The Mythical Magic Hydrogen Economy
There’s a little bit of truth to every myth, and the hydrogen economy is no different. Hydrogen fuel cells would be wonderful for the environment. They combine hydrogen with oxygen from the atmosphere to produce electricity, and they emit pure water. The hydrogen can be made by electrolysis of water, and the energy for the electrolysis can be provided by renewable energy such as solar and wind. Though hydrogen must be stored at high pressures or low temperatures, it can be transported and used to replace fossil fuels in most of their applications. Then why are the fossil fuel companies so eager to transition to a hydrogen economy? They now are applying for grants from stimulus money for research on hydrogen power. There must be more to the story and that is where magic comes in.
It would take a tremendous amount of magic to make hydrogen a viable source of energy within 30 years. Currently, 95% of commercial hydrogen is made from fossil fuels, primarily methane. Producing hydrogen from methane is energy intensive. It requires that methane be reacted with steam-heated to about 1100°C. That reaction produces hydrogen and carbon monoxide – which is then treated with additional steam at 380°C to convert the carbon monoxide to carbon dioxide. Not only is carbon dioxide produced as a byproduct, but it takes a tremendous amount of fossil fuel to heat the steam hot enough to carry out the reaction. Hydrogen produced in this way is called Brown hydrogen, because of all the fossil fuels used. You’re probably beginning to see why fossil fuel companies are so eager to transition to a hydrogen economy.
But wait. All we would need to do is capture the carbon dioxide produced in making Brown hydrogen and store it underground. Hydrogen could then be produced without adding more CO2 to the atmosphere, so it is called Blue hydrogen. Fossil fuel companies are now pursuing grants and subsidies to develop Carbon Capture and Storage Systems (CSS) to do just that. But there are a few problems. Fossil fuel companies knew as far back as 1979 (see memo below) that adding more CO2 to the atmosphere would cause global warming and damage the environment. A CSS system requires little new technology, so why did they not develop CSS then – and global warming would never have become a problem. Fossil fuel companies did not do it because it would have made their products more expensive, and demand would have gone down. And they are even less serious about developing CSS systems now. With prices dropping on renewable technologies and energy storage systems, CSS would make carbon or hydrogen fuels so expensive that it would accelerate the transmission to renewable energy and battery storage.
Though there are currently large supplies of methane available from fracking operations, using fracked methane to produce hydrogen just isn’t a good idea. The main problems associated with fracking are methane leaks and earthquakes (caused by the disposal of fracking fluids). It has been estimated that about 20% of the methane produced at the wellhead is lost through transmission losses and leaks. Because so much methane is lost during production, France has recently prohibited American fracked methane from being sold there. Though the amount of methane in the atmosphere is small, methane is 72 times more potent as a greenhouse gas than carbon dioxide. As the graph below shows, the methane concentration in the atmosphere has grown exponentially – and it now accounts for about 1/4 as much global warming as carbon dioxide.
That brings us to hydrogen produced by electrolysis, called Green hydrogen. To create the infrastructure to produce enough Green hydrogen to transition to a hydrogen economy would take more than 30 years. To get there, we would have to start now. That would require Black and Brown hydrogen to be used while we develop a CSS system, and then Blue hydrogen could be used until we have a fully operational Green hydrogen infrastructure. We would be dependent on fossil fuels for at least 30 more years, and the concentration of carbon dioxide in the atmosphere would certainly go up. The best carbon capture systems are trees, oceans, and soils (through regenerative agriculture). Currently, those systems have not been able to keep up. Deforestation, commercial farming, and the acidification of the oceans are exhausting those systems’ abilities to capture CO2. The environment of the Earth cannot absorb much more carbon dioxide, and we certainly can’t wait 30 years on the chance that a commercial scale CSS system will be developed.
Hydrogen is very useful for things such as welding, food processing, ammonia production, and rocket fuel – but it will never be useful to power our economy. That is because a hydrogen economy would be terribly energy inefficient. If you were to use electricity from wind to produce hydrogen, transport the hydrogen to where it is needed, and use hydrogen fuel cells to power your car, about two-thirds of the energy would be lost in the process. The electrical energy that would take you 300 miles in a battery-powered car, would only take you 100 miles in a hydrogen-powered car. There is also no infrastructure in place to conveniently transport large volumes of hydrogen. Natural gas pipelines could not be used, as hydrogen reacts with metals and makes them brittle. I contrast, transmission lines for electricity are already in place and, if upgraded to handle the larger load, they could deliver power directly to your home and your car – and do it three times more efficiently.
Finally, hydrogen is explosive. If you have ever seen a hydrogen filled balloon exploded, you are probably aware of the tremendous power of a hydrogen explosion. Hydrogen explosions are rare, but are bound to happen if hydrogen were in wide use. A hydrogen explosion occurred in an AT&T Uninterruptible Power Source battery room in 2020. The explosion blew a 400 square foot hole in the roof and collapsed walls and ceilings throughout a large portion of the 50,000 square foot building. Fortunately, the computer/data center was vacant at the time and there were no injuries.
All things considered, unless you own a fossil fuel company or believe in magic, trying to convert to a hydrogen economy is a really bad idea.
© 2021 – J. C. Moore. All rights reserved.
Tags: Carbon Capture and Storage, carbon dioxide, CSS, Fuel Cells, Green Hydrogen, Hydrogen Economy, Methane, Pathways to Hydrogen
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