De-Yi Chiang scite author profile

NO and NO2 (collectively called NOx) are major air pollutants in automotive emissions. More effective and easier treatments of NOx than those achieved by the present methods can offer better protection of human health and higher fuel efficiency that can reduce greenhouse gas emissions. However, currently commercialized technologies for automotive NOx emission control cannot effectively treat diesel-like exhausts with high NOx concentrations. Thus, exhaust gas recirculation (EGR) has been used extensively, which reduces fuel efficiency and increases particulate emission considerably. Our results show that the electro-catalytic honeycomb (ECH) promotes the decomposition of NOx to nitrogen and oxygen, without consuming reagents or other resources. NOx can be converted to nitrogen and oxygen almost completely. The ECHs are shown to effectively remove NOx from gasoline-fueled diesel-like exhausts. A very high NO concentration is preferred in the engine exhaust, especially during engine cold-start. Promoted NOx decomposition (PND) technology for real-world automotive applications is established in this study by using the ECH. With PND, EGR is no longer needed. Diesel-like engines can therefore achieve superior fuel efficiency, and all major automotive pollutants can be easily treated due to high concentration of oxygen in the diesel-like exhausts, leading to zero pollution.

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Sulfur dioxide removal from oxygen-rich exhausts by promoted decomposition

Huang

Mao

Lee

et al. 2016

Chemical Engineering Journal

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De-Yi Chiang

Effect of H2O and CO2 on NOx emission control for lean-burn engines by electrochemical-catalytic cells

NOx emission control for automotive lean-burn engines by electro-catalytic honeycomb cells

Ambient temperature NOx emission control for lean-burn engines by electro-catalytic tubes

Promoted Decomposition of NO_x in Automotive Diesel-like Exhausts by Electro-Catalytic Honeycombs

Sulfur dioxide removal from oxygen-rich exhausts by promoted decomposition

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De-Yi Chiang

Effect of H2O and CO2 on NOx emission control for lean-burn engines by electrochemical-catalytic cells

NOx emission control for automotive lean-burn engines by electro-catalytic honeycomb cells

Ambient temperature NOx emission control for lean-burn engines by electro-catalytic tubes

Promoted Decomposition of NOx in Automotive Diesel-like Exhausts by Electro-Catalytic Honeycombs

Sulfur dioxide removal from oxygen-rich exhausts by promoted decomposition

Contact Info

Product

Resources

About

Promoted Decomposition of NO_x in Automotive Diesel-like Exhausts by Electro-Catalytic Honeycombs