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introduction
For any country, the energy ecosystem is essential to its progress and development. Since the energy sector has been the engine of economic growth, the electricity grid has always had a profound impact on the survival, security and economic sustainability of a country.
Now, supported by advances in emerging technologies such as artificial intelligence, blockchain, internet of things, etc., scanning, automation, communication, connectivity and decentralization are poised to radically transform how countries manage various sources of energy, supply chains, and energy management the process. Thus, each country is now able to lay the foundations for a smart, integrated, democratized and decentralized energy market that can benefit consumers, have different energy sources and ensure that energy supply can always meet the demand. Individually and collectively, this will probably lay the foundation for sustainable development of national economic engines.
As technology evolves, the network is changing more and more by allowing energy to continue to flow where and when it is needed and allowing all energy sources to be used efficiently. Thus, as countries witness profound changes in the way electricity is generated, transmitted, managed and used, it is essential to understand and evaluate new technological trends that can transform the network further.
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Recognizing this emerging reality, & nbsp; Risk group initiated an indispensable discussion on Smart Grids to Smart Energy with Ravi Seethapathy, Engineer, MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grids, Smart Cities and Canadian Energy Systems Risk balance sheet.
Disclosure: Risk Group LLC is my company
Risk Group discusses Intelligent Energy Smart Grids with Ravi Seethapathy, Eng., MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grids, Smart Cities and Energy Systems; Lecturer and Managing Director recognized globally for risk reporting.
& nbsp;
Electrical network
The electricity grid, known as the most complex and the most substantiall machine on the globe, is an interconnected energy infrastructure consisting of production, transmission and distribution of electricity. As technology transforms the power grid, micro-grids, smart sensors, two-way communication, scanning, and the automation of rapidly emerging energy management processes have laid the foundation for networking. smart, but also intelligent energy. Once again, the democratization and decentralization of various energy sources have also contributed to this change.
As technology transforms the grid, each country's grid is at a critical juncture. If there are many gaps and opportunities to improve energy efficiency, production, distribution, transportation and storage, it will be interesting to see how countries determine the right balance between competing interests different sources of energy to enable the digitization, automation, decentralization and modernization of the electric power ecosystem. So, among many conflicting and conflicting interests, how do countries conceptualize the future design of the evolving grid system? As countries badess the technical obsolescence of its network, what is its impact on security, safety and sustainability?
Smart Grid to Smart Energy
While technological transformation allows bidirectional communication between the network and its customers, the rapidly evolving automation that makes the intelligent network into intelligent includes not only commands, computers and automation, but also many other technologies like the Internet. things and blockchain. These technologies work with the power grid to respond numerically to the rapid evolution of electrical demand in real time.
In addition, consumers who become energy producers fundamentally change the energy economy. The reason behind this is that over the years, the flow of energy was one way: from production to distribution, through distribution to consumers. Today, as consumers become energy producers due to the maturation of solar panels, wind turbines and other sources of energy, the power flow is bidirectional.
The emerging smart grid represents an unprecedented opportunity to move the energy sector into a new era of smart energy that promotes reliability, availability, accountability and efficiency and contributes to the country's economic health. Whether it is effective electricity transmissions or fast energy restorations, reduced costs, lower electricity rates, increased integration of various As sources of energy and increased intelligence of energy needs, the smart grid will bring many benefits to the evolving energy ecosystem.
This brings us to an important question: how are countries preparing for the evolution of their energy infrastructure? While it will take some time before the evolving smart grid brings smart energy to all countries, this evolving energy ecosystem will fundamentally alter the energy equation for the future of the future. # 39; humanity.
Threats of security on the smart grid
With aging electrical infrastructure and increased reliance on automated control systems (eg smart meters), safety is increasingly at risk. So, what are the security risks for the smart grid? Where do the threats come from? & Nbsp; It appears that threats to the security of smart grids include many variables: cybercriminals, nation-states, natural disasters, man-made disasters, inadvertent technical and non-technical errors. Are countries ready to face emerging threats to the security of their electricity grid from cyberspace, geospatial space and space? It is essential to understand and evaluate what technological and non-technological improvements in network infrastructure are needed from one country to another to create resilient networks.
& nbsp;
Understanding the risks and resilience is essential because the nation's power grids, data centers, telecommunication networks and other critical infrastructures are also vulnerable to electromagnetic warfare: a nuclear weapon that generates an electromagnetic pulse. Even a geomagnetic storm of the sun could also create an EMP effect. For example, when cyber warfare, electromagnetic war, and space warfare all have the potential to cause temporary or permanent disruptions in the power grid, how can a country guarantee a sustainable source of energy supply?
& nbsp;
And then?
For any country, the security of its energy ecosystem is essential to its economic health. As countries define and design smart energy networks, it is critical to badess security vulnerabilities and to make them resilient to both natural and man-made disasters. However, to be able to do this, we must first understand who is responsible for the safety of the electricity grid. Do you know who is responsible for the safety of the electricity grid in your country?
NEVER MISS DR. POSTS OF PANDYA
Just join here for a weekly update
& nbsp;
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introduction
For any country, the energy ecosystem is essential to its progress and development. Since the energy sector has been the engine of economic growth, the electricity grid has always had a profound impact on the survival, security and economic sustainability of a country.
Now, supported by advances in emerging technologies such as artificial intelligence, blockchain, internet of things, etc., scanning, automation, communication, connectivity and decentralization are poised to radically transform how countries manage various sources of energy, supply chains, and energy management the process. Thus, each country is now able to lay the foundations for a smart, integrated, democratized and decentralized energy market that can benefit consumers, have different energy sources and ensure that energy supply can always meet the demand. Individually and collectively, this will probably lay the foundation for sustainable development of national economic engines.
As technology evolves, the network is changing more and more by allowing energy to continue to flow where and when it is needed and allowing all energy sources to be used efficiently. Thus, as countries witness profound changes in the way electricity is generated, transmitted, managed and used, it is essential to understand and evaluate new technological trends that can transform the network further.
Recognizing this emerging reality, Risk group initiated an indispensable discussion on Smart Grids to Smart Energy with Ravi Seethapathy, Engineer, MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grids, Smart Cities and Canadian Energy Systems Risk balance sheet.
Disclosure: Risk Group LLC is my company
Risk Group discusses Intelligent Energy Smart Grids with Ravi Seethapathy, Eng., MBA, FCAE, Executive Chairman of Biosirus Inc, Expert Advisor on Smart Grids, Smart Cities and Energy Systems; Lecturer and Managing Director recognized globally for risk reporting.
Electrical network
The electricity grid, known as the most complex and the most important machine on the globe, is an interconnected energy infrastructure consisting of production, transmission and distribution of electricity. As technology transforms the power grid, micro-grids, smart sensors, two-way communication, scanning, and the automation of rapidly emerging energy management processes have laid the foundation for networking. smart, but also intelligent energy. Once again, the democratization and decentralization of various energy sources have also contributed to this change.
As technology transforms the grid, each country's grid is at a critical juncture. If there are many gaps and opportunities to improve energy efficiency, production, distribution, transportation and storage, it will be interesting to see how countries determine the right balance between competing interests different sources of energy to enable the digitization, automation, decentralization and modernization of the electric power ecosystem. So, among many conflicting and conflicting interests, how do countries conceptualize the future design of the evolving grid system? As countries badess the technical obsolescence of its network, what is its impact on security, safety and sustainability?
Smart Grid to Smart Energy
While technological transformation allows bidirectional communication between the network and its customers, the rapidly evolving automation that makes the intelligent network into intelligent includes not only commands, computers and automation, but also many other technologies like the Internet. things and blockchain. These technologies work with the power grid to respond numerically to the rapid evolution of electrical demand in real time.
In addition, consumers who become energy producers fundamentally change the energy economy. The reason behind this is that over the years, the flow of energy was one way: from production to distribution, through distribution to consumers. Today, as consumers become energy producers due to the maturation of solar panels, wind turbines and other sources of energy, the power flow is bidirectional.
The emerging smart grid represents an unprecedented opportunity to move the energy sector into a new era of smart energy that promotes reliability, availability, accountability and efficiency and contributes to the country's economic health. Whether it is effective electricity transmissions or fast energy restorations, reduced costs, lower electricity rates, increased integration of various As sources of energy and increased intelligence of energy needs, the smart grid will bring many benefits to the evolving energy ecosystem.
This brings us to an important question: how are countries preparing for the evolution of their energy infrastructure? While it will take some time before the evolving smart grid brings smart energy to all countries, this evolving energy ecosystem will fundamentally alter the energy equation for the future of the future. # 39; humanity.
Threats of security on the smart grid
With aging electrical infrastructure and increased reliance on automated control systems (eg smart meters), safety is increasingly at risk. So, what are the security risks for the smart grid? Where do the threats come from? It appears that threats to the security of smart grids include many variables: cybercriminals, nation-states, natural disasters, man-made disasters, inadvertent technical and non-technical errors. Are countries ready to face emerging threats to the security of their electricity grid from cyberspace, geospatial space and space? It is essential to understand and evaluate what technological and non-technological improvements in network infrastructure are needed from one country to another to create resilient networks.
Understanding the risks and resilience is essential because the nation's power grids, data centers, telecommunication networks and other critical infrastructures are also vulnerable to electromagnetic warfare: a nuclear weapon that generates an electromagnetic pulse. Even a geomagnetic storm of the sun could also create an EMP effect. For example, when cyber warfare, electromagnetic war, and space warfare all have the potential to cause temporary or permanent disruptions in the power grid, how can a country guarantee a sustainable source of energy supply?
And then?
For any country, the security of its energy ecosystem is essential to its economic health. As countries define and design smart energy networks, it is critical to badess security vulnerabilities and to make them resilient to both natural and man-made disasters. However, to be able to do this, we must first understand who is responsible for the safety of the electricity grid. Do you know who is responsible for the safety of the electricity grid in your country?
NEVER MISS DR. POSTS OF PANDYA
Just join here for a weekly update
