Search results for "inert gas"

showing 3 items of 33 documents

Visualization of inert gas wash-out during high-frequency oscillatory ventilation using fluorine-19 MRI

2010

High-frequency oscillatory ventilation is looked upon as a lung-protective ventilation strategy. For a further clarification of the physical processes promoting gas transport, a visualization of gas flow and the distribution of ventilation are of considerable interest. Therefore, fluorine-19 magnetic resonance imaging of the imaging gas octafluorocyclobutane (C(4) F(8) ) during high-frequency oscillatory ventilation was performed in five healthy pigs. For that, a mutually compatible ventilation-imaging system was set up and transverse images were acquired every 5 sec using FLASH sequences on a 1.5 T scanner. Despite a drop in signal-to-noise ratio after the onset of high-frequency oscillato…

medicine.diagnostic_testchemistry.chemical_elementMagnetic resonance imaginglaw.inventionTransverse planeOctafluorocyclobutanechemistry.chemical_compoundNuclear magnetic resonancechemistrylawAnesthesiaVentilation (architecture)medicineFluorineRadiology Nuclear Medicine and imagingRespiratory systemInert gasHigh frequency oscillatory ventilationMagnetic Resonance in Medicine
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Closed tank pneumatic press application to improve Sauvignon Blanc wine quality and nutraceutical properties

2019

The machines used in the winemaking process directly affect the quality of wine and its nutraceutical properties. Grapes-pressing is a very important step in winemaking as it may promote the presence and/or absence of enzymatic processes on the must, leading to the creation of different products in terms of chemical composition, starting from the same grapes. The aim of the study was to compare two different pressing systems of Sauvignon Blanc grapes using an innovative pneumatic discontinuous closed tank press in two operating modes: the traditional pressing mode in presence of oxygen and the inert pressing mode, performed through grapes pressing under inert gas with nitrogen recovery. Che…

principal component analysismedia_common.quotation_subjectBioengineering030204 cardiovascular system & hematologyIndustrial and Manufacturing Engineering040501 horticulturelcsh:Agriculture03 medical and health sciences0302 clinical medicineNutraceuticalwinemaking.Quality (business)lcsh:Agriculture (General)Inert gasBrowning reactionWinemakingmedia_commoninert atmosphere low-oxygen must pressing principal component analysis winemakingPressingWineInertMechanical Engineeringlcsh:SSettore AGR/09 - Meccanica AgrariaInert pressingmust and wine04 agricultural and veterinary sciencesPulp and paper industrylcsh:S1-972Environmental science0405 other agricultural sciencesJournal of Agricultural Engineering
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Nanofilm Low Cost Oxygen Sensors

2009

Abstract The resitivity change of ultra thin metals under air exposure is used for vacuum or inert gas packaging control. In order to reach low cost, single use applications, few nm thin Aluminum layers were deposited on PET substrates and combined with wireless electronic readout circuitry. The sensor respose is characterized by resistance changes and explained in terms of multiphase diffusion mechanisms which are very sensitive to technological parameters.

ultrathin metalsMaterials scienceSingle useChemistry(all)technology industry and agriculturechemistry.chemical_elementNanotechnologyGeneral Medicineoxygen sensornanofilmAir exposurechemistryAluminiumChemical Engineering(all)sense organsDiffusion (business)Inert gasOxygen sensorProcedia Chemistry
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