Renewable Energy Grid Integration And Its Implications For The Smart Grid

Renewable Energy Grid Integration And Its Implications For The Smart Grid – Intel built a solar parking system on its campus in Ocotillo, Arizona to keep employees’ cars shaded and provide sunlight. (Credit: Intel Corporation)

Renewable energy sources are often distributed at the end of the grid. Intel’s solution can integrate the infrastructure better, creating a resilient grid that is more reliable, stable and efficient. (Credit: Intel Corporation)

Renewable Energy Grid Integration And Its Implications For The Smart Grid

When the Texas blackout hit in February, my family and I were among the millions of people stuck in a terrible blackout in freezing weather due to low power supply. Some areas of the grid, such as hospitals, are lit to support critical infrastructure, but that also means nearby buildings retain power that would otherwise be diverted to residents, their homes and others who need them.

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These problems are not limited to Texas. As I write this, devastating wildfires on the West Coast are threatening power for millions and forcing the energy system to quickly adjust. We are seeing more and more extreme events due to the effects of climate change.

When a crisis occurs, one of the most important things for recovery is effective control. However, our depleted energy grid does not have the ability to direct energy where it is most needed during these crises. Instead, past grid solutions have involved shutting down power lines and implementing blackouts to avoid further damage. But these solutions aren’t sustainable, they’re outdated and they’re a little less fun if you’re reduced to boiling water over an open fire.

The current energy grid system is tricky and difficult for producers to navigate. It is built to support the unidirectional flow of most of the mains electricity from the mains. It does not have the capacity to boost demand or support 100% energy needed to achieve global climate goals such as President Biden’s proposal to create a carbon-free electricity sector by 2035.

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We need to move to renewable energy sources and build a smarter grid. For this, Intel created a technical method to simplify the grid, making it more reliable, adjustable and efficient.

To reduce the impact of climate change, we need a grid that can improve the efficiency of renewable energy. Not only will these methods create clean energy in the future, but they are distributed along the grid and across multiple locations. The result is a more resilient grid that does not rely on a central power source that can cause dangerous outages in times of emergency.

We also need a smarter grid. It must support the flow of all forms from and to the plan base, which is required by renewable energy sources, and adapt to intermittent energy (such as solar and wind) in real time. This gives the energy supplier the flexibility to distribute energy where and when it is most needed, while providing customers with the information needed to make environmentally responsible energy choices.

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The transition to a smart grid can seem daunting, but our solution makes it very easy. Interesting weather projects have already revolutionized the power delivery model and the industry is currently moving faster.

My team at Intel is working on a first-of-its-kind computing system. ‘in type of type of type of type of type of type of type of type type of type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type i type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type type)) that it can be easily deployed into existing infrastructure to create a smarter grid and adapt to changing energy needs. Our solution implements artificial intelligence (AI) and the Internet of Things (IoT) in existing systems, thus “disrupting the grid” and letting the market determine the biggest and best source of energy, without considering its physical location on the grid. Flat glass allows 100% clean, renewable energy to integrate into real energy markets.

Currently, user services have various applications that are added over time and do not always work together. Our software technology consolidates these applications into a single platform while also supporting new energy infrastructure, such as enabling clean solutions that are distributed at the grid. This platform includes AI-enabled decision making to understand and learn how to best balance the load in a clean energy resource system. A decentralized approach ensures that applications remain private and secure. This platform reduces capital costs by avoiding waste and distributing energy in a more efficient way. It also reduces operational costs by providing visibility into each channel and supporting predictive maintenance.

Renewable Energy Integration Into Smart Grids

Intel works with governments, businesses and utilities around the world to implement these smart grid solutions. In Europe, we are working with eight major electricity utilities to develop a flexible, manageable grid called the Edge for Smart Secondary Substation (E4S) Alliance. In the US, we are working with Southern California Edison to transform substations into regulated applications – reducing operating and maintenance costs while providing cyber security services for a more flexible, reliable and modern grid. . And in Malaysia, we are partnering with Tenaga Nasional Berhad on the digitization of power grids, with a focus on advanced computer hardware and applications for substation and grid systems.

Increasing the use of renewable energy and enabling clean energy options is an important part of the sustainability pillar in Intel’s RISE strategy, but reinventing the grid is too big a challenge to tackle alone. By leveraging our extensive technology and unique capabilities to bring together an ecosystem of infrastructure, governments and technology, we can transform energy networks around the world and bring reliable, renewable energy to all. changes in the technology and operation of the power system. The need for change often goes hand-in-hand with security concerns and challenges that must be addressed early in the deployment of renewable energy.

GET.transform supports electric system planners and operators to integrate renewable transformation into their grid. GET.transform supports analytical work to establish a good basis for updating plans and work methods and provides the ability to develop to create a change of mind and increase confidence in the implementation of new energy solutions.

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GET.transform works with the electrical equipment and power system of the network and operations departments to analyze the support needs, and uses the map of the variable connection routes (vRE) to identify the short, medium and long-term measures for updated plans and procedures.

Together with the partners, GET.transform offers a wide range of support that can range from the development of grid codes and compliance procedures to the analysis of flexibility and stability requirements or the analysis of new vRE prediction systems.

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