SAE International The Study of Exhaust Heating to Improve SCR Cold Start Performance 2015-01-1027

Description
SCR cold-start effects are increasingly important for meeting today's emission requirements [ 1 ]. A significant challenge toward quickly achieving NOx abatement is the presence of moisture in the catalyst at lower temperatures [ 1 ]. This paper describes the ability of an electric heater to effectively raise the temperature of the exhaust and overcome the effect of moisture and low exhaust temperature, allowing NOx conversion to begin sooner. A model of the moisture storage and removal is presented, along with results from engine tests. Results show that it is possible to achieve high NOx conversion temperatures quickly with robust heater technology that is suited for diesel applications.
Description
SCR cold-start effects are increasingly important for meeting today's emission requirements [ 1 ]. A significant challenge toward quickly achieving NOx abatement is the presence of moisture in the catalyst at lower temperatures [ 1 ]. This paper describes the ability of an electric heater to effectively raise the temperature of the exhaust and overcome the effect of moisture and low exhaust temperature, allowing NOx conversion to begin sooner. A model of the moisture storage and removal is presented, along with results from engine tests. Results show that it is possible to achieve high NOx conversion temperatures quickly with robust heater technology that is suited for diesel applications.

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The Study of Exhaust Heating to Improve SCR Cold Start Performance - 2015-01-1027 - SAE International
Warrendale, PA, United States
The Study of Exhaust Heating to Improve SCR Cold Start Performance
2015-01-1027
The Study of Exhaust Heating to Improve SCR Cold Start Performance 2015-01-1027
SCR cold-start effects are increasingly important for meeting today's emission requirements [ 1 ]. A significant challenge toward quickly achieving NOx abatement is the presence of moisture in the catalyst at lower temperatures [ 1 ]. This paper describes the ability of an electric heater to effectively raise the temperature of the exhaust and overcome the effect of moisture and low exhaust temperature, allowing NOx conversion to begin sooner. A model of the moisture storage and removal is presented, along with results from engine tests. Results show that it is possible to achieve high NOx conversion temperatures quickly with robust heater technology that is suited for diesel applications.

SCR cold-start effects are increasingly important for meeting today's emission requirements [ 1 ]. A significant challenge toward quickly achieving NOx abatement is the presence of moisture in the catalyst at lower temperatures [ 1 ]. This paper describes the ability of an electric heater to effectively raise the temperature of the exhaust and overcome the effect of moisture and low exhaust temperature, allowing NOx conversion to begin sooner. A model of the moisture storage and removal is presented, along with results from engine tests. Results show that it is possible to achieve high NOx conversion temperatures quickly with robust heater technology that is suited for diesel applications.

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  SAE International
Product Category Standards and Technical Documents
Product Number 2015-01-1027
Product Name The Study of Exhaust Heating to Improve SCR Cold Start Performance
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