NAPOP heat
NAPOPs heat products provide fossil free and net zero hydronic heat, industrial steam or even air-based heating – independent on electricity from the grid.
QUESTIONS
Heat requirements are met primarily by the use of fossil energy. Right or wrong?
Oyez... globally, heat requirements are still primarily met by fossil energy, but with important nuances.
Is heat a consumer of energy of importance?
Oyez... Heat is actually the largest energy end-use sector worldwide. It is also the least electrified and least decarbonised!
Why is heat lagging behind in the decarbonisation race?
Oh..., eh: Complicated. There are structural, technical and economic reasons. Heat demands are energy intense, fixated and fragmented and often infrastructure-locked.
Heat demand spans a wide range of qualities, from low-temperature hydronic heat and air-based heating for space heating, to medium-temperature hot water and steam, and high-temperature thermal energy required for industrial processes. Each application demands a specific temperature level and heat carrier.
NAPOP heat products produce fossil free net zero heat from hydrogen and biomethanol:
Flameless catalytic combustion of hydrogen generate hydronic heat/ air-based heating.
Transfer energy stored in biomethanol to hydronic heat/ air-based heating
Applies the CTC technology to generate steam for industrial applications.
NAPOP CTC
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NAPOP CTC (patent pending) applies catalytic combustion – combusting hydrogen chemically without generating flames at low temperatures – up to 600 ºC. This is significantly below the threshold for where thermal NOx is generated.
The CTC truly provide zero-emission heat.
The CTC is available from 125 kW and upwards (in steps of 125 kW) of airborne and hydronic heat applications.
NAPOP also deliver CTC-based steam boilers from 800 kW.
Around 50% of global energy consumption is used to generate heat - and more than 80% of that heat is still produced directly from fossil fuels.
Decarbonising heat is therefore one of the largest and most urgent challenges in the energy transition
Global energy consumption
50%
Half - used to generate heat.
30%
Less than one third - consumed by transportation.
20%
One fifth - used to generate electricity.
NAPOP BioM
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The NAPOP BioM series operate on biomethanol and provide fossil free net zero air-based heat. These are available in the range from 60 kW to 400.
NAPOP BioM heat units convert biomethanol into reliable, industrial-grade hot air. Biomethanol is a renewable, liquid energy carrier that’s easy to store and transport, making it ideal for applications where electrification is difficult or too slow to scale. The result is flexible fossil-free heat-on-demand with net zero climate footprint - delivered through proven, mobile technology.
Renewable fuel
Simple logistics (liquid storage and transport)
Fast deployment
Ideal for temporary/ mobile/ distributed heat needs
Industrial-grade performance
For air-based heat/ process heat
Proven reliability:
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In harsh environments/ low temperatures
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Continuous operations
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High load levels
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Zero emission – no noise
Other areas of applications:
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Insufficiency in grid capacity
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Replacing conventional gensets
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Temporary/ mobile power requirements
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Events
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Emergency power
NAPOP greensteam
NAPOP greensteam applies the NAPOP patent pending CTC technology, oxidising hydrogen by catalysis:
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The combustion/ oxidation process is complete - ensuring complete efficient utilisation of the fuel applied – efficiency second to none.
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Producing industrial high temperature zero emission supersaturated steam from hydrogen.
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Extremely compact design
Inquires
Industrial steam production faces rising costs driven by carbon pricing, energy inefficiency, and complex regulatory frameworks. Most steam production remains fossil-based.
The catalytic process achieves near-total hydrogen oxidation, converting the fuel’s chemical energy into heat with minimal intrinsic losses.
NOx-free, zero-emission steam through flameless hydrogen technology — supporting cost-effective and future-ready industries