High Silica Pd/Catalysts with Enhanced Low Temperature Methane Oxidation Performance

Pd-based silica (Si/Al > 50) small pore zeolite catalysts with increased durability and improved low temperature CH4 oxidation performance (> 90% CH4 conversion at temperatures < 400ºC).

Background:

Natural gas has garnered attention as a cleaner alternative fuel for vehicles compared to gasoline or diesel.  Natural gas vehicle (NGV) exhaust contains methane (CH4) which is 25 times more harmful than carbon dioxide (CO2) in global warming potential.  The conventional solution for CH4 remediation is its catalytic oxidation using Pd/Al2O3 catalysts.  However, Pd/Al2O3 catalysts suffer from low conversions and deactivation through Pd sintering in typical exhausts of natural gas vehicles containing high amounts of water vapor (5-10%) at low temperatures (< 400ºC).

Technology Overview:

A promising support alternative for Pd/Al2O3 catalysts are zeolites that can act as molecular sieves through size limiting pores to restrict  Pd sintering.  Moreover, the hydrophobicity of zeolites can be increased by increasing the Si content to prevent water inhibition.  University at Buffalo and Syracuse University researchers have developed small-pore H-CHA (Si/Al > 137) and H-LTA (Si/Al > 39)  zeolites loaded with 1 wt.% Pd to achieve low temperature CH4 oxidation performance.
Source: philipus, https://stock.adobe.com/uk/71061866, stock.adobe.com

Advantages:

  • >90% CHconversion below 400ºC in simulated natural gas exhaust feed.
  • 100% CHconversion at 450ºC for more than 10 hours compared to 70% conversion over conventional Pd/Al2O3.

Applications:

  • Catalytic converters for methane oxidation natural gas vehicles.
  • Carbon monoxide (CO), hydrocarbon (HC) oxidation, and nitrogen oxide (NO) reduction (three-way catalysts) for diesel and gasoline vehicles.
  • Catalytic converter for stationary natural gas engines or diesel engines.
  • Catalytic converter for marine vessels.
  • Steam or dry reforming of CH4 to syngas.

Intellectual Property Summary:


Stage of Development:

  • Lab scale demonstration.

Licensing Status:

  • Available for licensing and joint development.



Patent Information: