The main results of the SmarTher grid project are synopsized below:
(i) We have designed a decentralized scheme for controllable thermostatic loads that enables ancillary support in the power grid. The proposed scheme is deterministic, which allows a fast response at urgencies. In addition, we provided conditions on the proposed scheme that ensure than no synchronization phenomena will occur.
(ii) We proposed a scalable hierarchical control scheme for on-off loads which enables a near optimal power allocation and can be combined with ancillary support schemes. In addition, the proposed scheme ensures that the secondary frequency regulation objectives are satisfied. For the proposed scheme, we provide analytic stability guarantees in power networks.
(iii) We proposed a distributed scheme for generation and controllable demand that simultaneously: (i) enables an optimal power allocation, (ii) ensures the privacy of prosumption and (iii) satisfies the secondary frequency regulation objectives. For the proposed scheme we provide analytic privacy, stability and optimality guarantees.
(iv) We designed an intraday blocking pricing scheme that aims to minimize the peak to average demand in the power system, and hence improve its resilience. The proposed scheme delivers improved performance and robustness to uncertainty than existing schemes in the literature.
(v) We studied the stability properties of power networks at the presence of controllable virtual inertia. This study developed sufficient decentralized stability conditions that enabled stability guarantees. In addition, it demonstrates how unregulated virtual inertia may destabilize the power gird.
The dissemination of these results was done through a series of means, such as scientific publications, conference presentations and other activities.
In particular, the SmarTher Grid project has resulted in two journal and two conference publications, with one more conference publication to appear later this year.
In addition, two more journal papers are currently in revision and three more papers (two journal, one conference) are in preparation.
The project outcomes have also been presented at two conferences and will also be presented later this year at one more.
For enhanced dissemination, the Fellow created and maintained a project website and posted regularly on social media about the project outcomes.
In addition, the KIOS CoE aided in the dissemination of the project results with posts through its website and press releases.
Finally, the Fellow has given three seminars and participated in two dissemination events, to promote the SmarTher Grid project outcomes.