979 resultados para 21-206C
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Two hundred and four stools of 102 diarrheic (0-12 months of age) and 102 non-diarrheic dogs coming from kennel and ambulatory, respectively, were assayed for the presence of Campylobacter. From the diarrhetic group, 46% of the samples yelded positive Campylobacter isolation mainly found in young animals until 5 months of age (72%), whereas those with age ranging from 6-12 months showed either a lower frequence of the organisms (28%) and a trend of the younger animals to be more charged than the older. 47 Campylobacter strains isolated from the diarrheic group were: C. jejuni biotype 1 (49%); C. jejuni biotyp 2 (11%); C. jejuni/coli (19%); C. coli (8,5%); Campylobacter NARTC group (8,5%) and C. sputoruns (4%). In the non-diarrhetic group, 27 (28%) Campylobacter strains were classified as: C. jejuni biotype 1 (34%) and biotype 2 (28%); C. jejuni/coli (24%) and C. coli (14%). According the biochemical tests, the 1% glycine tolerance test was not taking in account for the differentiation of C. jejuni because 45% of the strains failed in showing characteristic and 3 strains did not reduce the sodium selenite. The biochemical studies also showed phenotipical cross reactions between two Campylobacter NARTC-group strains with the C. jejuni strains, as well as two thermophilic species grew also at 25°C. All the 76 isolates were sensitive to gentamicin, nitrofurantoin and neomycin and resistant to oxacillin and penicillin. Furthermore, for the remaining 16 drugs the populational resistance ranged from 8% to 73% of strains. The presence of Campylobacter in dogs as well their close contact which man makes possible the occurrence of infections as also confirm the campylobacteriosis as an important zoonosis.
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The steam reforming is one of most utilized process of hydrogen production because of its high production efficiencies and its technological maturity. The use of ethanol for this purpose is a interesting option because this is a renewable and less environmentally offensive fuel. The objective of this study is evaluate the physical-chemical, thermodynamic and environmental analyses of steam reforming of ethanol. whose objective is to produce 0.7 Nm3/h of hydrogen to be used by a PEMFC of l kW. In this physical-chemical analysis, a global reaction of ethanol was considered. That is, the superheated ethanol and steam, at high temperatures, react to produce hydrogen and carbon dioxide. Beyond it's the simplest form to study the steam reforming of ethanol to hydrogen production, it's the case where occurs the highest production of hydrogen (the product to be used by fuel cells) and carbon dioxide, to be eliminated. But this reaction isn't real and depends greatly on the thermodynamic conditions of reforming, technical features of reformer system and catalysts. Other products generally formed (but not investigated in this study) are methane, carbon monoxide, among others. It was observed that the products is commonly produced in the moment when the reaction attains temperatures about 206°C (below this temperature, the reaction trend to the reaetants, that is, from hydrogen and carbon dioxide to steam and ethanol) and the advance degree of this reaction increases when the temperature of reaction also increases and when its pressure decreases. It's suggested reactions at about 600°C or higher. However, when the temperature attains 700°C, the stability of this reaction is occurred, that is, the production of reaction productions attains to the limit, that is the highest possible production. In temperatures above 700°C, the use of energy is very high for produce more products, having higher costs of production that the suggested temperature. The indicated pressure is 1 atm., a value that allows a desirable economy of energy that would also be used for pressurization or depressurization of steam reformer. In exergetic analysis, it's seem that the lower irreversibililies occur when the pressure of reactions are lower. However, the temperature changes don't affect significantly the irreversibilites. Utilizing the obtained results from this analysis, it was concluded that the best thermodynamic conditions for steam reforming of ethanol is the same conditions suggested in the physical-chemical analysis. The exergetic and first law efficiencies are high on the thermodynamie conditions studied.
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Publicación bilingüe
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Contiene resumenes bibliograficos de documentos sobre planificacion y desarrollo en America Latina, recogidos y procesados en el marco del Sistema de Informacion para la Planificacion en America Latina y el Caribe (INFOPLAN).
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