Kjeld Bøhm Andersen scite author profile

We have applied mixed valance manganite perovskites as magnetocaloric materials in a magnetic refrigeration device. Relying on exact control of the composition and a technique to process the materials into single adjoined pieces, we have observed temperature spans above 9 K with two materials. Reasonable correspondence is found between experiments and a 2D numerical model, using the measured magnetocaloric properties of the two materials as input.

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NOx conversion on LSM15-CGO10 cell stacks with BaO impregnation

Traulsen

Andersen

2012

J. Mater. Chem.

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The electrochemical conversion of NO x on non-impregnated and BaO-impregnated LSM15-CGO10 (La 0.85 Sr 0.15 MnO 3 -Ce 0.9 Gd 0.1 O 1.95 ) 5 porous cell stacks has been investigated, and extensive impedance analysis have been performed to identify the effect of the BaO on the electrode processes. The investigation was conducted in the temperature range 300-500 °C, a polarisation range from 3 V to 9 V and in atmospheres containing 1000 ppm NO, 1000 ppm NO + 10% O 2 and 10% O 2 . On the non-impregnated cell stacks no NO x conversion was observed at any of the investigated conditions. However, BaO impregnation greatly enhanced the NO x conversion and at 400 °C and 9 V polarisation a BaO-impregnated cell stack showed 60% NO x conversion into N 2 with 8% current efficiency in 1000 ppm NO + 10% 10 O 2 . This demonstrates high NO x conversion can be achieved on an entirely ceramic cell without expensive noble metals. Furthermore the NO x conversion and current efficiency was shown to be strongly dependent on temperature and polarisation. The impedance analysis revealed that the BaO-impregnation increased the overall activity of the cell stacks, but also changed the adsorption state of NO x on the electrodes; whether the increased activity or the changed adsorption state is mainly responsible for the improved NO x conversion remains unknown. IntroductionIn Europe the NO x -emission from the road transport has been significantly reduced during the last 10 years, mainly due to the introduction of the three-way-catalyst on gasoline vehicles 1 . Due to the negative impact of NO x -emissions on both human health and the environment 2 , a further reduction in the NO x emissions from the car fleet is desirable. However a major challenge in that connection is the increased number of diesel vehicles, as the conventional three-way-catalyst is incapable of removing NO x from diesel exhaust. For this reason much research is currently focused on NO x -removal technologies for diesel exhaust, the most heavily investigated technologies being selective catalytic reduction with ammonia (NH 3 -SCR), selective catalytic reduction with hydrocarbons (HC-SCR) and the NO x -storage and reduction (NSR) catalyst 3 . In all these three technologies there is the need for a reducing agent, either coming from operating the engine occasionally in an excess fuel to air-ratio (HC-SCR and NSR) or supplied by a separate system (NH 3 -SCR). A NO x removal technology without the need for the addition of a reducing agent would be simpler and therefore advantageous compared to the aforementioned technologies.A suggestion for such a technology is electrochemical NO x removal, where the NO x is reduced to N 2 and O 2 by electrons supplied to a polarised electrode 4 . The technology is inspired by the finding in 1975 by Pancharatnam et al. 5 that NO can be reduced to N 2 during polarisation of a zirconia based cell in the absence of oxygen, and later it was shown by Cicero et al. 6 and Hibino et al. 7 that NO x also could be electrochemically reduced in the...

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Densification and grain growth during sintering of porous Ce0.9Gd0.1O1.95 tape cast layers: A comprehensive study on heuristic methods

Ni¹,

Schmidt²,

Teocoli³

et al. 2013

Journal of the European Ceramic Society

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Silver Modified Cathodes for Solid Oxide Fuel Cells

Sažinas

Andersen

Simonsen

et al. 2019

J. Electrochem. Soc.

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Vibrational spectroscopic study on fluorooxoborate formation in fluoride melts: Indications of B2OF62− and B3O3F63−

Barner

Andersen

Berg

1999

Journal of Molecular Liquids

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