructure, Actions towards implementing the Integrated SET Plan, Smart Resilience and Secure Energy System, The digital transformation of energy: from energy silos to digitally interconnected systems, Digitalisation means more solar in Europe. Digitalisation holds the potential to build new architectures of interconnected energy systems, including breaking down traditional boundaries between demand and supply. Digital technologies are already widely used in energy end-use sectors, with the widespread deployment of potentially transformative technologies on the horizon; such as autonomous cars, intelligent home systems, and machine learning within factories. To honour the Paris agreement and our 2030 targets, at least 27% of our energy – that’s close to 50% of electricity – will have to come from renewables by 2030. European citizens are at the centre of this transition. 5. Write CSS OR LESS and hit save. How many times have we heard that the most successful companies do not need to own anything? Here, Sean Robinson, service leader at utilities control system provider Novotek UK and Ireland, explores the latest … Smart thermostats can anticipate the behaviour of occupants (based on past experience) and use real-time weather forecasts to better predict heating and cooling needs. This site uses cookies which are essential to make the site function effectively. However, sustained gains in energy efficiency could keep overall energy demand growth largely in check for data centres and networks over the next five years. During the past decade emphasis on energy efficiency and renewable energy has increased as a response to the environmental challenges, including greenhouse gas emissions. Digital resilience also needs to be included in technology research and development efforts as well as built into policy and market frameworks. It is also changing markets, businesses and employment. Direct energy use over the long run will continue to be a battle between data demand growth versus the continuation of efficiency improvements. Digitalisation’s overall impact, however, may be more modest than in other sectors. What are Scope 3 emissions and why are they so important? SolarPower Europe’s ‘Go Digital’ declaration was officially handed over to Megan Richards, Director of Energy Policy in DG Energy, European Commission at the SolarPower Summit 2018. Digitalisation is essential to keep this increasingly decarbonised, decentralised energy system running in a stable and affordable way. The French Development Agency AFD has agreed to provide 100 million euros in loan to Bangladesh for the digitalisation of the country’s power and energy sector. Conversely, if efficiency improvements do not materialise and rebound effects from automation result in substantially more travel, energy use could more than double. Widespread use of digital technologies could decrease production costs between 10% and 20%, including through advanced processing of seismic data, the use of sensors, and enhanced reservoir modelling. Head of BPPT (Agency for the Assessment & Application Technology), Ministry of Research & Technology, Indonesia. Learn from others, including both positive case studies along with more cautionary tales. Digitalisation is already improving the safety, productivity, accessibility and sustainability of energy systems. Op-ed: Hackers targeting IoT devices in manufacturing companies, Digitisation is a ‘must’ to manage the network’s complexity, Solar as a key enabler to the functioning of smart cities, Hydropower: The eco-friendly natural energy choice for Africa. New tools such as blockchain could help to facilitate peer-to-peer electricity trade within local energy communities. The cost, performance and deployment of many clean energy technologies have dramatically improved in recent years, accelerating transitions towards cleaner energy systems around the world. New digital tools can promote sustainability, including satellites to verify greenhouse gas emissions and technologies to track air pollution at the neighbourhood level. Provide a level playing field to allow a variety of companies to compete and serve consumers better. Empowered by a wider choice of services, they are becoming active players – prosumers (consumers and/or producers) – keeping energy prices at an economic optimum. Energy Digital Magazine covers Energy 4.0, Global Energy investments, innovation, automation & AI, smart technologies and sustainability - connecting the world’s largest community of renewable energy executives. From a utility perspective – it allows them to monitor the system, to determine where there’s pressure and to procure the services and solutions that they need in order to keep the system running. This involves the application of new digital technology, such as low-cost cloud computing, the internet of things, big data analytics and blockchain to energy. Experiment, including through ‘learning by doing’ pilot projects. WEF’s report on “ Cyber Resilience in the Electricity Ecosystem: Principles and Guidance for Boards ” calls for attention to the interconnectivity of the power system, in terms of both grid elements and associated stakeholders. Today, the biggest use of digital technologies like sensors, data collection and analytics in the energy sector is to improve the bottom line of fossil fuel generators. In the transport sector, all modes of transport and their supporting infrastructure are becoming smarter and more connected, improving safety and efficiency. Embracing digital allows organisations to reduce costs, make faster and … However, it has not yet driven real transformation. Digitalisation in the Energy Sector - Questionnaire CONTEXT Within the Energy Union, three key targets and policy objectives have been established in light of the 2030 climate and energy framework of the EC: 40% cut in greenhouse gas emissions, 32% share for renewable energy and 32.5% improvement in … Although data centre workload is forecast to triple by 2020, related energy demand is expected to grow by only 3% thanks to continued efficiency gains. This large range highlights the critical role of policy in driving efficiency gains. Renewable energy and CO2 reduction have triggered a profound need for digital transformation of the energy sector. smartEn’s contribution to the consultation hosted by DG ENER on digitalisation in the energy sector. For example, digitalisation can assist in providing electricity to the 1.1 billion people who still lack access to it. Digitalisation can facilitate the development of distributed energy resources, such as household solar PV panels and storage, by creating better incentives and making it easier for producers to store and sell surplus electricity to the grid. The developers of a new initiative aimed at speeding up the level of innovation in the energy sector are also hopeful it will alter attitudes towards digitalisation. The greatest transformational potential for digitalisation is its ability to break down boundaries between energy sectors, increasing flexibility and enabling integration across entire systems. Digitalisation is the revolutionary enabler for this transition of the energy sector; nobody can avoid it. Energy Digital Magazine is the ‘Digital Community’ for the oil & gas, utilities and renewable energy industry. Focus on the broader, overall system benefits. Sean Robinson describes the new generation of digitalisation in the energy sector. As billions of new devices become connected over the coming years, they will draw electricity at the plug while driving growth in demand for – and energy use by – data centres and network services. Response to consultation on ENTSO-E’s RDI Roadmap 2020-2030. smartEn responded to the ENTSO-E consultation on their RDI roadmap for the next ten years. Digitalisation in the energy sector involves the creation and use of computerised information and processing of the vast amounts of data which is generated at all stages of the energy supply chain. Policy Webinar: Digitalisation in the Energy Sector. By Frank Preissler in August 2019 One of the ... Germany is one of the countries beginning to realise the benefits of digitalisation in energy and utilities. Digital resilience also needs to be included in technology research and development efforts as well as built into policy and market frameworks. The energy sector is already using data in sophisticated ways to meet a wide range of challenges, from fault prediction in grid networks to the delivery of personalised energy to households. 6. In this new energy world, solar and digitalisation have emerged as a natural fit, as both help democratise and decentralise our electricity supply. Monitor the energy impacts of digitalisation on overall energy demand. The electricity sector is at the heart of this transformation, where digitalisation is blurring the distinction between generation and consumption, and enabling four interrelated opportunities: Direct energy consumption of digital technologies. Analysis indicates that in the power sector digitalisation has the potential to save around $80 billion per year, or about 5% of total annual generation costs. Worldwide there are now more mobile phone contracts than people. Build flexibility into policies to accommodate new technologies and developments. Digitalisation is making inroads into every sector and energy is not immune to this disruption. In the coal industry, digital technologies are increasingly being used in geological modelling, process optimisation, automation, predictive maintenance, and to improve worker health and safety. New business models are emerging, while some century-old models may be on their way out. CTRL + SPACE for auto-complete. Energy Digital. Opening Remark. How digital technology is changing the energy sector. Data centres worldwide consumed around 194TWh of electricity in 2014, or about 1% of total demand. 8. The oil and gas industry has long used digital technologies, notably in upstream, and significant potential remains for digitalisation to further enhance operations. Digitalisation in the Energy Sector. 3. This can be achieved by reducing operation and maintenance costs, improving power plant and network efficiency, reducing unplanned outages and downtime, and extending the operational lifetime of assets. Digitalisation is changing the energy landscape. Incorporate digital resilience by design into research, development and product manufacturing. S contribution to the Internet of Things ( IoT ) is increasing potential. On energy use electricity to the Internet: there will be interconnected within the grid using two-way communication impossible! System flexibility, roughly equivalent to the consultation hosted by DG ENER on digitalisation in energy... 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