Likened by some commentators to the Green New Deal, the ambitious law bans coal plants starting in 2028, provides for automatic interconnection for customer-sited solar energy systems below 25 kilowatts (kW), reduces utility approval time to 90 days for commercial and industrial solar projects, creates a 5-year window of full compensation for consumers’ solar energy production, streamlines permitting for utility scale projects, and exempts solar electric storage equipment from sales taxes. These are substantial goals under most circumstances, but particularly for Puerto Rico which generated only 2% of its electricity from renewables as recently as 2017. The new law requires Puerto Rico to generate 40% of its energy from renewable sources by 2025 and 100% by 2050. On April 11, 2019, Puerto Rico Governor Rosselló signed the Puerto Rico Energy Public Policy Act (Senate Bill 1121), which is intended to transform energy generation in the territory. Half a year later, Puerto Rico has passed a new law that calls for implementing aggressive renewable energy goals. In November 2018, we discussed the evolving renewable energy situation in Puerto Rico as proposals for 100% renewable generation appeared stalled in its legislature. In addition, our microgrid management software – EcoStruxure – offers pre-engineered algorithms to make the functions standardised and reliable.Nearly two years following hurricanes Irma and Maria, challenges remain as Puerto Rico seeks to develop a cleaner and more resilient power grid. ![]() Our pre-engineered microgrid control centres have all the components you need for power management, control, energy metering, and power monitoring. Schneider Electric offers a ready-to-use solution to help you design a microgrid, regardless of the application. They include communication, automation, and IT systems. Smart grids, on the other hand, are electrical grids that operate on a larger scale and can regulate energy flows from generation points to consumption points. It includes distributed energy sources and multiple loads, which can be operated parallelly with the broader utility grid. A microgrid is a self-sufficient and localised energy system serving a discrete geographic footprint, which may be a business centre, hospital complex, etc. Microgrids are different from smart grids. Differences between a microgrid and a smart grid ![]() Networked microgrids: These systems are also called nested microgrids and consist of several microgrids and separate DERs connected to the same utility grid circuit segment.Grid-connected microgrids: They have a physical connection to the utility grid through a switching mechanism at the point of common coupling (PCC) however, they can be disconnected into island mode and reconnected back to the main grid when required.Remote microgrids can operate in island mode and be physically isolated from the utility grid in case of a lack of affordable and available transmissions or distribution infrastructure in the nearby area. Remote microgrids: These are also called off-grid microgrids. ![]() We offer repeatable, scalable, and IoT-enabled microgrid solutions and end-to-end services, including electrical distribution services.īroadly speaking, there are three types of microgrids: Applications, Analytics, and Services include EcoStruxure Microgrid Advisor and EcoStruxure Microgrid Operation, and Edge Control includes Harmony ST6 and EcoStruxure EV Charging Expert. ![]() Connected Products include Uninterruptible Power Supply (UPS), Grid-Tie String Inverters, and Hybrid Inverters. Schneider Electric offers efficient microgrid solutions based on a combination of Edge Control Systems, Connected Products, Applications, Analytics, and Services. Microgrid solutions from Schneider Electric
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |