Distributed Production
Distributed hydrogen production refers to hydrogen produced in small quantities close to the point of use. This approach enables hydrogen generation and delivery when and where it is needed.
Distributed production is in contrast to the traditional centralized producer models where only the largest buyers onsite such as petroleum refineries, have access to hydrogen generated onsite. Distributed hydrogen production ensures that small-scale hydrogen consumers can take advantage of fuel and its benefits without new infrastructure.
At the heart of MSWH2’s processes is a pyrolysis process that changes waste feedstock into hydrogen and other products in an environmentally-friendly way. Therefore, there are no emissions—just clean hydrogen and fuels as output. To do this, the company uses a process that requires high temperatures and precise control to maintain efficiency and cost-effectiveness.
MSWH2 facilities will represent a way to create those fuels cleanly, and in just the right amounts needed instead of relying on the transportation of fuels. We can also make sustainable diesel, methanol, ammonia and jet fuels. So, we can go into a lot of different pathways depending on market demand. Our fuel plants can be built regionally, with products sent just a short way to fuel stations where they would be needed.
Specifically, MSWH2’s technology decarbonizes renewable municipal solid waste into clean hydrogen at the point of use. We are creating a distributed hydrogen solution that avoids any need to build up new hydrogen infrastructure.
However, hydrogen has a distinct advantage over wind or solar power in terms of storage. It can be safely stored for prolonged periods, without substantial energy loss, enhancing energy security. Hydrogen can also act as an energy depot, converting renewable waste into hydrogen, which can be used as and when required.
Absolute Pyrolysis Technology is an innovative and eco-friendly process, and is significant advancement using waste material for energy production. Our method is a shinning example of sustainability, offering two benefits: it lowers landfill waste while creating valuable hydrogen and other clean fuel products. Unlike other processes that have high carbon footprints, APT stands out for its potential in efficient carbon sequestration. It’s a giant step towards a zero-carbon future, turning waste into an environmentally beneficial use.
<$1/kg H2
Our Cost
$5-6/kg H2
Electrolysis Cost
APT produces hydrogen and syngas using low-cost feedstocks, significantly lowering CapEx and OpEx compared to any competing processes.
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