	US 12,355,244 B2
	Hybrid system and method for distributed virtual power plants integrated intelligent net zero
Ting-Chia Ou, Tainan (TW); Hao Tieng, Tainan (TW); Fan-Tien Cheng, Tainan (TW); Tsung-Han Tsai, Tainan (TW); and Yu-Yong Li, Tainan (TW)
Assigned to NATIONAL CHENG KUNG UNIVERSITY, Tainan (TW)
Filed by NATIONAL CHENG KUNG UNIVERSITY, Tainan (TW)
Filed on Nov. 1, 2022, as Appl. No. 18/051,521.
Claims priority of application No. 111135115 (TW), filed on Sep. 16, 2022.
Prior Publication US 2024/0097444 A1, Mar. 21, 2024
Int. Cl. H02J 3/00 (2006.01); G06Q 40/04 (2012.01); G06Q 50/06 (2012.01)

CPC H02J 3/008 (2013.01) [G06Q 40/04 (2013.01); G06Q 50/06 (2013.01)]

16 Claims

1. A hybrid method for distributed virtual power plants integrated intelligent net zero, comprising:

performing an economic profit assessing operation to determine whether an economic benefit index is greater than or equal to an economic benefit index threshold;

performing, when a determination result of the economic profit assessing operation is yes, a net-zero assessing operation to determine whether a net-zero annual carbon emission index is less than or equal to a net-zero annual carbon emission index threshold according to a carbon emission management information;

performing, by an intelligent central dispatch platform when a determination result of the net-zero assessing operation is yes, a distributed dispatch allocation on a plurality of distributed virtual power plants based on the net-zero annual carbon emission index, wherein the distributed dispatch allocation includes a participable capacity that each of the distributed virtual power plants is capable of participating in power trading auxiliary services;

performing, by each of the distributed virtual power plants, a behind-the-meter load demand dispatch according to the distributed dispatch allocation, wherein the behind-the-meter load demand dispatch includes an actual planning participating capacity that each of the distributed virtual power plants actually participates in the power trading auxiliary services;

performing a dispatch demand assessing operation to determine whether an execution rate of the intelligent central dispatch platform after the behind-the-meter load demand dispatch is greater than an execution rate threshold;

performing, when a determination result of the dispatch demand assessing operation is yes, a post-dispatch net-zero assessing operation to determine whether the net-zero annual carbon emission index after the behind-the-meter load demand dispatch is less than or equal to the net-zero annual carbon emission index threshold according to the carbon emission management information after the behind-the-meter load demand dispatch; and

repeatedly performing the distributed dispatch allocation, when a determination result of the post-dispatch net-zero assessing operation is no, until the net-zero annual carbon emission index after the behind-the-meter load demand dispatch is less than or equal to the net-zero annual carbon emission index threshold.