Delivering market-leading blue hydrogen production
Delivering
market-leading blue hydrogen production
Hydrogen is a key to reducing
global emissions, and to satisfy
the rising demand, immediate
and scalable solutions are necessary.
Advanced blue hydrogen technologies are crucial for industrial-scale production, ensuring efficiency and profitability with
a low levelised cost of hydrogen
LCOH). The industry must adopt these blue hydrogen methods
to decarbonise swiftly and
meet government regulations.
JM offers proven solutions for hydrogen production that are
ready for today's market and
capable of large-scale deployment. This approach enables producers
to navigate the evolving market
and meet future demands effectively.
Hydrogen is key to reducing global emissions,
and to satisfy the rising demand, immediate
and scalable solutions are necessary.
Advanced blue hydrogen technologies are crucial for industrial-scale production, ensuring efficiency and profitability with a low levelised cost of hydrogen (LCOH). The industry must adopt these blue hydrogen methods
to decarbonise swiftly and meet government regulations.
JM offers proven solutions for hydrogen production that
are ready for today's market and capable of large-scale deployment. This approach enables producers to navigate the evolving market and meet future demands effectively.
Choose JM’s LCH technology for the highest process efficiency and lowest levelised cost of hydrogen available. Capturing up to 99% of carbon dioxide produced, our unrivalled blue hydrogen production process also delivers
the lowest carbon intensity commercially available today.
During project delivery you will be supported by JM's experts who have the best understanding of hydrogen technologies and integration. This is based on decades of experience
in the sector. Our track record in syngas process design, licensing, operation and catalysis, ensures profitablity
and reliability for your blue hydrogen production.
Discover the future
of blue hydrogen production
JM is proud to be leading the journey towards economically viable low carbon hydrogen. Our LCH technology delivers market leading blue hydrogen production, suitable for a wide range of applications. Learn more about the advantages provided by our technology below:
JM’s recently announced* low carbon projects
SAF
LCH
CCM
Methanol
Ammonia cracking
CCM production facility within the Jiading District, Shanghai, China
SAF: Sustainable Aviation Fuel
LCH™: JM's technology to produce low carbon hydrogen
CCM: Catalyst Coated Membrane
for proton exchange membrane fuel cells & electrolysers
*JM is also involved in numerous projects not in the public domain.
Learn About The LCH Process For Blue Hydrogen
Benefits of LCH
technology for blue hydrogen production
0
Capturing up to
carbon dioxide produced
Bio-Methanol:
Bell Bay Tasmania [Abel Energy w/ Sungas Renewables], Australia
NH₃ cracking:
w/ Doosan Enerbility
Joint development of integrated NH₃ cracking, South Korea
e-Methanol:
Haru Oni project, Chile
[HIF w/ Siemens Energy]
Sustainable Methanol:
Project Air, Sweden
[Perstorp Group]
LCH technology to ammonia
LCH technology to power
Levelised cost
of hydrogen
JM’s LCH technology offers
the lowest levelised cost
of hydrogen commercially available today.
Low carbon hydrogen
is essential to decarbonising the
energy grid and other
hard-to-abate sectors.
JM's LCH technology de-risks the transition to low carbon ammonia production with proven unit operations.
LCH technology to refining
Low carbon hydrogen plays a key role to decarbonise refining
and clean fuels for petrochemicals.
LCH
SAF
CCM
Methanol
Ammonia cracking
Click on the tabs to see all locations
Blue hydrogen:
H2Teesside, UK [bp]
Blue hydrogen:
HyNet, UK
[Vertex and Essar]
Blue hydrogen:
H2H Saltend, [Equinor & Linde], UK
Blue hydrogen:
Kellas Midstream, H2Northeast, UK
SAF:
EDL, Germany
SAF:
Repsol/ Aramco, Spain
SAF¹:
Fulcrum Sierra, Nevada
SAF:
HIF Global
SAF:
Strategic Biofuels, Louisiana
CCM production facility in USA [co-investment with Plug Power]
CCM³ production facility in Royston, UK
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Low carbon hydrogen news
bp selects Johnson Matthey’s LCH™ technology for its first low carbon (blue) hydrogen project
Read article
Read article
Kellas Midstream enters FEED for its H2NorthEast hydrogen project on Teesside
Read article
Hydrogen’s starring role: realistic applications will take centre stage
in the future
Read article
Johnson Matthey chosen for H2H Saltend low-carbon hydrogen project
Read article
Johnson Matthey and Honeywell partner to advance lower carbon hydrogen solutions
Choose LCH™
technology for blue hydrogen production
Choose JM’s LCH technology for the highest process efficiency and lowest levelised cost of hydrogen available. Capturing up to 99%
of carbon dioxide produced,
our unrivalled blue hydrogen production process also delivers
the lowest carbon intensity commercially available today.
During project delivery you will
be supported by JM's experts who have the best understanding
of hydrogen technologies and integration. This is based on decades of experience in the sector. Our track record in syngas process design, licensing, operation and catalysis, ensures profitablity
and reliability for your blue hydrogen production.
JM’s LCH technology offers an autothermal reformer (ATR)
or ATR coupled with a gas-heated reformer (GHR) to deliver superior efficiency and cost-effectiveness in blue hydrogen production at scale.
Explore Higher
Carbon Capture Rates
Compared to conventional steam methane reforming (SMR), ATR provides: higher carbon capture rates, lower carbon intensity and lower feedstock requirement. These combined benefits reduce CAPEX and make ATR an environmentally and economically better choice.
Secure your future
with proven, world-class reforming solutions
Hydrogen
Chemical
or Fuel Grade
Up to 99% capture
Natural gas / RFG
Purification
Reforming
Water/gas shift
CO removal
2
O
2
CO
2
Johnson Matthey’s reforming technologies
ATR flowsheet
GHR coupled ATR flowsheet
The ideal solution to
Produce low carbon hydrogen, ammonia and methanol when
high-pressure steam is valuable
•
Value added
Combines exothermic oxidation
and endothermic steam reforming
•
>1000°C outlet temperature
drives crucial final 10%
of required methane conversion, maximising first-pass efficiency
•
The ideal solution to
Produce low carbon hydrogen, ammonia and methanol
with the lowest carbon intensity
•
Value added
Offers the highest efficiency, highest carbon capture rate (up to 99%)
with lowest carbon intensity
and natural gas consumption
•
Best commercially available
technology compared to the competitive landscape
•
1/2
2/2
Explore Higher
Carbon Capture Rates
See SAF in Europe
See SAF in USA
See CCM in Europe
See CCM in USA
See CCM in Asia
See Methanol in Europe
See Methanol in Australia
See Methanol
in South America
SAF:
Strategic Biofuels, Louisiana
Read more
SAF
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SAF:
EDL, Germany
Read more
SAF¹:
Fulcrum Sierra, Nevada
Read more
SAF:
HIF Global
SAF:
DG Fuels, Louisiana
Read more
SAF:
Strategic Biofuels, Louisiana
Read more
SAF:
Repsol/ Aramco, Spain
Read more
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Calculate Your Levelised Cost Of Hydrogen
Calculate your levelised cost of hydrogen