I am ecstatic to announce that on Aug. 1st I will be joining the Dept. of Electrical Engineering within the Grove School of Engineering at the City College of New York (CCNY), as Assistant Professor. It is amazing to join an Institution with 175 years of history, founded as the first tuition-free college in the US (until 1976), and which still strives to provide wider access to higher education for all. Two units within CCNY have been named after notable alumni, who decisively redefined their course with their donations and leadership: the Colin Powell School for Civic and Global Leadership (after the first African American Sec. of State) and the Grove School of Engineering (after one of Intel’s founding members & CEO, Andrew Grove). At CCNY, I will establish the Digitalized Electric Grid Innovations, Developments & Applications Laboratory (DEgIDAL). DEgiDAL will focus on how data-sets of historical records and real-time synchronized measurements can inform renewable energy pricing, grid stability and protection, and equitable access to electricity of high power quality for all.
Undoubtedly, this immensely joyful milestone would have been impossible without the strong Electrical & Computer Engineering foundations I received at my alma mater, the National Technical University of Athens (NTUA), Greece. In the form of gratitude I will refer specifically to two exquisite people that defined my path at NTUA. Firstly, my PhD+MSc advisor, the tireless and all-round power systems scholar Prof. Nikos Hatziargyriou, taught me most of what I know and was the ‘charge’ of my academic journey across the Atlantic. Secondly, Prof. Timos Sellis, a bright beacon of databases’ expertise, was the one who infused me with the passion for artificial intelligence and machine learning through data mining.
Prof. Fran Li, the EiC of the IEEE Open Access Journal of Power & Energy (OAJPE), kindly informed me I have been awarded the Outstanding Associate Editor (AE) recognition for 2022. It is always exciting to realize you are doing your job well, let alone in a nascent publication with exciting trajectory, immense potential and a respectful and strong Open Access policy. I would have not received this recognition without the expert Reviewers that accept my invitations and contribute their thoughtful and in-depth comments on the manuscripts submitted to the IEEE OAJPE. To my dear Reviewers, thank you for putting up with me and taking on my assignments!
Another very exciting development is that I have been nominated by the IEEE Young Professionals (YP) for the position of the YP representative with voting rights at theIEEE Publication Services and Products Board (PSPB). This is a special honor and, also, acknowledgement of all my efforts to improve and enhance the quality of scientific publications, especially in my field of power and energy systems. Beyond my own personal experience, I have been lucky that many friends and colleagues who are Authors, Reviewers and Associate Editors across multiple publications have trusted me with their concerns and ideas. I plan to make the best of this opportunity and all input I have received during my 2023 term at the PSPB, aiming for positive and valuable changes.
In the context of both these updates, please, do not hesitate to contact me with your availability to review papers in the scope of your expertise and also tell me of any concerns and ideas you got for the improvement of publications. I will treat all input as confidential and I am thankful in advance for your interest!
With the Inflation Reduction Act in the US and similar incentivizing initiatives all over the world, the clean energy transition is – more or less (and hopefully!) – set on long-term and fast(er) tracks. In this context, the roles and impact of grid modernization, its digitalization and the broader space of (what we call) the “smart grid” become rather interesting. This is because the electricity sector has never – practically – suffered from lack of capital. So one may ask why would the recently introduced frameworks matter and justify expectations for significant changes?
With the support of the IEEE Smart Grid, I invited some good friends, colleagues and alumni of my courses at CMU for a panel at the 2023 IEEE North America Innovative Smart Grid Technologies (ISGT) conference. Together we will probe the new electricity sector landscape and answer some challenging questions about how the decarbonization of this space must rely on a range of solutions, including, among many others, infrastructure planning, energy security, non-wire alternatives and policy per se. I am grateful to my panelists ClareCallahan (Deloitte & CMU alumni), Doug Houseman (Burns McDonnell), Damir Novosel (Quanta Technology) and Rob Gramlich (Grid Strategies LLC, ex-FERC, ex-PJM & others) for joining me in this 1.5 hours endeavor on Tuesday, Jan. 17th at 12:30 pm ET! Special thanks go out to Hannah Morrey Brown (Burns McDonnell) & Shay Bahramirad (Quanta Technology) whom I had initially invited as panelists, but needed to kindly defer to colleagues.
But wait… There’s more!
With the support of the Climate Change AI (CCAI) Initiative we are organizing a contest for questions for our panelists. The top-5 submitters (judged by CCAI Power & Energy Community Leads) will win complementary remote live access to the panel, during which they may ask their questions themselves! We are particularly interested in receiving questions from junior researchers and young professionals. The Contest will run until January 10th 23:59 AoE. The link to the contest is here. Best of luck to all of you!
My first contribution to teaching was back in 2008 as an assistant to Prof. Korres and on the graduate-level subject on machine learning (ML) applications within power system control centers. The subject was more of a review on research ideas and publications exploring if and how ML could be useful in real-time operation of electrical grids, as also the planning of their infrastructure. As a junior PhD student under Prof. Hatziargyriou at that time I was just then dipping my toes in the vast sea of research on artificial intelligence (AI) in power systems. Helping teach that course offered some valuable insights.
In those years, ML and AI were very appealing in the mainstream engineering education and research (buildings, components, power systems, circuits, etc), but were themselves going through some introspection within the computer science community. There are several articles pointing out to the relative plateauing of R&D on AI & ML in the later 2005-10 period, followed by exponential growth afterwards. Nevertheless, more traditional engineering fields were warming up to their “digitalization” and reinventing themselves as smart: smart grids, smart buildings, smart materials and so on. Even though this latter push was strong within research circles and several professional initiatives started popping up, in practice, AI & ML applications were taking baby-steps. The tide changed after bold start-ups adopted their value en masse in the mid 2010s.
Looking back to the period of 2005-10 through the lens of the technology shifts of the later years, made me realize something ‘big’ about higher education teaching. We do not teach to only educate or provide necessary skill-sets; we teach to seed a vision. And I am very cautious with my words here. I do not proclaim that university teaching must be ‘persistently’ forward-thinking. I do not imply that the fundamentals should be in any way glossed over. I do not believe that there is such a thing as either redundant or rudimentary knowledge. What I am saying though is that higher-ed teachers have a unique challenge: we must read the tea leaves or crystal balls of our “craft” and prepare students of what is to come, even though no one else might be seeing this yet.
Think about the example of the course I mentioned earlier and the ‘smartening up’ of many economy sectors. The actual computer science field was kind of taking a breather on AI and ML at that time, yet all other engineering fields were bracing confidently about a tech boom relying exactly on AI and ML! If we seek to dissect this paradox a bit, we will see that there were – actually – no tea leaves or crystal balls necessary. Computers and mobile devices were becoming widely available and used a ton by consumers, practically giving educators the low-hanging fruit of inspiration about advanced computing tools.
Fast forward to 2018, when I developed, proposed to CMU and started teaching a course, then titled, “Optimization Modeling in Power Systems”. I was reading my “crystal ball” and realizing that the ever present discussion about the failing and ageing grids (first pointed out in the 1990s) was actually spilling dangerously into reality. Add another 3-4 years to that and here we are in 2021 and 2022 witnessing the passing of multi-billion dollar bills that will expand the US electrical grid, several start-ups monetize efficiency for end-customers globally, while China has already taken strides ahead in its high-voltage transmission system backbone. Optimizing all electrical grid operations and planning, which used to be the expertise of engineers with PhDs, is now expected by the MSc graduates of energy engineering programs. My personal story here is that in 2018 and the next couple of years, the “Optimization Modeling in Power Systems” course was attended by barely 5 students – mostly in their PhDs; now I teach a roster of 16 students – more than half of whom are MSc students.
What I mean to point out with the above story is that power and energy engineering education is not straight-forward, since it links to multiple other subjects and fields. I am sad to attest to statements of scholars I admire saying that “power engineering is not science”. And yet here we are, following a “hunker down pandemic” (which should have reduced energy demand) and a 6-month localized war (which should have not hurt international energy security), which are crippling multiple economies by threatening electricity markets everywhere. Even more ironically, most of these electricity markets could have already had energy independence, had they built out their grids and/or made them much more efficient. Put simply, energy and power educators have to look deep and wide in their research and expertise, and aspire to new subjects and angles (decentralized? autonomous? self-sufficient? resilient?). The energy and power work force is crumbling, several places around the world are still not electrified consistently (let alone have energy security), and energy dependencies are heavy and stretch the globe.
I conclude this blog with a final thought. The energy sector comprises entities and processes that are complex, large and slow to adapt, while the challenges they are faced with and the tools to address them are fast and with much impact. This means that the teaching aspirations of power and energy engineering faculty must be also realistic and delivered with confidence and persistence. As instructors in this field, we must develop the necessary intuition and retain adequate humility in keeping our ear to the ground for the right signs of change. And this last thing is not easy; personally, I have acquired these “skills” with years of practicing engineering and humbling disappointment across several projects I have worked on. Others before and around me are trying through broad involvement in committees, initiatives and working groups. Whatever the way, educating the next generations of power and energy engineers is an urgent duty hanging already over our heads, especially, if we wish to be honest to our vision for the clean energy transition.
I am kindly inviting you all to submit your works to the Special Issue on “Novel Protection and Control Methodologies towards Electrical Grids with Net-Zero Carbon Emissions” at the International Journal of Electrical Power and Energy Systems of the Elsevier publications. Here is the link to the call for papers. You may submit your novel contributions (full manuscripts) starting July 1st and by 30 Sep, 2022, on any of the following subjects:
Online/real-time monitoring and situational awareness solutions (detection and location of system oscillation, fault level monitoring and quantification, inertia measurement, etc.),
Analyzing and characterizing fault behavior and the novel protection strategies and solutions,
Converter control-based solutions to support protection operation,
Electrical grid design and assessment for robust point of common coupling impedance behavior,
New coordinating control solutions,
Methods for assessment of resilience,
New protection and control solutions during extreme weather/operating conditions and
New ICT technologies for protection.
I am grateful to my friend Dr. Qiteng Hong (University of Strathclyde, Glasgow), as also, Dr. Botong Li (Tianjin University), who are the Guest EiCs of this special issue and kindly invited me to serve with them on the editorial board. You may contact me for any additional details for works you would like to submit.
NASPI was founded in 2003 as the Eastern Interconnection Phasor Project, it is funded by the US Dept. of Energy, and is supported by the Pacific Northwest National Laboratory (PNNL) and the Electric Power Research Institute (EPRI). It is the largest collaboration of academics, industry practitioners and standardizing bodies for the development, use, understanding and promotion of methods and technologies based on synchronized measurements of voltage and current waveforms in power systems. These measurements with granularity of at least 30 per second and which are time synchronized via satellite across large grids, allow us to better analyze and control the stability and the security of the electrical grid.
Within the framework of DisTT, synchronized measurements enable the detection of faults, increase of hosting capacity of renewables, monitoring equipment health and others functions. At the current stage, DisTT focuses on the medium voltage beyond the substation.
This great opportunity and responsibility could not have been possible without the mentorship, support and inspiration that Sascha von Meier from UC Berkeley has gracefully offered me. I take over her role in leading DisTT in the hopes I can achieve half of what she did! Also, many thanks to Jeff Dagle (PNNL and chair of NASPI) for welcoming me on board.
I am thrilled to announce that the Editors in Chief of the IET Renewable Power Generation (RPG) journal, Prof. Infield and Prof. Tricoli, have invited me to serve as the inaugural Special Issues Editor for this publication. I assume this role immediately and further to those of the Regional Editor for North America and Associate Editor on the subject of Hybrid Renewable Energy Systems for the same Open Access (OA) journal. It is particularly indicative of the Institute’s priorities that this is only the second IET publication in the field of energy and electrical power systems that is assigned with a Special Issues Editor.
Since the decarbonization of the energy sector is an aim long-overdue and particularly complicated, it requires the mobilization of several stakeholders in the academia, the industry and among the decision and policy makers. The role and the positioning of the IET RPG in this discussion is central in bringing stakeholders together as authors, reviewers and adopters of publications disseminating how renewable energy at the microscopic and macroscopic levels can fulfill the clean energy transition.
In my role as Special Issues Editor, I will be soliciting, organizing, overseeing, editing and managing thematic calls for papers at the intersection as also the periphery of IET RPG topics, supporting their Guest Editors and attracting prospective Authors. For those of you who know me, understand that my involvement will be hands-on, the Special Issues will be appropriately curated, and that the Guest Editors will have the full support of the RPG journal staff and the IET organization. I urge you to contact me with ideas and proposals, even though I will also be reaching out to many of you.
As I have stated previously, OA to the concepts and results of academic and industrial R&D is the corner-stone of promoting and disseminating crucial ideas and important scientific results in the times of urgent calls to action. In my view, the OA publications by the IEEE and the IET have been serving this mission with respect to the Authors and their work at the highest level of quality and with a dedicated pursuit for academic excellence. I am very proud to serve publications for both the IEEE and the IET!