Hydrogen
Reliable production from different feedstocks in the most cost-efficient way
Hydrogen is an essential element in a broad range of industries, such as chemical, refining, and steel. As a result, the cost-efficient and stable production of high purity hydrogen are vital to the profitability of many businesses. Topsoe processes produce hydrogen from natural gas as well as a wide range of alternative feedstocks including coal, LPG, heavy naphtha, waste, and other biomaterials. Our solutions can be tailor-made to allow feedstock flexibility and are optimized to ensure the most reliable production of the highest purity hydrogen, using the least amount of energy and other resources.
Cost-efficient solutions
- We have developed an integrated hydrogen process H2bridgeTM, specifically tailored for the renewables hydrocarbon feedstocks market.
- For small to medium size capacity hydrogen plants we offer our highly efficient HTCR convection reforming technology, which is cost-competitive due to its modular design.
- For medium to large size capacity plants, we offer our high-efficiency steam methane reforming process. This process can be combined with our Heat Exchange reforming process to either increase its maximum size or optimize steam export.
- For larger-scale capacity plants, we offer our SynCORTM hydrogen process that is based on autothermal reforming, and which is especially suitable for very large capacities and high carbon capture requirements.
Blue hydrogen is produced from hydrocarbon sources, such as natural gas, and combined with carbon capture technology. The captured carbon is then stored or utilized for industrial applications. Such carbon capture, storage, and utilization (CCSU) drastically reduces CO2 emissions and leads to a positive climate impact.
In hydrogen production processes, CO2 is created both as a by-product of the reforming process (pre-combustion) and as a by-product of fuel firing (post-combustion).
For both pre-combustion and post-combustion CO2 recovery technologies, we have well-established collaboration with reputed suppliers, and these units are integrated into the hydrogen plant design in the most optimal way to ensure a reliable and cost-effective operation of the plant.
Hydrogen production with carbon capture - blue hydrogen
Green hydrogen produced by electrolysis
Green hydrogen is being produced by electrolysis, which is a process that uses electricity to split water molecules (H2O) into hydrogen (H2) and oxygen (O2). When electrolysis is combined with renewable electricity, the production of fuels and chemicals can be decoupled from fossil resources, paving the way for an energy system based on 100% renewable energy.
Topsoe offers Solid Oxide Electrolysis Cell (SOEC) technology which is attractive because of unrivaled conversion efficiencies – a result of favorable thermodynamics and kinetics at higher operating temperatures. Our high-temperature SOEC – solid oxide electrolyzer cell – delivers up to 30% more green hydrogen from the same amount of renewable electricity, compared to standard technologies like PEM and alkaline electrolysis.
Green hydrogen produced by SOEC can be processed further into eMethanol, green ammonia, and a host of other green chemicals and fuels.
Some plants need to produce very small quantities of methanol. To meet this need, we have developed a solution for capacities from 1,000 MTPD down to as low as 100 MTPD.
Our small-scale offering is a fully modular plant which is a one-step process using our compact HTCR convection reformer instead of a traditional tubular reformer.
Topsoe’s small-scale methanol technologies offer a range of benefits, including:
- Capacities down to 100 MTPD
- Modularized design that shortens the time from decision to first production
- Modularized design for truck transportation enabling remote site operation
- Robustness process
- Meet on-demand requirements
Small scale
Adam Samir Kadhim
Contact our our expert for more information about Topsoe.
SUBMIT REQUESTRelated Downloads
The best of blue hydrogen technologies - article in HCE Aug 2021
Article in Hydrocarbon Engineering Nov 2020
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