Low Temperature Performance of Selective Catalytic Reduction of NO with NH3 under a Concentrated CO2 Atmosphere

Gou, Xiang; Wu, Chunfei; Zhang, Kai; Xu, Guoyou; Meng, Shaoping; Wang, Yating; Wang, Enyu; Liu, Liansheng; Wu, Jinxiang

doi:10.3390/en81112319

Cited by 10 publications

(7 citation statements)

References 44 publications

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“…Among the various harmful gases, nitrogen oxides (NO x ) have a negative impact through the smog and acid rain formations as well as the decrease of the superior ozone layer [1,2]. Several methods have been applied for nitrogen oxides elimination including the reduction of NO x by selective non-catalytic reduction (SNCR) and selective catalytic reduction (SCR) [3]. However, these techniques have several drawbacks such as costs and technical complexity.…”

Section: Introductionmentioning

confidence: 99%

The Potential of Activated Carbon Made of Agro-Industrial Residues in NOx Immissions Abatement

et al. 2017

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Abstract:The treatment of NO x from automotive gas exhaust has been widely studied, however the presence of low concentrations of NO x in confined areas is still under investigation. As an example, the concentration of NO 2 can approximate 0.15 ppmv inside vehicles when people are driving on highways. This interior pollution becomes an environmental problem and a health problem. In the present work, the abatement of NO 2 immission is studied at room temperature. Three activated carbons (ACs) prepared by physical (CO 2 or H 2 O) or chemical activation (H 3 PO 4 ) are tested as adsorbents. The novelty of this work consists in studying the adsorption of NO 2 at low concentrations that approach real life immission concentrations and is experimentally realizable. The ACs present different structural and textural properties as well as functional surface groups, which induce different affinities with NO 2 . The AC prepared using water vapor activation presents the best adsorption capacity, which may originate from a more basic surface. The presence of a mesoporosity may also influence the diffusion of NO 2 inside the carbon matrix. The high reduction activity of the AC prepared from H 3 PO 4 activation is explained by the important concentration of acidic groups on its surface.

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Section: Introductionmentioning

confidence: 99%

The Potential of Activated Carbon Made of Agro-Industrial Residues in NOx Immissions Abatement

et al. 2017

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“…Tremendous quantities of CO 2 are produced from fossil fuel combustion every year. Among CO 2 -capturing technologies, oxy-fuel combustion is one of the most promising technologies [4][5][6][7]. However, compared with air combustion, extra energy is required (e.g., ASU (air separation unit) etc.)…”

Section: Introductionmentioning

confidence: 99%

Techno-Economic Analysis of a 600 MW Oxy-Enrich Pulverized Coal-Fired Boiler

2018

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Oxy-fuel combustion is one of the most promising methods for CO 2 capture and storage (CCS) but the operating costs-mainly due to the need for oxygen production-usually lead to an obvious decrease in power generation efficiency. An "oxy-enrich combustion" process was proposed in this study to improve the efficiency of the oxy-fuel combustion process. The oxidizer for oxy-enrich combustion was composed of pure oxygen, air and recycled flue gas. Thus, the CO 2 concentration in the flue gas decreased to 30-40%. The PSA (pressure swing adsorption), which has been widely used for CO 2 removal from the shifting gases of ammonia synthesis in China, was applied to capture CO 2 during oxy-enrich combustion. The technological economics of oxy-enrich combustion with PSA was calculated and compared to that of oxy-fuel combustion. The results indicated that, compared with oxy-fuel combustion: (1) the oxy-enrich combustion has fewer capital and operating costs for the ASU (air separation unit) and the recycle fan; (2) there were fewer changes in the components of the flue gas in a furnace for oxy-enrich combustion between dry and wet flue gas circulation; and (3) as the volume ratio of air and oxygen was 2 or 3, the economics of oxy-enrich combustion with PSA were more advantageous.

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“…Our previous work studied Mn-and Ce-based catalysts using activated carbon as support for low temperature SCR [11]. Fly ash (FA), which is much cheaper than activated carbon, is a solid waste collected and discharged by thermal power plant [12], which is generally alkaline and mainly consists of SiO 2 , Al 2 O 3 and Fe 2 O 3 .…”

Section: Introductionmentioning

confidence: 99%

Low Temperature Selective Catalytic Reduction Using Molding Catalysts Mn-Ce/FA and Mn-Ce/FA-30%TiO2

Gou

Wang

et al. 2017

Energies

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Mn-Ce/FA (M) and Mn-Ce/FA-TiO 2 (M), using fly ash (FA) with and without TiO 2 as the carriers, were prepared by an integral molding technique. With the increase of TiO 2 content, the rates of NO conversion and denitration of Mn-Ce/FA-TiO 2 (M) increased, and the NO 2 and N 2 O formation rates decreased. It is found that TiO 2 could effectively inhibit the excessive oxidation of NO and the generation of N 2 O. The effects of space velocity, oxygen concentration and ammonia nitrogen ratio on three types of nitrogen oxides (NO, NO 2 , N 2 O) and denitration rates of the Mn-Ce/FA (M) and Mn-Ce/FA-30%TiO 2 (M) were further investigated. In addition, it is demonstrated that Mn-Ce/FA (M) and Mn-Ce/FA-30%TiO 2 (M) were more suitable to be used in the environment of low sulfur and less water. • Mn-Ce/FA-30%TiO 2 (M) showed higher NO conversion than Mn-Ce/FA(M).

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Low Temperature Performance of Selective Catalytic Reduction of NO with NH3 under a Concentrated CO2 Atmosphere

Cited by 10 publications

References 44 publications

The Potential of Activated Carbon Made of Agro-Industrial Residues in NOx Immissions Abatement

The Potential of Activated Carbon Made of Agro-Industrial Residues in NOx Immissions Abatement

Techno-Economic Analysis of a 600 MW Oxy-Enrich Pulverized Coal-Fired Boiler

Low Temperature Selective Catalytic Reduction Using Molding Catalysts Mn-Ce/FA and Mn-Ce/FA-30%TiO2

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