A Novel Idea for Replacement of Traditional Catalytic Converter with
Multi-tubular Solid Oxide Fuel Cell 13-03-01-0008
This also appears in
SAE International Journal of Sustainable Transportation, Energy, Environment, & Policy-V131-13EJ
Emission Control has always been a major concern in each and every field. An
increase in emissions leads to climate change, global warming, and even various
diseases. The transportation system is responsible for around 30% of emission
production, of which 70% of the total atmospheric burden comes from automobiles.
Recently developed emission-free electric vehicles have positively affected the
levels of impurity in the environment, yet the remaining Internal Combustion
Engine (ICE) vehicles on the road have been left with unchecked emissions.
Traditional Catalytic Converters are widely used to reduce the emissions of
vehicles. It works on the principle of converting hazardous gases emitted from
the engine to less harmful carbon dioxide (CO2), nitrogen
(N2), and water (H2O). It is integrated with the
exhaust of the engine. High efficiency and better emission control catalytic
converters are still major milestones to achieve for automotive industries.
For this purpose, a new approach is proposed consisting of the integration of a
two-phase multi-tubular Intermediate-Temperature Solid Oxide Fuel Cell
(IT-SOFC)-based catalytic converter with an exhaust for amplified and better
emission control. A multi-tubular IT-SOFC will use the burnt as well as unburnt
emissions from the engine to create a potential that will generate electrical
energy by oxidizing fuel. This generated electricity can be further utilized as
per requirement. This system will positively impact nature by reducing,
recycling, and converting harmful emissions into less harmful emissions.