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Fuel room temperature

Methanol is more soluble in aromatic than paraffinic hydrocarbons. Thus varying gasoline compositions can affect fuel blends. At room temperature, the solubiUty of methanol in gasoline is very limited in the presence of water. Generally, cosolvents are added to methanol—gasoline blends to enhance water tolerance. Methanol is practically insoluble in diesel fuel. [Pg.87]

The oxygen release rate is directly proportional to the cross-sectional area of the candle for a specific composition and also depends on the linear bum rate. Lower fuel contents decrease the bum rate slightly, eg, ca 2 wt % iron is the lower limit for rehable room temperature operation. Low temperature starts require at least 3.5 wt % iron. Another factor is direction of flow of the evolved gas. If the hot oxygen flows over the unbumed portion of the candle, as much as 15% rate iacreases can be produced. The bum time is halved for each 3.4 MPa (500 psi) pressure rise. The highest pressure that can be produced is ca 138 MPa (20,000 psi). [Pg.486]

A pyrotechnic composition contains one or more oxidizers in combination with one or more fuels. Oxidizers used in pyrotechnics, such as potassium nitrate, KNO, are soflds at room temperature and release oxygen when heated to elevated temperatures. The oxygen then combines with the fuel, and heat is generated by the resulting chemical reaction. Chemicals that release fluorine or chlorine on heating, such as polytetrafluoroethylene (Teflon)... [Pg.346]

Epichlorohydrin (ECO) has exceUent resistance to fuel and oil sweU. The ECOs show a volume sweU of 35% at room temperature compared to 70% for a medium ACN—nitnle mbber in ASTM Reference Fuel C. The copolymer has a low temperature britde point of —40° C and the homopolymer,... [Pg.233]

Uranium hexafluoride [7783-81-5], UF, is an extremely corrosive, colorless, crystalline soHd, which sublimes with ease at room temperature and atmospheric pressure. The complex can be obtained by multiple routes, ie, fluorination of UF [10049-14-6] with F2, oxidation of UF with O2, or fluorination of UO [1344-58-7] by F2. The hexafluoride is monomeric in nature having an octahedral geometry. UF is soluble in H2O, CCl and other chlorinated hydrocarbons, is insoluble in CS2, and decomposes in alcohols and ethers. The importance of UF in isotopic enrichment and the subsequent apphcations of uranium metal cannot be overstated. The U.S. government has approximately 500,000 t of UF stockpiled for enrichment or quick conversion into nuclear weapons had the need arisen (57). With the change in pohtical tides and the downsizing of the nation s nuclear arsenal, debates over releasing the stockpiles for use in the production of fuel for civiUan nuclear reactors continue. [Pg.332]

Cobalt salts are used as activators for catalysts, fuel cells (qv), and batteries. Thermal decomposition of cobalt oxalate is used in the production of cobalt powder. Cobalt compounds have been used as selective absorbers for oxygen, in electrostatographic toners, as fluoridating agents, and in molecular sieves. Cobalt ethyUiexanoate and cobalt naphthenate are used as accelerators with methyl ethyl ketone peroxide for the room temperature cure of polyester resins. [Pg.382]

Moehida, I., Kawabuehi, Y., Kawano, S., Matsumura, Y. and Yoshikawa, M., High catalytic activity of pitch-based activated carbon fibres of moderate surface area for oxidation of NO to NOj at room temperature. Fuel, 1997, 76(6), 543 548. [Pg.115]

NHj at room temperature over calcined active carbon fibers, Energy Fuels, 1995, 9(4), 659 664. [Pg.116]

This will generally be tr-ue as we proceed to look at other alkanes as the number of carbon atoms increases, so does the boiling point. All the alkanes with four car bons or less are gases at room temperature and atmospheric pressure. With the highest boiling point of the three, propane is the easiest one to liquefy. We are all faniliar- with propane tanks. These are steel containers in which a propane-rich mixture of hydrocar bons called liquefied petroleum gas (LEG) is maintained in a liquid state under high pressure as a convenient clean-burning fuel. [Pg.63]

Nylons tend to show very good resistance to organic solvents, and also to fuels and oils. They are, however, readily attacked by concentrated mineral acids at room temperature and by alkalis at elevated temperatures. [Pg.12]

Figure 7.2.12 shows scatter plots of instantaneous measurements of temperature and CH4 mole fraction obtained at a height of 5 mm and at several radial locations, which are color-coded in the figure. The foremost observable characteristics are that there are no samples richer than 0.2 in the mixture fraction (1.0 being pure fuel) and that many samples remain at room temperature even within the limits of flammability. Many... [Pg.160]

Fig. 4 shows the evolution of temperature in the methanol steam reformer combined with a combustion plate equipped with a gas distributor. In this case hydrogen was used as a fuel for start-up at room temperature. As the reformer temperature reached near 300°C in about 5 min, methanol/water vapor was introduced to the reformer. It can be clearly seen that temperature within the reformer became relatively uniform after 25 min of operation. [Pg.659]

Such bimetallic alloys display higher tolerance to the presence of methanol, as shown in Fig. 11.12, where Pt-Cr/C is compared with Pt/C. However, an increase in alcohol concentration leads to a decrease in the tolerance of the catalyst [Koffi et al., 2005 Coutanceau et ah, 2006]. Low power densities are currently obtained in DMFCs working at low temperature [Hogarth and Ralph, 2002] because it is difficult to activate the oxidation reaction of the alcohol and the reduction reaction of molecular oxygen at room temperature. To counterbalance the loss of performance of the cell due to low reaction rates, the membrane thickness can be reduced in order to increase its conductance [Shen et al., 2004]. As a result, methanol crossover is strongly increased. This could be detrimental to the fuel cell s electrical performance, as methanol acts as a poison for conventional Pt-based catalysts present in fuel cell cathodes, especially in the case of mini or micro fuel cell applications, where high methanol concentrations are required (5-10 M). [Pg.361]

The University of Osaka is the holder of two patents regarding the least studied biorefining processes, demetallization, and bioconversion. The metals are removed from the fossil fuel, under mild conditions (room temperature and atmospheric pressure) by the microbial oxidation action and a UV-photochemical reaction [166], The bioconversion refers to conversion of high molecular weight alkanes by the action of B. thermoleovorans B23 and B. thermoleovorans H41 strains to lower molecular weight molecules [167],... [Pg.361]

See other pages where Fuel room temperature is mentioned: [Pg.63]    [Pg.192]    [Pg.467]    [Pg.506]    [Pg.9]    [Pg.537]    [Pg.324]    [Pg.325]    [Pg.515]    [Pg.2314]    [Pg.2316]    [Pg.2411]    [Pg.57]    [Pg.57]    [Pg.430]    [Pg.205]    [Pg.118]    [Pg.367]    [Pg.879]    [Pg.377]    [Pg.103]    [Pg.541]    [Pg.525]    [Pg.198]    [Pg.171]    [Pg.65]    [Pg.65]    [Pg.68]    [Pg.362]    [Pg.59]    [Pg.336]    [Pg.101]    [Pg.56]    [Pg.362]    [Pg.65]   
See also in sourсe #XX -- [ Pg.150 ]



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