New Energies
As the world seeks to address the impacts of climate change, new energies are playing a crucial role in meeting the growing demand for energy while minimizing environmental harm.
Developing and deploying cutting-edge technologies that harness renewable energy sources, promoting energy efficiency.
Green Hydrogen and Green Ammonia
Green Hydrogen and Green Ammonia produced using renewable energy sources like wind and solar power, has emerged as a promising alternative to conventional production methods signifying a pivotal shift towards a decarbonized future.
Green Hydrogen
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Wind, solar or hydropower renewable energy power provides electricity to generate hydrogen.
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Water electrolysis is used to split water molecules (H2O) into hydrogen (H2) and oxygen (O2).
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H2 produced undergoes purification to remove impurities, meeting high purity standards.
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H2 is utilised for different purposes: industrial processes, power generation, transportation.
Green Ammonia
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Green Hydrogen Process
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Purified H2 is combined with nitrogen (from the air) in the Haber-Bosch process to produce ammonia (NH3).
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Green NH3 is used as fertilizer in agriculture, a chemical feedstock, or fuel for marine shipping.
Blue Hydrogen and Blue Ammonia
Eliminating carbon emissions during Hydrogen and Ammonia production through carbon capture technology (CCS) mitigates environmental impact and promotes sustainability.
Blue Hydrogen
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Blue H2 production through steam methane reforming (SMR).
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Carbon dioxide (CO2) produced as a byproduct is captured and stored in a geological site (eg underwater/underground).
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H2 produced undergoes purification to remove impurities to meet high purity standards.
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Blue H2 is used for industrial processes, power generation, transportation.
Blue Ammonia
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Hydrogen (H2) is produced from natural gas or other fossil fuels.
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Carbon dioxide is produced as a byproduct and is captured and stored either underwater or underground.
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Produced H2 is combined with nitrogen (from the air) in the Haber-Bosch process to produce blue ammonia (NH3)
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Blue NH3 is used as fertilizer in agriculture, a chemical feedstock, or fuel for marine shipping.
Sustainable Aviation Fuel
A low-carbon alternative to conventional jet fuel derived from renewable feedstock (for e.g. biomass, cooking oils) aimed at reducing greenhouse gas emissions in aviation.
Sustainable Aviation Fuel
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Suitable feedstock is selected to undergo different conversion processes to create SAF.
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Converted feedstock is transported for blending.
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SAF is blended with conventional jet fuel to meet industry standards and specifications.
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Blended SAF is transported for distribution to airports.
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SAF reduces greenhouse gas emissions compared to conventional jet fuels.