Ammonia-Related Catalysts
Ammonia (NH3)-Related Catalysts by TANAKA Precious Metals
Ammonia (NH3) is expected to have potential as a hydrogen carrier as well as a zero-emission fuel that, similar to hydrogen, does not emit carbon dioxide during combustion. We provide ammonia reforming catalysts that decomposes ammonia to generate hydrogen as well as catalysts for suppressing and decomposing nitrogen oxides (NOx) and nitrous oxide (N2O) in exhaust gas containing ammonia.
Ammonia-Related Catalysts Overview
■Features
- Provides various catalysts based on ruthenium and platinum
- High durability from use of precious metals
- High catalytic activity can be maintained even with low precious metal content, enabling the supply of catalysts at low cost
■Main products lineup
| Reaction | Product name | Shape | ||
|---|---|---|---|---|
| Ammonia reforming catalyst | Ru | Pellet | Approx. φ2 mm | |
| Ammonia purification catalyst | APC1-30 series | Pt | Honeycomb | – |
| APC1-30 series | Pt | Honeycomb | – |
- We request for the signing of a Non-Disclosure Agreement (NDA) when providing samples and information such as precious metal content.
- We also offer consultations regarding the trial manufacture and made-to-order production of customized catalysts tailored to customers’ specific needs.
Ammonia reforming catalyst
Hydrogen (H2), which serves as fuel, is generated from ammonia (NH3)
Reaction formula:: 2NH3 → N2 + 3H2
■Ammonia reforming reaction characteristics
TRC10-GA〔Ru〕
- NH3 reforming performance and SV-dependence
-
【TEST CONDITION】
Item Value(Unit) Gas Type NH3 SV(wet) 2,000 /h
20,000 /h
Possible to generate hydrogen by reforming ammonia at low temperatures
- *Data for reference from laboratory experiments
- *This is approximate data as results are affected by factors such as catalyst evaluation conditions, manufacturing conditions, and usage environment.
Ammonia purification catalyst
The production of nitrogen oxides (NOx and N2O) during decomposition of ammonia (NH3) is suppressed.
Reaction formula:: 4NH3 + 3O2 → 2N2 + 6H2O
■Ammonia purification reaction characteristics
APC1-30〔Pt〕
- NH3 purification performance
-
【TEST CONDITION】
Item Value(Unit) NH3 1% H2O 5% Air Balance SV(wet) 60,000 /h
Ammonia decomposition achieved with low NOx and low N2O
- *Data for reference from laboratory experiments
- *This is approximate data as results are affected by factors such as catalyst evaluation conditions, manufacturing conditions, and usage environment.
Nitrogen oxides removal catalysts
Decomposition of NOx at low temperatures is achieved using ammonia.
Reaction formula:: 4NO + 4NH3 + O2 → 4N2 + 6H2O
■Nitrogen oxides removal reaction characteristics
APC1-30〔Pt〕
- Nitrogen oxides removal performance
-
【TEST CONDITION】
Item Value(Unit) NH3 2,000ppm H2O 5% NO 1,000ppm Air Balance SV(wet) 30,000 /h
NOx can be removed at low temperatures.
- *Data for reference from laboratory experiments
- *This is approximate data as results are affected by factors such as catalyst evaluation conditions, manufacturing conditions, and usage environment.