The Evolving Energy Ecosystem: Smart Grids To Smart Energy

As technologies like AI, IoTs, and blockchain digitize, automate, communicate, integrate, and decentralize the energy ecosystem, what impact will it have on...

                
· 3 min read >

As technologies like AI, IoTs, and blockchain digitize, automate, communicate, integrate, and decentralize the energy ecosystem, what impact will it have on each nation’s economy: its survival, security, and sustainability?

Introduction

For any nation, the energy ecosystem is fundamental to its progress and development. Since the energy industry drives economic growth, the power grid has always had a profound impact on a nation’s economic survival, security, and sustainability.

Now, supported by advances in emerging technologies like artificial intelligence, blockchain, the internet of things, and more, the growing digitization, automation, communication, connectivity, and decentralization are on their way to fundamentally transform the way nations manage diverse energy sources, supply chains, and energy management processes. As a result, each individual nation is now able to lay the foundation of an intelligent, integrated, democratized, and decentralized energy market that can work for consumers, have diverse energy sources, and which ensures that energy supply can always meet demand. Individually and collectively, this will likely lay a foundation to bring sustainability to national economic engines.

As the technology transformation intensifies, the evolution in the grid is on its way to both allowing energy to keep flowing where and when it’s needed and allowing all energy sources to be used efficiently. So, as nations witness transformative changes to the way electricity is produced, transmitted, managed, and used, it is essential to understand and evaluate the emerging trends in technology that could transform the grid further.

Acknowledging this emerging reality,  Risk Group initiated a much-needed discussion on Smart Grids to Smart Energy with Ravi Seethapathy P.Eng, MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grid, Smart Cities, and Energy Systems from Canada on Risk Roundup.

Disclosure: Risk Group LLC is my company

Risk Group discusses Smart Grids to Smart Energy with Ravi Seethapathy P. Eng., MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grid, Smart Cities and Energy Systems; Globally Recognized Speaker and Corporate Director on Risk Roundup.

Electric Power Grid

The electric power grid, known as the most complex and most substantial machine on the globe, is an interconnected energy infrastructure made up of power generation, transmission, and distribution. As technology transforms the electric grid, the rapidly emerging microgrids, intelligent sensors, 2-way communication, digitization, and automation of energy management processes have laid the foundation to not only smart grids but also smart energy. Again, the democratization and decentralization of diverse energy sources have also added to this shift.

As technology transforms the grid, each nation’s power grid is at a critical juncture. While there are many gaps and opportunities to improve energy efficiency, production, distribution, transmission, and storage, it will be interesting to see how nations determine the appropriate balance between the competing interests of different energy sources to enable digitization, automation, decentralization, and modernization of the electric power ecosystem. So, amidst many competing and conflicting interests, how are nations conceptualizing the future design of the evolving power grid system? As nations evaluate the technical obsolescence of their grid, what is the impact on safety, security, and sustainability?

Smart Grid to Smart Energy

As the technology transformation allows for two-way communication between the grid and its customers, the rapidly evolving automation that is on its way to making the grid intelligent consists of not only controls, computers, and automation, but also many other technologies like the internet of things and blockchain. These technologies work with the electrical grid to respond digitally to the rapidly changing electric demand in real-time.

Moreover, consumers becoming producers of energy is fundamentally changing energy economics. The reason behind that is over the years, the power flow was one-way: from generation to transmission to distribution to consumers. Now, as consumers become producers of energy due to maturing solar panels, wind turbines, and other sources of energy, the power flow is 2-way.

The emerging smart grid represents an unprecedented opportunity to move the energy industry into a new era of smart energy which would foster reliability, availability, accountability, and efficiency that would contribute to a nation’s economic health. From efficient transmissions of electricity to rapid restorations of power, cost efficiency to lower electricity rates, increased integration of diverse energy sources to increased intelligence of energy needs, the smart grid will bring many benefits to the evolving smart energy ecosystem.

That brings us to an important question: how are nations preparing for the evolution of their energy infrastructure? While it will take some time for the evolving smart grid to bring smart energy to all nations, the evolving energy ecosystem will fundamentally change the energy equation for the future of humanity.

Security Threats to Smart Grid

With the aging electrical power infrastructure and with increased reliance on automated control systems (e.g. smart meters), there is growing susceptibility to security threats. So, what are the security risks to the smart grid? Where do the threats originate?  It seems there are many variables to security threats to smart grids: ranging from cybercriminals, nation-states, natural disasters, human-made disasters, and inadvertent technical and non-technical errors. Are nations prepared to face the emerging security threats to their power grid from cyberspace, geospace, and space? It is essential to understand and evaluate what technological and non-technological improvements in grid infrastructure are necessary across nations to build resilient grids.

Understanding risk and resilience are essential as nations’ electric grids, data centers, telecommunications networks, and other critical infrastructure are also vulnerable to electromagnetic warfare: a nuclear weapon that generates an EMP (Electro-Magnetic Pulse). Even a geomagnetic storm from the sun could also create an EMP effect. So, when cyber warfare, electromagnetic warfare, and space warfare all have the potential to cause temporary or permanent disruptions to the electric power grid, how can a nation ensure a sustainable source of energy supply?

What Next

For any nation, the security of its energy ecosystem is fundamental to its economic health. As nations define and design smart energy grids, it is vital to evaluate the security vulnerabilities and make the grids resilient to both natural and artificial disasters. However, to be able to do that, we first need to understand who is responsible for the security of the power grid. Do you know who is responsible for power grid security in your nation?

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Written by Risk Group
Risk Group LLC, a leading strategic security risk research and reporting organization, is a private organization committed to improving the state of risk-resilience through collective participation, and reporting of cyber-security, aqua-security, geo-security, and space-security risks in the spirit of global peace through risk management.​ Risk Group LLC, a leading strategic security risk research and reporting organization, is a private organization committed to improving the state of risk-resilience through collective participation, and reporting of cyber-security, aqua-security, geo-security, and space-security risks in the spirit of global peace through risk management.​ Profile
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