This electronic flyer highlights our capabilities and activities in the area of Diesel Particulate Filter (DPF) Testing. Please sign our guestbook. For additional information, e-mail Phillip Weber Southwest Research Institute.

Diesel Particulate Filter (DPF) Testing

Increasingly stringent environmental regulations for diesel engine emissions are driving efforts to develop concepts for reducing emission levels, predominantly for particulate matter (PM). The US federal limit for PM emissions from heavy-duty diesel engines has decreased from 0.1 g/hp-hr to 0.01 g/hp-hr for 2007. The use of diesel particulate filters (DPFs) is considered to be the only feasible diesel aftertreatment technology for achieving the US 2007/2010 and Euro V particulate limits.

Southwest Research Institute® (SwRI®), with more than 50 years of experience in engine, fuel and vehicle research, offers complete facilities for testing diesel engines and their aftertreatment systems.

Thermocouple installation on a diesel particulate filter for performance evaluation

CAPABILITIES

Institute engineers combine state-of-the-art equipment with extensive DPF experience to provide engine manufacturers and component suppliers with comprehensive services, including:

DPF filtration efficiency measurement
Catalyst formulation evaluation
Balance point tests (for catalyzed DPFs)
Precise on-engine DPF PM loading techniques
Automated DPF regeneration using supplemental fuel injection (SFI) or in-cylinder post-injection
Regeneration survivability tests
Long-term ash accumulation
DPF hot vibration testing
On-vehicle DPF durability testing
Off-engine DPF cleaning techniques
Application-specific troubleshooting (e.g., solutions for DPF plugging)

Diesel particulate filter (DPF) testing on a light-duty engine

Comparison of DPF inlets with and without a flow diffuser following multiple loading and regeneration cycles

Instrumentation

Engine test benches can include numerous instruments to aid in determining the performance characteristics of DPFs:

Gaseous emissions analyzers for HC, CO, CO₂, NO_x, and O₂
PM size and number distributions for accurate filtration efficiency measurements
PM-soluble organic fraction (SOF) content analysis
SwRI methodology for measuring real-time temperature distributions in DPFs
DPF pressure-drop characteristics
ECU mapping for DPF loading / regeneration performance

Measurement of real-time DPF trapping efficiency as a function of particle size, showing distinction in trapping efficiency between “clean” and “loaded” DPFs

Two thermal-related risks during DPF regeneration

Survivability Tests

Successful regeneration of the DPF under any given engine operating condition has been identified by industry as a major challenge. SwRI can perform DPF survivability evaluations based on three regeneration failure types:

Type A – Excess exotherm at the start of regeneration due to rapid temperature ramping rate
Type B – Combination of excessive PM loading, high O₂ concentration, and low exhaust flow rate (“classic runaway regeneration”)
Type C – Uneven temperature distribution during regeneration causing incomplete regeneration

For more information on Diesel Particulate Filter (DPF) Testing, contact Phillip Weber, Phone (210) 522-5872, Fax (210) 522-3950 , Engine, Emissions and Vehicle Research Division, Southwest Research Institute, P.O. Drawer 28510, San Antonio, Texas 78228-0510.

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