RETRACTED ARTICLE: Influence of different volume replacement strategies on inflammation and endothelial activation in the elderly undergoing major abdominal surgery

Dimethyl ether (DME) has been proposed for use as an alternative fuel or additive in diesel engines and as a potential fuel in solid oxide fuel cells. The oxidation chemistry of DME is a key element in understanding its role in these applications. The reaction between methoxymethyl radicals and O(2) has been examined over the temperature range 295-600 K and at pressures of 20-200 Torr. This reaction has two product pathways. The first produces methoxymethyl peroxy radicals, while the second produces OH radicals and formaldehyde molecules. Real-time kinetic measurements are made by transient infrared spectroscopy to monitor the yield of three main products-formaldehyde, methyl formate, and formic acid-to determine the branching ratio for the CH(3)OCH(2) + O(2) reaction pathways. The temperature and pressure dependence of this reaction is described by a Lindemann and Arrhenius mechanism. The branching ratio is described by f = 1/(1 + A(T)[M]), where A(T) = (1.6(+2.4)(-1.0) x 10(-20)) exp((1800 +/- 400)/T) cm(3) molecule(-1). The temperature dependent rate constant of the methoxymethyl peroxy radical self-reaction is calculated from the kinetics of the formaldehyde and methyl formate product yields, k(4) = (3.0 +/- 2.1) x 10(-13) exp((700 +/- 250)/T) cm(3) molecule(-1) s(-1). The experimental and kinetics modeling results support a strong preference for the thermal decomposition of alkoxy radicals versus their reaction with O(2) under our laboratory conditions. These characteristics of DME oxidation with respect to temperature and pressure might provide insight into optimizing solid oxide fuel cell operating conditions with DME in the presence of O(2) to maximize power outputs.

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Determination of³⁶Cl in Nuclear Waste from Reactor Decommissioning

Hou

Østergaard

Nielsen

2007

Anal. Chem.

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An analytical method for the determination of 36Cl in nuclear waste such as graphite, heavy concrete, steel, aluminum, and lead was developed. Several methods were investigated for decomposing the samples. AgCl precipitation was used to separate 36Cl from the matrix elements, followed by ion-exchange chromatography to remove interfering radionuclides. The purified 36Cl was then measured by liquid scintillation counting. The chemical yield of chlorine, as measured by ICPMS, is above 70% and the decontamination factors for all interfering radionuclides are greater than 10(6). The detection limit of this analytical method for 36Cl is 14 mBq. The method has been used to determine 36Cl in heavy concrete, aluminum, and graphite from the Danish DR-2 research reactor.

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Effect of plant cultivation methods on content of major and trace elements in foodstuffs and retention in rats

Kristensen

Østergaard²,

Halekoh

et al. 2008

J Sci Food Agric

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BACKGROUND: Many consumers perceive organic foods as more nutritious than conventional foods. However, the existing evidence is insufficient to support or refute this belief. The purpose of the present study was to investigate the effect of three different model cultivation systems on selected major and trace element contents of dried foodstuffs (carrots, kale, peas, potatoes and apples) grown in two consecutive years, as well as mineral retention determined in 36 rats (second generation in a multi-generation study) fed diets based on these foodstuffs from one year.

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Identification of oxygenated ions in premixed flames of dimethyl ether and oxygen

Østergaard¹,

Egsgaard²,

Hammerum

2003

Phys. Chem. Chem. Phys.

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Lars Frøsig Østergaard

Determination of 63Ni and 55Fe in nuclear waste samples using radiochemical separation and liquid scintillation counting

Dimethyl Ether Oxidation at Elevated Temperatures (295−600 K)

Determination of³⁶Cl in Nuclear Waste from Reactor Decommissioning

Effect of plant cultivation methods on content of major and trace elements in foodstuffs and retention in rats

Identification of oxygenated ions in premixed flames of dimethyl ether and oxygen

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Lars Frøsig Østergaard

Determination of 63Ni and 55Fe in nuclear waste samples using radiochemical separation and liquid scintillation counting

Dimethyl Ether Oxidation at Elevated Temperatures (295−600 K)

Determination of36Cl in Nuclear Waste from Reactor Decommissioning

Effect of plant cultivation methods on content of major and trace elements in foodstuffs and retention in rats

Identification of oxygenated ions in premixed flames of dimethyl ether and oxygen

Contact Info

Product

Resources

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Determination of³⁶Cl in Nuclear Waste from Reactor Decommissioning