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Hydride transport

Some of the assumptions used for truck and rail transport remain constant for gaseous, liquefied, and metal hydride transport (Table 7.7). [Pg.191]

The capital cost associated with truck transport uses two assumptions. The estimated initial capital cost is 2200 /kg (1000 /lb) of hydrogen for a truck capacity of 450 kg. By using the size of the metal hydride truck and the total transport distance, the necessary number of trips and the required number of trucks for metal hydride transport can be calculated. The formula used to determine the total capital cost, however, changes due to the units used for the cost of the metal hydride truck. The annual capital cost is calculated by ... [Pg.196]

Niacin Meat, whole grains, poultry, fish Forms the coenzyme NAD, which is a hydride transporter Pellagra werik muscles, no appetite, diarrhea, dermatitis... [Pg.392]

A schematic illustration of a typical inlet apparatus for separating volatile hydrides from the analyte solution, in which they are generated upon reduction with sodium tetrahydroborate. When the mixed analyte solution containing volatile hydrides enters the main part of the gas/liquid separator, the volatiles are released and mix with argon sweep and makeup gas, with which they are transported to the center of the plasma. The unwanted analyte solution drains from the end of the gas/liquid separator. The actual construction details of these gas/liquid separators can vary considerably, but all serve the same purpose. In some of them, there can be an intermediate stage for removal of air and hydrogen from the hydrides before the latter are sent to the plasma. [Pg.100]

Other volatile compounds of elements can be used to transport samples into the plasma flame. For example, hydride reduction of mercury compounds gives the element (Hg), which is very volatile. Osmium can be oxidized to its volatile tetroxide (OSO4), and some elements can be measured as their volatile acetylacetonate (acac) derivatives, as with Zn(acac)2. [Pg.396]

A Perkin-Elmer 5000 AAS was used, with an electrically heated quartz tube atomizer. The electrolyte is continuously conveyed by peristaltic pump. The sample solution is introduced into the loop and transported to the electrochemical cell. A constant current is applied to the electrolytic cell. The gaseous reaction products, hydrides and hydrogen, fonued at the cathode, are flowed out of the cell with the carrier stream of argon and separated from the solution in a gas-liquid separator. The hydrides are transported to an electrically heated quartz tube with argon and determined under operating conditions for hydride fonuing elements by AAS. [Pg.135]

A more appropriate battery for transportation applications is probably a nickel-iron or nickel-metal hydride battery. These batteries are not as susceptible to heat and gassing as lead-acid batteries, so they can better withstand high current or high voltage charges that can dramatically shorten charging time. [Pg.123]

Baranowski [680] concluded that the decomposition of nickel hydride was rate-limited by a volume diffusion process the first-order equation [eqn. (15)] was obeyed and E = 56 kJ mole-1. Later, Pielaszek [681], using volumetric and X-ray diffraction measurements, concluded from observations of the effect of copper deposited at dislocations that transportation was not restricted to imperfect zones of the crystal but also occurred by diffusion from non-defective regions. The role of nickel hydride in catalytic processes has been reviewed [663]. [Pg.156]

Because the metallic hydrides release their hydrogen (as H2 gas) when heated or treated with acid, they are being investigated for storing and transporting hydrogen. Both saline and metallic hydrides have the high enthalpy densities desirable in a portable fuel. [Pg.704]

Because this reaction produces hydrogen, saline hydrides are potentially useful as transportable sources of hydrogen fuel. [Pg.707]

The T dependence of the solubility of CsH in Cs differs significantly from those for solutions of the hydrides in the other alkali metals. Distillation leaves behind involatile impurity salts, but oxygen transport from distilland to receiver has been observed. Oxygen can be carried over with the distillate in the form of COj or CO, the former being produced by decomposition of carbonate and the latter by reduction of oxides with a carbon impurity under dry conditions near the end of distillation. The identification of CO among the noncondensable gases during the distillation of Cs lends support to this. ... [Pg.350]

Coenzymes serve as recyclable shuttles—or group transfer reagents—that transport many substrates from their point of generation to their point of utilization. Association with the coenzyme also stabilizes substrates such as hydrogen atoms or hydride ions that are unstable in the aqueous environment of the cell. Other chemical moieties transported by coenzymes include methyl groups (folates), acyl groups (coenzyme A), and oligosaccharides (dolichol). [Pg.50]

Exergetic Analysis of Organic Chemical Hydrides as the Media for Hydrogen Storage and Transportation... [Pg.464]

See other pages where Hydride transport is mentioned: [Pg.191]    [Pg.208]    [Pg.991]    [Pg.208]    [Pg.191]    [Pg.208]    [Pg.991]    [Pg.208]    [Pg.2712]    [Pg.203]    [Pg.366]    [Pg.368]    [Pg.541]    [Pg.399]    [Pg.27]    [Pg.784]    [Pg.441]    [Pg.525]    [Pg.1244]    [Pg.1270]    [Pg.216]    [Pg.156]    [Pg.377]    [Pg.203]    [Pg.179]    [Pg.350]    [Pg.615]    [Pg.52]    [Pg.1925]    [Pg.468]    [Pg.167]    [Pg.29]    [Pg.381]    [Pg.395]    [Pg.409]    [Pg.437]    [Pg.438]    [Pg.439]    [Pg.439]    [Pg.442]    [Pg.465]   
See also in sourсe #XX -- [ Pg.21 , Pg.30 ]



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