POWER SUPPLY-DEMAND ADJUSTMENT DEVICE AND METHOD

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POWER SUPPLY-DEMAND ADJUSTMENT DEVICE AND METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18271052 titled 'POWER SUPPLY-DEMAND ADJUSTMENT DEVICE AND METHOD

The power supply-demand adjustment device described in the abstract performs output distribution to adjustment power supplies in a system based on adjustment information and supply-demand imbalance.

The adjustment information includes output change rate, distributed output, and output limit value for each adjustment power supply.
Output distribution is performed for each period to satisfy specific criteria: distribution of output in increasing order of adjustment cost and reduction in the difference between distributed output and output limit value.

Potential Applications: - Power management systems - Industrial automation - Renewable energy systems

Problems Solved: - Efficient allocation of power resources - Balancing supply and demand in a system

Benefits: - Optimal utilization of power supplies - Reduction in energy wastage - Improved system performance

Commercial Applications: Title: "Smart Power Distribution System for Enhanced Efficiency" This technology can be applied in smart grid systems, data centers, and manufacturing facilities to optimize power distribution and improve overall operational efficiency.

Questions about the technology: 1. How does the device determine the optimal output distribution among adjustment power supplies? 2. What are the key factors influencing the adjustment cost in the system?

Frequently Updated Research: Researchers are continuously exploring ways to enhance the algorithms used in power supply-demand adjustment devices to further improve energy efficiency and system performance.

Original Abstract Submitted

A power supply-demand adjustment device performs output distribution to M adjustment power supplies among N adjustment power supplies in a system, based on adjustment information and supply-demand imbalance. The adjustment information includes output change rate, a distributed output, and an output limit value for each adjustment power supply. For each period, the output distribution satisfying the following (x) and (y) is performed; where (x) is the distribution of an output to the adjustment power supply in an increasing direction in ascending or descending order of the adjustment cost; and (y) is regardless of whether an output direction is the increasing or decreasing direction, an output to be distributed to the adjustment power supply in the period is in a reducing direction with respect to reduction in a difference between the distributed output to the adjustment power supply and the output limit value of the adjustment power supply.