New method could potentially produce hydrogen from biogas for $2/kg
“We produce biogas and biochar from biogenic feedstocks and the resulting biogas contains hydrogen, carbon monoxide, methane and carbon dioxide,” Kore's executive vice president of business development, Steve Wirtel, said. “The carbon monoxide can also be converted into more hydrogen, and we can use that for hydrogen applications.”
California is a prime location for biomass conversion as the primary feedstock is plentiful. Kore has partnered with Southern California Gas to develop a commercial-scale demonstration facility in Los Angeles.
“We expect that, as we start to commercialise our technology, the strategic companies that are looking to develop hydrogen, especially carbon-negative renewable hydrogen, will be interested in partnering with our company and potentially acquiring us at some point,” said Wirtel.
Wirtel said the state could offer more than 40 million tonnes of biomass per year.
“Apart from urban woody biomass and nearby agricultural residuals, California has a new initiative to thin out forests to reduce wildfire risks,” he said, noting that the state also offers favourable policies.
In the future, economies of scale and falling technology costs should favour similar locations. They will likely be the first ones to see plummeting hydrogen costs.
“The US Department of Energy has a goal of $1/kg of hydrogen by 2030. So, everyone is aiming towards that. And we think that is feasible,” said Wirtel, noting that the process is carbon negative. “With the Kore process, half of the carbon in the feedstock is converted into the gas, and the other half is converted into solid elemental carbon char. This solid carbon won't revert to carbon dioxide or methane. When used as a soil amendment, the carbon is permanently removed from the atmosphere. Hence the hydrogen produced is carbon negative. In other words, carbon is removed from the atmosphere.”
Paul Martin, one of the founders of the Hydrogen Science Coalition, said that biogas should be prioritised as the conversion from biogas to hydrogen is energy intensive.
“The reason hydrogen is expensive at vehicle refuelling stations is that vehicle refuelling stations themselves are very complex. Hydrogen heats up when you expand it, so you need not just high-pressure storage tanks and compressors, you need a massive mechanical refrigeration unit to pre-cool the hydrogen, so it doesn't cook the vehicle's tanks,” he said.
Gasification technologies – biomass-to-hydrogen, but also plastic waste-to-hydrogen – are nothing new. But the current geopolitical situation, waste concerns and energy issues are now putting the spotlight on new applications.