NINAGAWA Chuzo |
Title | Professor |
---|---|
Department | Department of Electrical, Electronic and Computer Engineering |
Course | Electrical and Electronic Course |
Recently, the problem on instantaneous imbalance of power grid's supply and demand caused by instantaneous fluctuation of a large amount of solar or wind generation plants is obtaining researchers' attentions. One of the possible countermeasures will be the smart grid's Fast Automated Demand Response (Fast ADR). Our laboratory is currently studying the following research themes;
(1) Real-time simulation experiment on the Fast Automated Demand Response of a cluster of buildings' facilities using the actual OpenADR smart grid wide area communication among 120 computers with dummynet environment.
(2) Statistical mathematical modeling on dynamic responsive and smoothing-effect characteristics of the Fast ADR of a cluster of widely distributed office buildings using our original AR and Neural Network combined modeling method with actually measured building facility's power demand time-series data.
(3) A large-scale simulation on the total smart grid system with a large amount of ordinary thermal plants, fast-fluctuating mega-solar plants, and a cluster of building's Fast ADR (so-called ""virtual power plants"") with our original transfer functions of random and stochastic smoothing-effects.