Hydrogen is undoubtedly becoming the big agenda ticket within any Energy Transition. It is the promise of being a central pillar for many parts of the world to achieve their decarbonization targets to get as close as they can to zero carbon by mid-century.
Hydrogen seems to hold, it seems, such a promise, but it is nearly all to do. There is so much to validate, prove, and certainly scale. We have some exciting pilots, even some emerging commercial-scale projects.
Still, these pilots or pockets of limited commercialization are not connected up or integrated into a Hydrogen Economy. So far we are not able to scale sufficiently to generate that same unstoppable momentum that Wind and Solar as sustainable renewables are achieving, in dislodging fossil fuels.
Today we do not yet have a Hydrogen infrastructure, market and price competitiveness, or overarching policies to build into a movement that shifts the energy needle.
To mobilize our innovation capabilities and capacities for the energy system, they do have a compelling need to be purposefully marshalled for the future energy demands and the carbon-free world that is being demanded, and supportive of the commitments within the Paris climate accord.
We need to pursue, nurture, and see beyond as our three points of delivering change within the Energy transition. The combination of all three gives us the potential to navigate the energy transition we need. This energy system needs to move from today’s reliance of fossil fuels and antiquated infrastructure into one based on clean, sustainable and renewable energy sources, delivered through a highly distributed infrastructure, designed for the final consumer of the energy. Continue reading “How can we mobilize innovation capability for the energy transition?”
Is deep decarbonization possible? The level of investments will be substantial and require enormous changes to the energy system we have in place today.
Taking a higher-level of decarbonization, I have summarized the critical aspects we need to consider when we discuss this area. I have put them in blocks of bullet points here in this opening decarbonization post. I am planning to delve into each of these in later posts. Continue reading “Themes for Decarbonizing, My Agenda Setting Post”
The significant shifts we are undergoing in the energy transitions today are allowing real innovation opportunities when you survey the innovation landscape. The challenge is spotting and seizing these opportunities.
There is a clear realization that there is significant complexity in all the energy transitions going on. Still, it is the researchers, engineers, and entrepreneurs that can see the possibilities and ‘energize’ the innovative solutions are the ones that hold the future in their hands.
If innovation is given its appropriate place within the energy transition, the pace of innovation and energy transition will scale up and accelerate to meet the needs of a world rapidly wanting to decarbonize. The world is demanding a change in our energy supplies and rapid decarbonization.
There are an awful lot of different Electrolyzers already in the market. The different parts of the industry will need to come together and establish some standards and common definitions and measurements to allow the focus to return to technology, resolving the basics of the Electrolyzer and bring it into a robust Industrial solution on a higher level of automation and scale.
I have referred to several technical documents offered by the Hydrogen Council, the Hydrogen Europe, and specifically, a white paper by Dr. Philipp Lettenmeir of Siemens called “Efficiency- Electrolysis,” written in January 2019.
At their own admission, it has been three years since they (IEA) released its last Energy Technology Perspective (ETP) report. Although they argue they have been reflecting on the critical technology challenges, it is way overdue.
IEA will further follow up later this year with a flagship ETP 2020 publication later in the year to keep a tighter and more consistent focus on the role and need of innovation to accelerate clean energy transitions.
In recent months I have become totally “wrapped up” in the energy transition occurring across the world. The whole transformation we are undertaking is not just for our energy sake; it is for more for our climate sake and having a sustainable future.
Energy is one of the critical drivers of our well-being, providing one of the essentials to survive and thrive. We need water, food, air, shelter, and sleep, and our source of energy underpins all of these as the energy transition in its solutions are aimed at cleaning up our climate and environment before it is too late and give us more energy to power the next growth cycle.
In recent weeks I have been thinking about our business environment differently. The past few months have forced the majority of us to work in different ways. We have become in a very short time “remote workers.” in necessity and need.
Yet for many “newbies” in remote working, who have been working from home in these last few months, are now facing the decision of when and if they can return to their old normal of their office. It is a difficult decision and one that needs careful consideration and clarification of “how safe is this and what will have changed in my old working environment?”
Going back to the business office is undergoing such a radical shift due to the pandemic and all of what it has forced us to do; social distancing, being in lockdown, minimizing physical contact. The environment we work in is not simply a physical one, it has become a psychological one to manage as well.
The Hydrogen transition story is still in its early days of becoming a sustainable part of the solutions we need to decarbonize the planet.
Although the use of Hydrogen has been around for years, it is the potential to replace other energy sources at an industrial scale that is exciting. The execution of Hydrogen solutions is a real imperative for this decade to validate and demonstrate.
We need Hydrogen solutions across so many industrial applications as well as a significant contributor to reducing heat in buildings or powering up our vehicles.
What I can see in the Hydrogen story is all technically feasible, but I am having several concerns on the pathway to delivery.