![]() It operates while connected to the larger grid as I mentioned. Which is why it's at the forefront of some area's plans for deploying more renewable resources. > Microgrids can be powered by distributed generators, batteries, or solar power. And their Fort Zed project where the community utilities working with the research university up there. > You look at a very innovative utility up in Fort Collins, for example, where they're very aggressively exploring sort of distributive generation in the terms of microgrids. And that goal is to be a community that produces the same amount of energy it uses. > For example, in Fort Collins, Colorado, the community has a microgrid attached to the larger grid as a key way for them to meet their goal. So you can actually design a microgrid to meet the needs of something like a 100 year flood, for example. > A microgrid is just a small version of a grid, but it is, in the case of a microgrid, designed to provide a local solution. It can power a single facility or it can power a larger area. Well, a microgrid, as you can probably tell by the name, is a smaller scale system. You know how the grid works to connect bulk power to our homes and businesses. ![]() You may have heard the term microgrid before. You just need a healthy curiosity and an open mind to learn about an industry that I think a lot of us, including myself sometimes, take for granted. You'll learn why in this course.) No prior education or experience required. Electric Utilities Fundamentals and Future is the course for you whether you’re just curious about the industry or an industry veteran looking to grow – or, thinking about joining the industry. This industry can get pretty complicated, and this course will help you make more sense of it. YOU WILL DEVELOP A FRAMEWORK FOR MAKING SENSE OF THIS INDUSTRY THAT WILL BENEFIT YOU BEYOND THIS COURSE. This information establishes a knowledge foundation so that when we explore some of the most critical topics, like renewable energy, smart grid, battery storage, and you can think about it from a much more analytical and critical viewpoint. ![]() Then, throughout the modules, you will build some basics about how electricity gets to you, who watches over decisions, including setting rates. This course kicks off with animated crash course on industry history, highlighting aspects of the structure, governance, and technology that remain today, despite the passage of time. As this industry continues to unfold at an unprecedented pace, you will be armed with knowledge and insights to form informed opinions supporting decisions you will increasingly make for your energy-dependent homes and businesses. You will benefit from having the inside track because you see some behind-the-scenes information not covered in news stories, social media or even if we are in the business ourselves.ĮACH WEEK YOU NOT ONLY LEARN WHAT IS CHANGING, BUT WHY. It looks at the electric utility industry, which has remained critical to our quality of life, health and comfort from the eyes of numerous industry experts through on-location interviews, compelling visuals, and animation. The approach of this course is truly unique in how it approaches and engages learners. The high-tech carbon blades were developed through the longtime partnership between GE’s Onshore Wind business, GE’s Global Research Center and GE’s LM Wind Power, taking advantage of the research, design, and large-scale manufacturing expertise of these teams to bring the Cypress wind turbine blades from concept to a tested and proven reality.THIS COURSE GIVES YOU THE INSIDE TRACK TO A COMPLICATED INDUSTRY. Equally important, the wind turbine features blade tips that offer customers greater flexibility to address site wind conditions and requirements. This feature of the Cypress platform significantly drives down logistical costs by enabling blade assembly onsite and reduces the costs for permitting equipment and road work required for transporting longer blades. Longer wind turbine blades improve AEP and help drive down Levelized Cost of Electricity (LCOE), and the proprietary design will allow these larger onshore wind turbines to be installed in locations that were previously inaccessible. The Cypress platform, which includes wind turbines with 158 and 164 meter rotor diameters, various hub heights, and power ratings between 4.8 and 6.1 MW, is equipped with both single piece and jointed blade variants, improving logistics and offering increased output from hard to reach sites. ![]() Revolutionary two-piece wind turbine blade design
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