2017
DOI: 10.1017/s1431927617010807
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Designing Catalysts for Meeting the DOE 150 °C Challenge for Exhaust Emissions

Abstract: As more efficient combustion engines are developed for transportation, it is expected that less heat will be wasted in the exhaust, leading to lower exhaust temperatures. Hence DOE has set a goal of achieving 90% conversion of target pollutants by 150 °C [1]. To meet exhaust emission standards, it is necessary to develop catalysts that provide light off at lower temperatures than the current generation of catalysts (which become active at ~200 °C). The new targets cannot be achieved simply by increasing the lo… Show more

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Cited by 4 publications
(5 citation statements)
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“…For this, we will consider an inlet blend that is more commonly expected for engine exhaust and is consistent with the 150 °C DOE challenge. 5,6 We chose conditions of 1% CO and 10% O 2 with 99% conversion being the target conversion at 150 °C. From the general definition of C (eq 3), C = 13.5 at 150 °C for the Ir single atoms and nanoparticles on MgAl 2 O 4 .…”
Section: ■ Resultsmentioning
confidence: 99%
See 3 more Smart Citations
“…For this, we will consider an inlet blend that is more commonly expected for engine exhaust and is consistent with the 150 °C DOE challenge. 5,6 We chose conditions of 1% CO and 10% O 2 with 99% conversion being the target conversion at 150 °C. From the general definition of C (eq 3), C = 13.5 at 150 °C for the Ir single atoms and nanoparticles on MgAl 2 O 4 .…”
Section: ■ Resultsmentioning
confidence: 99%
“…With the understanding of which parameters affect the kinetic synergy between Ir single atoms and nanoparticles, we can now optimize a catalyst for a given set of reaction conditions. For this, we will consider an inlet blend that is more commonly expected for engine exhaust and is consistent with the 150 °C DOE challenge. , We chose conditions of 1% CO and 10% O 2 with 99% conversion being the target conversion at 150 °C. From the general definition of C (eq ), C = 13.5 at 150 °C for the Ir single atoms and nanoparticles on MgAl 2 O 4 .…”
Section: Resultsmentioning
confidence: 99%
See 2 more Smart Citations
“…In order to satisfy the increasingly stringent regulations, such as China VI, Europe VI, the United States 2021-2027 second-stage heavy greenhouse gas emission standards, [5] the precious metal component in the commercial TWC catalyst for natural gas engine exhaust purification is still an indispensable main active component, especially the Pd component is widely used. [6] However, a long-standing problem is that under engine operating conditions, palladium nano-particles tend to aggregate (or sintering) and grow larger, [7][8][9][10] and the availability of palladium active components and the chemical property of palladium is partly determined by the partical size, [11][12] so improving the dispersion stability of palladium components can effectively improve the catalytic activity of palladium catalysts and reduce their production costs. Therefore, in order to achieve the effective removal of pollutants (CO, NO x and CH 4 , etc) from the natural gas vehicles exhaust, it is necessary to continuously develop the highly dispersed Pd-based catalyst technology with good sintering resistance.…”
Section: Introductionmentioning
confidence: 99%