We Don’t Inherit The Earth From Our Ancestors,
We Borrow It From Our Children.
We Don’t Inherit the Earth from Our Ancestors,
We Borrow It from Our Children.
H2NexGen is dedicated to advancing the hydrogen economy. We specialize in carbon-negative hydrogen production as well as its utilization. Decarbonization-wise, it is more impactful than green or low-carbon hydrogen. Carbon-negative hydrogen enable corporate GHG/CO2e legacy emissions removal, beyond just preventing on-going emissions. Our other product, a hydrogen catalyst technology provides a transition pathway for existing diesel engines to reduce emission and to have fuel cost savings.
WHY
WHY
We envision the future generation will be happy living on the Earth of their time. We passionately strive to rejuvenate the Earth our children have entrusted us with. Together we can Heal The World.
HOW
HOW
We believe the best way to realize this future is
to commit to building it together.
WHAT
WHAT
Welcome to the
Net Zero
Future.
H2NexGen is dedicated to advancing the hydrogen economy. We specialize in carbon-negative hydrogen production as well as its utilization. Carbon-negative hydrogen enable corporate GHG/CO2e legacy emissions removal, beyond just preventing on-going emissions. Our other product, a hydrogen catalyst technology provides a transition pathway for existing diesel engines to reduce emission and to have fuel cost savings.
WHY
We envision the future generation will be happy living on the Earth of their time. We passionately strive to rejuvenate the Earth our children have entrusted us with. Together we can Heal The World.
HOW
We believe the best way to realize this future is
to commit to building it together.
WHAT
Welcome to the
Net Zero
Future.
CARBON-NEGATIVE HYDROGEN PRODUCTION
CARBON NEGATIVE HYDROGEN PRODUCTION
The globally endorsed United Nation’s 2050 Net-Zero goal is to achieve:
1. Zero greenhouse gas emissions, i.e. current & future emissions.
2. Remove CO2 from the atmosphere, i.e. past or legacy emissions.
Aligned to these industries, equipment and processes can be categorized by carbon intensity:
– Carbon positive, add GHG emission to the atmosphere.
– Carbon neutral, does not add GHG emission to the atmosphere.
– Carbon negative, remove or sequester atmospheric GHG.
Hydrogen is a key factor in the transition from fossil fuels/energies into clean energies with neutral or preferably negative carbon intensity. The below figure shows the most common methods of hydrogen production together with their carbon intensity & colour classification.
Corporate Climate Action
The damages of climate change has become a daily news item reminding us of this ticking time-bomb. A number of studies have estimated that 80% of CO2e emission are from business related activities. Thus, corporate decarbonization response is essential to defuse this ticking bomb. Decarbonization response like any other form of waste reduction/disposal response, rarely comes without incurring additional costs. Thus, an appropriate decarbonization response is to do so early and at highest decarbonization impact and at lowest cost.
Case Insights:
Carbon-Negative Urea Fertilizer
Large scale agriculture and plantation businesses, rely on inorganic fertilizer e.g. urea, to operate economically. Urea (and other inorganic fertilizers) is CO2e emission-wise carbon-positive at +0.93 tonne CO2e / tonne Urea.
The use of SMR (or grey ) hydrogen of +9.89 tonne CO2e / tonne hydrogen, is a key factor for urea’s carbon positiveness. However, SMR hydrogen’s established process and economies of scale, give it a low cost advantage.
The following table compares Urea’s carbon intensity when produced using the lowest cost sources of hydrogen:
Clearly, using carbon-negative hydrogen feedstock to produce using carbon-negative Urea is the superior solution to decarbonize agriculture and plantation businesses.
Ready to start the transition? Contact us to discuss about your fertilizer use decarbonization needs.
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