Microgrids and solar reduce risk of power outages by Staff Writers Washington DC (SPX) Dec 09, 2021
Climate change is fueling more floods, droughts, wildfires, and extreme storms across the United States. As a result, aging power grids are being pushed beyond their limits, sometimes with deadly impacts. (In 2020, a series of unusual winter storms knocked the power out in Texas for days - leading to shortages of water and heat and more than 100 deaths.) New research on ways to make electrical systems more resilient and restore power to people and critical facilities faster will be highlighted during the 2021 Society for Risk Analysis Virtual Annual Meeting, Dec. 5-9.
Microgrids to the rescue Energy analyst Amanda Wachtel of Sandia National Laboratories will describe a tool called ReNCAT that helps planners choose the ideal locations for microgrids to ensure that critical services stay online. This optimization tool uses a genetic algorithm to determine which sections of distribution lines to power via microgrids during a grid outage. A key feature involves mapping critical lifeline services to critical infrastructure by specifying which sectors provide which services and at what level.
Backup solar power But in order to make the switch, planners need a faster, simpler way to estimate the cost of such a system (other than complicated computer programs). This is the focus of a study conducted by the group Physicians, Scientists, and Engineers (PSE) for Healthy Energy. The biggest driver for the cost of resilient energy is battery size, according to PSE Healthy Energy Senior Scientist Patrick Murphy. More batteries are needed when solar capacity is low, load is high, and outages last a long time. Larger solar installations can help reduce the battery costs. "While more solar is more expensive, it also produces more energy during normal times and is typically a good investment," says Murphy. As a test of their new model, the researchers developed a method for estimating the size and cost of a solar+battery system for community facilities in California. "Our method allows stakeholders to quickly compare the levels of service possible and the cost to provide them," says Murphy. "The results will provide community leaders with ways to make their electrical system more resilient and keep critical functions online."
Mapping wildfire outage risk To minimize the risk to people and help officials prepare for outages, researchers at the University of Buffalo have developed a vulnerability map that quantifies and visualizes the wildfire-induced risk (low, medium and high) for specific communities in a geographic region. The mapmaking method uses machine learning algorithms to analyze combines publicly available geo-data with machine learning algorithms. In the presentation, "A Geo-AI based framework for modeling wildfire-induced failure risk of electric power grid," Prasangsha Ganguly will present a vulnerability map for the electric infrastructure of California. A second pixel-based map assigns different zones (low, moderate, and high) to risk clusters, representing the level of risk arising due to loss of the critical power infrastructure. "These maps can help federal and state governments make risk-informed decisions related to resource allocations and planning for wildfire risk mitigation," says Ganguly.
Tiny crystal of power Tallinn, Estonia (SPX) Dec 06, 2021 This crystal of iron pyrite, just four hundredths of a millimetre in size, could function as the light absorbing layer of a tiny solar cell - potentially a promising future source of power on the Moon. Working with Estonia's Tallinn University of Technology (TalTech), ESA has studied the production of sandpaper-like rolls of such microcrystals as the basis of monograin-layer solar cells. "We're looking at these microcrystals in the context of future lunar settlement," explains ESA advanced m ... read more
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