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The world’s publicly listed utilities employed 3.7 million people, had a third of a trillion dollars in capital expenditures, and brought in $2.2 trillion in revenue in 2017. Power supply is an enormous industry. It’s also an industry that would still be recognisable to utility executives from a century ago. Delivery of electricity, natural gas and water will remain part of the future — but what changes will that future entail for utility companies themselves?
It involves a lot more talking about “the utility of the futureâ€: Part of that is a focus on technological, economic and even demographic changes as the industry’s workforce ages. Part of it, too, though, is probably marketing: In 2016, MIT released a 382-page (and heavily utility-sponsored) study called “Utility of the Future: An MIT Energy Initiative Response to an Industry in Transition.†It’s insightful; “utility of the future†is also the sort of catchy phrase that finds its way into company literature.
As the MIT study notes,
A range of more distributed technologies – including flexible demand, distributed generation, energy storage, and advanced power electronics and control devices – is creating new options for the provision and consumption of electricity services. In many cases, these novel resources are enabled by increasingly affordable and ubiquitous information and communication technologies and by the growing digitalisation of power systems.
I’m not certain that the most innovative work being done is central to the existing utility business model. For some of the most innovative work currently underway, there might not be a clear role for utility companies themselves, now or in future.
Google’s data center energy optimisation is a perfect example. Google has been optimising data center hardware — both its servers and its cooling and lighting systems — for years. After some refinements, the eventual attentions of Google’s DeepMind machine learning team, and more “robust and general working models,†Google achieved some extraordinary results: Implementing the models at the company’s facilities led to a 40 percent reduction in cooling energy load and a 15 percent reduction in overall energy overhead. Google’s data center intelligence team believes that it has only just “scr-atched the surface†of machine learning’s general app- lications to their work. It’s an impressive bit of energy optimisation with economy-wide implications, all wit- hout the help of utilities.
A decade ago almost no utilities mentioned electric vehicles; this year alone, more than 300 have. Charging infrastructure is an obvious play for utilities; the 582,000 public charging outlets installed worldwide as of the end of last year are a fraction of what will be needed to support a fast-growing EV fleet. That infrastructure needs capital, exp- erience, real estate, and policy and regulatory finesse. Utilities have all of these.
Utilities have competition in charging industry, and increasingly that competition comes from big oil. Last year, Royal Dutch Shell purchased NewMotion, a large European charging provider. Last month, BP bought Chargemaster, the operator of the largest charging network in the UK Power suppliers, long a regulated monopoly, know they face a challenge.
— Bloomberg
Nathaniel Bullard is an energy analyst, covering technology and business model innovation and system-wide resource transitions