18576850. Controlling Exchanges of Energy Between a Plurality of Systems Connected to an Electrical Grid simplified abstract (Siemens Aktiengesellschaft)
Contents
Controlling Exchanges of Energy Between a Plurality of Systems Connected to an Electrical Grid
Organization Name
Inventor(s)
Sebastian Schreck of Nürnberg (DE)
Ileskhan Kalysh of Aachen (DE)
Controlling Exchanges of Energy Between a Plurality of Systems Connected to an Electrical Grid - A simplified explanation of the abstract
This abstract first appeared for US patent application 18576850 titled 'Controlling Exchanges of Energy Between a Plurality of Systems Connected to an Electrical Grid
The abstract of this patent application describes a method for controlling energy exchanges between installations connected to a three-phase power grid using a control unit.
- The method involves determining time-dependent powers for each phase and installation within a specified time range.
- An optimization method is used to extremalize a target function that includes a phase difference.
Potential Applications:
- Smart grid management systems
- Renewable energy integration
- Energy trading platforms
Problems Solved:
- Efficient energy exchange between installations
- Optimization of power grid operations
Benefits:
- Increased energy efficiency
- Cost savings for energy consumers
- Enhanced grid stability
Commercial Applications: Smart grid technology for utility companies to optimize energy distribution and trading.
Questions about the technology: 1. How does this method improve energy efficiency in power grid operations? 2. What are the potential cost savings for energy consumers with this technology?
Frequently Updated Research: Stay updated on advancements in smart grid technology and optimization methods for energy exchanges.
Original Abstract Submitted
Various embodiments of the present disclosure include a method for controlling one or more exchanges of energy between a plurality of installations using a control unit, wherein each installation is connected to one or more phases A,B,C of a three-phase power grid. An example method includes using the control unit to determine, within a time range T for each of the phases A,B,C and for each of the installations, associated time-dependent powers to be exchanged by means of an optimization method by extremalizing a target function. The target function includes a phase difference:
