This site uses cookies to improve your experience. To help us insure we adhere to various privacy regulations, please select your country/region of residence. If you do not select a country, we will assume you are from the United States. Select your Cookie Settings or view our Privacy Policy and Terms of Use.
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Used for the proper function of the website
Used for monitoring website traffic and interactions
Cookie Settings
Cookies and similar technologies are used on this website for proper function of the website, for tracking performance analytics and for marketing purposes. We and some of our third-party providers may use cookie data for various purposes. Please review the cookie settings below and choose your preference.
Strictly Necessary: Used for the proper function of the website
Performance/Analytics: Used for monitoring website traffic and interactions
Engineers and researchers use IT and AI to optimize resource use and monitor environmental impact. Combined with traditional models, machine learning efforts such as DeepMind can predict weather patterns, help optimize energygrids, and enhance climate modeling.
Unlike traditional power plants that produce energy in a stable and controllable manner, renewables are largely weather-dependent. This variability creates uncertainty in energy supply, posing significant challenges for grid operators and energy markets. Why Accurate Forecasting Matters Energygrids require balance.
Saft is supplying a lithium-ion battery system to provide energy storage for one of the Solar EnergyGrid Integration Systems (SEGIS) projects funded by the US Department of Energy (DOE). The design will incorporate energy storage and two-way communications between solar electrical systems and utilities.
Phil Ansell, an aerospace engineer at the University of Illinois Urbana-Champaign, modeled the life cycle carbon dioxide equivalent emissions of liquid hydrogen production required to meet the fuel needs of Chicago’s O’Hare International Airport (ORD) with today’s electric grid mix. Ansell presented his findings at AIAA Aviation 2023 in June.
Map of the 100 smart grid awards. Speaking at Florida Power and Light’s (FPL) DeSoto Next Generation Solar Energy Center, President Barack Obama announced $3.4 Speaking at Florida Power and Light’s (FPL) DeSoto Next Generation Solar Energy Center, President Barack Obama announced $3.4 Source: DOE. Click to enlarge.
The major driver for the project is the need to decarbonize the electrical grid, protect it from cybersecurity attacks and make it more resilient. We will be replicating the entire California power grid on one campus. It will also entail the construction of a new energy storage testing facility on the East Campus.
These vehicles will be studied to help evolve all-electric vehicle technology and to establish a foundation of understanding on utility grid needs by modeling impact of future all-electric vehicle growth on the shared energygrid.
The US Department of Energy announced $35 million in awards for 12 projects that find new ways to harness medium-voltage electricity for applications in industry, transportation, on the grid and beyond. GE Global Research, Inline Gas Discharge Tube Breaker for Meshed MVDC Grids – $4,350,686.
Together with other highly-flexible controllable systems in the BMW Group production network, they will contribute to the stability of the public grid outside of the plant. However, the distributed, non-synchronous, and weather-dependent nature of the resources causes specific challenges when integrating them into power systems.
By analyzing the capacity needed from the distribution network for various types of vehicle charging / recharging, Bratislava can not only implement an optimal power grid, but also address the charging concerns shared by its citizens. —Guido Bartels, General Manager of IBM's Global Energy and Utilities Industry. —ZSE.
BOS accounts for more than 40% of the total installed cost of solar energy systems and represents a major opportunity to achieve significant cost reductions. Solar EnergyGrid Integration Systems: Advanced Concepts: Eight projects to receive $25.9 Foundational Program to Advance Cell Efficiency: Eighteen projects to receive $35.8
IBM Research has teamed with EKZ, the electricity utility provider of the Canton of Zurich in Switzerland, on a new pilot project that will allow consumers conveniently to charge electric vehicles and monitor their energy costs, using mobile devices. —Dieter Gantenbein, leader of the Smart Grid research project at IBM Research – Zurich.
The partners had earlier presented their early concept of a harmonization pathway for EV chargers at the California Air Resource Board ZEV Technology Symposium last year. Earlier post.).
Looking ahead, further products such as major storage systems for the energygrid are planned. From Salzgitter, the company will manage international factory operations, the further development of cell technology, the vertical integration of the value chain and the supply of machinery and equipment to the factories.
The remarkable advantage for BMW customers in using BMW i3 batteries as a plug and play storage application is the ability to tap into an alternative resource for residential and commercial backup power, thus using renewable energy much more efficiently, and enabling additional revenues from the energy market.
This includes optimized resource consumption through the most efficient use of energy and heat. An energy management system for continuous reduction of energy consumption has been implemented. However, today’s production grids are powered by alternating current—which has to be converted.
Adopt utility policies that make full use of all cost-effective demand-side management (end-use energy efficiency and demand response) as a resource. Use energy efficiency as an emissions reduction strategy in environmental regulations. Energy 2030.
Phase 1 of the program demonstrated the viability of creating grid value by optimizing smart charging of EVs. As in the first phase of the pilot, BMW will ensure participant-drivers’ expressed mobility needs are always met, while using remaining flexibility to create grid value. Earlier post.) Phase One Findings.
The new Global Battery Systems Lab will lead GM’s global advanced battery engineering resources and expedite the introduction of electrically driven vehicles, including the Chevrolet Volt, as well as plug-in hybrid and hybrid-electric vehicles and fuel cell vehicles.
The electricity fueling EVs in California comes from one of the cleanest energy mixes in the country—nearly 70% of the electricity PG&E delivers to customers is from greenhouse gas-free resources. One in five electric vehicles in the United States plug into PG&E’s clean energygrid.
Additionally, installation of electrolyzer systems on electrical grids for power-to-gas applications, which integrate renewable energy, grid services and energy storage will require large-capacity, cost-effective hydrogen storage. Image courtesy of Sandia National Laboratories) Click to enlarge. Lord, Peter H.
Integrating and storing grid and off-gridenergy To properly balance electricity supply and demand on the power grid, renewables should be integrated into energy generation, transmission, and distribution systems from the very start, Rahman said. France sells energy to Italy, Spain, and Switzerland,” Rahman said.
Earth system simulation involves solving approximations of physical, chemical and biological governing equations on spatial grids at resolutions that are as fine in scale as computing resources will allow.
Ford, Honda, and BMW have announced plans to create a new “vehicle-to-grid company” that’s aimed at standardizing vehicle charging via a singular platform. The service also seeks to return excess energy to the electrical grid, effectively converting EVs into publicly shared batteries.
His team uses sophisticated simulation and modeling tools to address a dual challenge: scaling scientific discoveries from the lab while adapting to the dynamic realities of modern energygrids. Energy systems are not static, he emphasized. Does this new demand accelerate or hinder our ability to decarbonize the grid?
Aqueous flow batteries have attracted significant interest because they could theoretically provide affordable power grid-level energy storage someday. The solar flow battery could thus bridge a gap between today’s energygrid and sources of renewable energy. This research was funded by the Department of Energy.
Tesla Megapacks are being tasked with supporting a 31-megawatt-hour expansion of the Coffeen substation in Watertown, New York, in conjunction with Nexamp and National Grid, who are battling increased energy demand at the substation. megawatts (MW) of renewable energy.
Due to raging fires and scorching hot temperatures in the Golden State, energy usage skyrockets during these months due to increased air conditioning usage. Those who depend on the energygrid to power their homes are tasked with cutting back on use.
And while the energygrid is slowly becoming more “clean” as suppliers switch to renewable sources, business owners can also make a difference. The National Renewable Energy Laboratory states in one report , “The emissions benefits of workplace charging increase as the carbon intensity of the grid is reduced.
Various scenarios to getting to net zero carbon emissions from power generation by 2050 hinge on the success of some hugely ambitious initiatives in renewable energy, grid enhancements, and other areas. So you don’t even need centrifuges, and that’s what really is important here.”
The amount of computing resources used to train the largest AI models has been doubling roughly every 6 months for more than the past decade. At this rate, by 2030 training a single artificial-intelligence model would take one hundred times as much computing resources as the combined annual resources of the current top ten supercomputers.
The partnership has already enrolled more than 150 Sunrun customers in an aggregated power program and will scale up enrollments while dispatching stored solar energy from at-home batteries to rapidly increase available electricity reserves on the grid during periods of high consumption. Nasdaq: TSLA).
The Global Battery Systems Lab has been opened on its Technical Centre campus in Warren, MI, and is set to lead GM’s global advanced battery engineering resources as well as the introduction of electrically driven vehicles such as the Chevrolet Volt. The lab spans some 33,000sq ft and will include a team of more than 1,000 engineers.
Since training these models typically requires vast resources, Industry now makes most of them, with academia only putting out a few. The report notes that the variance between models is due to factors including model size, data center energy efficiency, and the carbon intensity of energygrids.
Advantages of Smart Energy Management for Fleets. What is the Flexibility Market for Energy? . Smart EV Charging and Vehicle-to-Grid (V2G). Why Driivz for Smart EV Charging and Smart Energy Management? What is Smart Energy Management for EV Charging? Smart EV Charging in Commercial and Industrial Buildings.
When I started with Union of Concerned Scientists back in January, the California legislative session was just ramping up. As bill introductions trickled in, it became clear there would be plenty of opportunities for UCS to leverage our science-based research to inform world-leading policy solutions.
Blue, President and Chief Executive Officer at Dominion Energy. We're excited to collaborate with our utility partners on this important initiative to connect customers to charging resources and encourage electric vehicle travel." Dominion Energy is working to reduce carbon emissions and helping customers do the same.
Public Utility Commissions (PUCs)] and many state and federal agencies,” states a report by the non-profit group Americans for a Clean EnergyGrid. Affordability is expected to be just one highly contentious issue: Who, exactly, is going to pay for grid upgrades?
Plan for and integrate peak vehicle demand for electricity into the state’s energygrid. Ensure a minimum network of hydrogen stations for the commercial launch of fuel cell vehicles between 2015 and 2017. Streamline permitting of hydrogen stations. Establish consistent statewide codes and standards for ZEV infrastructure.
In the study, the researchers examined how radiation predictions made with DeepMC can be used to predict energy generation on a commercial solar farm, but Kumar says he can also imagine the model being used more generally by energygrids to predict how much energy people will use.
Also, besides giving you the ability to charge at night when most utility rates are lower, future vehicle-to-grid (V2G) technology may allow you to sell some of your stored energy back to the utilities. The demands on the grid would require a lot of infrastructure work without some sort of "energy reservoir" in place.
Tesla’s Powerwalls are set to help expand a Virtual Power Plant (VPP) program in Colorado, as an announcement this week notes that the company will be partnering with two local energy providers. “This collaboration will deliver renewable, solar energy when our customers need it most.”
We organize all of the trending information in your field so you don't have to. Join 5,000+ users and stay up to date on the latest articles your peers are reading.
You know about us, now we want to get to know you!
Let's personalize your content
Let's get even more personalized
We recognize your account from another site in our network, please click 'Send Email' below to continue with verifying your account and setting a password.
Let's personalize your content