![]() Intel does not guarantee any costs or cost reduction. Check with your system manufacturer or retailer or learn more at Cost reduction scenarios described are intended as examples of how a given Intel®- based product, in the specified circumstances and configurations, may affect future costs and provide cost savings. No product or component can be absolutely secure. Performance varies depending on system configuration. Intel® technologies' features and benefits depend on system configuration and may require enabled hardware, software or service activation. As a key piece of this puzzle, microgrids play an essential role in keeping the lights on. The result? Increased grid reliability, safety, productivity, and consumer satisfaction. Making it easier for utilities to collect more data and run predictive analytics helps them reduce their operation costs and stay profitable. ![]() Intel's IoT technologies are driving the digitalization of those assets to meet customer needs. Intel® architecture offers a flexible computing infrastructure that's quick to install and compatible with a diverse range of software and hardware providers.įor all their benefits, renewable energy sources such as wind and solar create instability in the grid, raising operation costs. That's why the ability to reuse the same software on multiple platforms is critical. The biggest challenge in all types of microgrid is the cost of deployment having to install and integrate a wide array of systems can kill a project's ROI. Intel® architecture-based advanced grid management solutions help utilities and other customers make their energy grids more reliable, stable, and efficient. Intel® Architecture-Based Solutions for Microgrids Smart meters and sensors embedded in power lines can help prevent power outages, while other monitoring and predictive maintenance solutions for transformers and pumps reduce risk and cost. Utilities that need to keep voltage and current at steady levels use Intel® architecture-based platforms to identify performance issues. IoT products can make the grid smarter, safer, more secure, and more reliable, all while lowering costs for customers. The machine learning capability of AI software helps to continuously optimize the process. In island mode, the microgrid can still provide enough power to serve critical customer loads, even if the main grid is offline. If there is a problem with the main grid, a switch can disconnect the grids either manually or automatically. The PCC can also allow the microgrid to import and export electricity from the parent grid in response to appropriate price signals, utilizing energy storage mechanisms such as batteries. In connected mode, the two systems operate in parallel, with the PCC maintaining equal voltage levels in both. The point of common coupling (PCC) is where a microgrid connects to the main grid. This can range from diesel generators and batteries, the most common sources at the moment, to power generated by renewable resources such as solar panels, wind farms, fuel cells, or other sources of renewable energy. Like a traditional grid, energy generation is the heart of a microgrid system. The idea of small-scale electric systems dates back to 1882, when Thomas Edison's coal-fired Manhattan Pearl Street Station in New York City served 82 customers within a radius of a few blocks. In particular, massive conventional grids are connecting with low-voltage microgrids, which help make electricity use more flexible and efficient. Intel®-based platform solutions using IoT technologies like AI, machine learning, and Big Data provide analytics, automatic control, and other tools to manage new energy assets. At the same time, they introduce new challenges to grid security, reliability, and load management. ![]() Technology is rapidly driving the transition to smart grids, which have the potential to meet all three challenges. It also needs to be more reliable and resilient, able to provide power-especially to essential sites like hospitals and military facilities-during and after disruptions or disasters. It has to become greener, by connecting to more carbon-free energy sources. To take advantage of this progress and to pave the way for even more carbon-free energy in the future, we have to overhaul the grid. But as renewable energy booms, more power is flowing from smaller, dispersed sources like wind and solar farms, and even individual homes and businesses. It was designed decades ago to funnel electricity from large power plants burning coal and natural gas. The traditional electricity grid needs an upgrade.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |