Tag Archives: power system

IEEE TPWRS paper on fire-detecting digital twin of overhead line, News

IEEE TPWRS Paper on Digital Twin of Overhead Lines for Fire Detection

March 2022

Extending some of my previous work, I developed a digital twin for overhead conductors that detects an approaching forest fire and de-energizes the affected lines in a timely manner and not preemptively. The work has just been accepted in the IEEE Transactions on Power Systems (preprint here).

In California (CA) and elsewhere, the risk of overhead conductors igniting forest fires or adding seats to on-going ones is very real and extensive. In CA, PG&E’s overhead conductor equipment was determined to be the reason for the 2018 Camp fire, leading to law suits that caused the utility’s bankruptcy. After restructuring, the company updated its practices with preemptive disconnections of large parts of its grid during days of high risk of fire. The new practice disrupted service to thousands of customers, in most cases unnecessarily. Hundreds of new suits threatened PG&E with a second bankruptcy in 3 years.

Phasor Measurement Units (PMUs) have been widely adopted across grids. PMUs may be installed along a line in distances as close as a 1-2 miles in between. This gives rise and basis to the idea of real-time monitoring of line impedance for any reasons of variation. As resistance increases with ambient temperature (not proportionally), steep decreases in the inductance/resistance ratio (tangent of the impedance phasor – tanδ in the figure) of an overhead conductor may indicate that a forest fire burns near said conductor and it should, thus, be disconnected.

Behavior of moving average of impedance phasor as a forest fire approaches an overhead conductor and affects its resistance. Such a behavior should control the disconnection of this conductor.

The in silico testing under numerous worst case scenario conditions (no solar heating effect, broad measurement error intervals, synchronization errors, etc.), showed that the proposed method detects some cases of a forest fire approaching a conductor, in sub-second times and at extremely low false positive rates. In the next steps, I plan a collaboration with interested utilities and the US Forest Service for field testing.

I want to thank CMU ECE’s MSc student (at that time) and co-author Uday Sriram for his help in setting up the tests, Dan Dietmeyer from SDG&E for informing me about PMU deployments in CA, Farnoosh Rahmatian from NuGrid Power for lending his expertise on instrument transformers and Jeff Dagle from PNNL for his crucial comments in the earlier stages of this work.

AI & ML seminar at Stanford Feb. 24, News

Seminar at Bits & Watts (Stanford) on Machine Learning & AI for Power Systems

January 2022

I am very excited with Dr. Liang Min‘s invitation to present my Smart Grid works on power system control with machine learning and artificial intelligence in the framework of the Bits & Watts Initiative at Stanford! The seminar will take place on Feb. 24th and I will go over the use of top-down heuristically inducted binary decision trees to procure firm capacity by renewables with volatility, and on how voltage control can be modeled as a problem of classical mechanics physics. I look forward to hearing attendees’ ideas and thoughts on other machine learning and AI applications in power system optimization, planning and control.

The seminar will be in-person, so if you are faculty, student & researcher at Stanford and would like us to meet before/after the seminar, please, do not hesitate to reach out!

AC OPF approximations seminar at Princeton, News

Seminar at Princeton on Linear Approximations to the Optimal Power Flow

November 2021

On Thursday November 4th I had the immense honor to present one of my works at the department of Operations Research and Financial Engineering at Princeton University. Ronnie Sircar kindly invited me and I thank him deeply for that! The presentation was on one of my latest research studies about the linear approximations to the AC Optimal Power Flow and on a method to determine which approximations best fit across a given grid and a loading profile.

During my visit I had the opportunity to make new friends from multiple departments and I want to thank everyone at Princeton for their kindness and hospitality!

AI & ML seminar at RPI Sep. 29, News

Seminar at RPI on Power System Control with Machine Learning & Artificial Intelligence

August 2021

I want to thank Prof. Mona Mostafa Hella and Dr. Luigi Vanfretti, my friend and collaborator at the North American Synchrophasor Initiative (NASPI), for inviting me to offer a seminar at the Dept. of Electrical, Computer & Systems Engineering at the Rensselaer Polytechnic Institute on September 29th. I will review 2 of my works on generation control with machine learning (ML) and artificial intelligence (AI). I will start by discussing how to use top-down heuristically inducted binary decision trees of ML to actively control firm capacity by volatile resources operated (among others units) as a Virtual Power Plant. In the second part, I will present how voltage control can be modeled as a problem of classical mechanics physics; from there it can be solved as an AI implementation of the 2nd law of thermodynamics to redispatch active and reactive power generation. I plan to spark a discussion on conceiving new ML applications and AI models for power system operational control and monitoring.

The seminar will be virtual, but I will make myself available to all faculty, students & researchers of RPI, who would like us to talk before/after the seminar, so, please, do not hesitate to reach out!

2022 IET RPG Conference, News

11th IET International Renewable Power Generation Conference, 2022

Last Updated December 2021 (originally published August 2021)

Call for Papers (deadline Jan. 28t, 2022) – 2022 IET RPG Conference, London, UK

Initiatives, policy proposals, legislation and cheap capital have been defining the framework of a broad and accelerating shift towards cleaner infrastructure and processes in all sectors and aspects of society. The race to zero carbon emissions is on and organizations and consortia all around the world are bringing together experts, scholars, thought leaders and industry stakeholders to exchange views and inform each other about the what, how and when of new methods, new materials and new ideas. For the electricity sector, the shift to a future of generating fleets comprising almost exclusively of renewable energy sources (RES) is undoubted and brings about engineering challenges and policy hurdles.

The Institution of Engineering and Technology (IET) has one of the longest living journals about RES, titled Renewable Power Generation (RPG), first indexed in 2007. IET also holds a similarly named and themed conference. In its 11th instalment, the IET RPG conference seeks to answer the call to meet Net Zero Carbon future and invites all stakeholders to contribute with papers on how RES and the electricity sector as a whole can serve the most of their part towards this future.

The technical scope of the 11th IET RPG, 2022 includes:

  • Wind technology
  • PV systems technology
  • Grid integration, technologies, compliance and assessments
  • Other renewable energy sources
  • Battery and energy storage systems

Full details about the technical scope can be found here: https://rpg.theiet.org/author-information/technical-scope/

You may submit your one A4 page long abstracts here by January 28th 2022https://app.oxfordabstracts.com/stages/2960/submitter All accepted and presented papers will be indexed in IET Inspec, IEEE Explore Digital Library and EI Compendex.