Bio-hydrogen from waste
"Membrane reactors to maximize CO conversion and hydrogen production"
The Water-Gas Shift (WGS) process is a well-established method for producing H₂ and CO₂ from CO-rich syngas streams. It is commonly incorporated to organic waste hydrogen production process from biogas or biomethane following steam methane reforming. In recent years, it has also been applied after pyrolysis and thermal gasification for hydrogen production processes. In all these scenarios, an additional WGS step is crucial to increase the bio-hydrogen from waste yield and separate it in a high-purity form.
H2SITE’s membrane reactor technology enables high-purity hydrogen reaction and separation in one step, reducing footprint and boosting efficiency through over 98% CO conversion. This maximizes bio-hydrogen extraction and produces high-pressure CO₂-rich streams, enhancing carbon capture potential.
Bio-hydrogen from waste
H2SITE’s technology makes organic waste to h2, it means extracts high-purity hydrogen from biogas or biomass-derived syngas in one step, bypassing additional separation in waste to energy process and maximizing CO conversion and bio-hydrogen recovery.
Onboard WGS and separator
Tailored for the maritime industry, H2SITE’s onboard systems can reconvert methanol in WGS reactors to supply high-purity hydrogen for fuel cells, powering main or auxiliary units efficiently.
Industrial WGS
H2SITE’s WGS membrane reactors transform organic waste to h2, producing hydrogen from natural gas with high CO2 partial pressure, optimizing CCSU performance and offering cost-effective low-carbon bio-hydrogen from waste.
WGS membrane reactors are the optimal choice for extracting high-purity bio-hydrogen from syngas streams, maximizing hydrogen yield and consequently lowering its energy production cost.
Shall we talk?
If you want to contact us, please fill in the form and we will get back to you as soon as possible.
Other solutions