Engine Exhaust Aftertreatment Aging

As emissions regulations tighten, understanding the aging behavior of aftertreatment systems is more critical than ever. This course provides a deep dive into the thermal, chemical, and physical deactivation mechanisms affecting gasoline and diesel catalysts. Learners will gain practical knowledge of catalyst design, aging diagnostics, and accelerated testing methods to extend system life and maintain compliance.

Upcoming dates (1)

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What You Will Learn:

Explain the fundamentals of automotive catalysis and how aftertreatment components age in spark and compression ignition engines.
Identify thermal, chemical, and physical deactivation modes and apply regeneration strategies to mitigate them.
Understand accelerated aging techniques for both gasoline and diesel systems and their role in system validation.

Who Should Attend:

Emissions and powertrain engineers working on catalyst design, testing, or compliance.
Engineering students, ICE researchers, and technical professionals focused on emissions control.
Managers and decision-makers responsible for aftertreatment system development and lifecycle planning.

Course Details: RA01749-D535

Course Outline

Module 1 – Catalysis 101

Module 2 – Spark Ignited Gasoline Aftertreatment

Module 3 – Compression Ignition Diesel Aftertreatment

Module 4 – Catalyst Aging Mechanisms: Thermal

Module 5 – Catalyst Aging Mechanisms: Chemical

Module 6 – Catalyst Aging Mechanisms: Physical

Module 7 – Accelerated Aging – Gasoline Aftertreatment

Module 8 – Accelerated Aging – Diesel Aftertreatment

Course Schedule

This course is available online anytime. Students will work through online course modules on their own time and at their own pace.

Program Director & Instructors

Program Director
Blake Suhre
Scott Eakle
Program Manager
Mr. Eakle is experienced in engine exhaust aftertreatment research and development and integration of such systems with engine management systems. Project work has included the development, modeling, evaluation, and integration of various aftertreatment systems for both gasoline and diesel applications, including particulate filters, Selective Catalytic Reduction (SCR), oxidation catalysts, as well as combined technologies such as SCR on filter. Mr. Eakle has derived numerous accelerated aging protocols for gasoline, CNG, and diesel aftertreatment devices that replicate real-world deactivation mechanisms. Modeling efforts include prediction of urea derived deposits in SCR systems. Mr. Eakle has commissioned numerous test stands capable of completing various forms of aftertreatment performance and durability studies. He has also set up controls on engines and burner systems to demonstrate accelerated aging of engine aftertreatment systems. Mr. Eakle also manages the division burner activities that cover aftertreatment durability testing and evaluations on SwRI’s ECTO-LabTM burner system. In addition to aftertreatment evaluation activities, Mr. Eakle is currently managing the Advanced Combustion, Catalyst and Aftertreatment Technologies (AC2AT) consortium. Mr. Eakle attended Colorado State University (CSU) where his research focused on a method to use non-thermal plasmas (NTP) in reducing NOx emissions for mobile and stationary lean burn engines. He has co authored many publications, received two SwRI Office of Automotive Engineering DMAC Mentor Awards and is a current member of the Society of Automotive Engineers.

Total Credits:

CEU .4,

PDH 4,

Certificate Compatibility:

Engine Systems,

Course Administration

Payment Options

If you are planning to attend an Interdisciplinary Professional Programs course, payment is required at the time of registration. Below are the payment options:

Pay by Credit Card

Enroll online and pay by credit card.

Search for the course on the website and then click on the Enroll Now button from the course webpage.
Enter all necessary course attendee information and payment information on the course enrollment page.
You will receive an email to confirm successful enrollment and payment.

Enroll over the phone and pay by credit card.

Call CERC Registrations at 608-262-2451.
Provide the registrations representative with:
- the course name, dates, and/or course number.
- the necessary course attendee information and payment information.
You will receive either a mailed document or an email to confirm successful enrollment payment.

Pay by Check

Mail in a completed registration form and check payable to UW Madison.

Fill out a registration form (found either in the back of the course brochure you received in the mail or here).
Prepare a check, made payable to UW Madison.
Mail the registration form and check to: CERC Registrations 21 N Park St, Ste 7101 Madison, WI 53715
You will receive either a mailed document or an email to confirm successful enrollment and payment.

Pay by Purchase Order

Request Purchase Order information from interpro@union.wisc.edu
- If a fee quote is needed, contact custserv@interpro.wisc.edu first
You will receive an invoice from UW–Madison Business Services for payment, usually within 3–5 business days

Military

If using SF-182 form, please call our registration number at 608-262-2451 or email interpro@union.wisc.edu for details and instructions.

Event Cancellation

We reserve the right to cancel a course due to insufficient enrollment or unforeseen events. If we cancel a course, participants will be notified via email or phone and will be given the option for a full refund or to transfer their registration and any fees paid to another course. We are not responsible for non-refundable plane tickets, hotel reservations, and other travel related expenses. For enrollee Course Cancellation, refer to notes on course page.

Cancellation Policy

Once you have accessed the online course materials, no cancellations or refunds are permitted.