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Gas designation

GA = design vapor flow rate, Ib/hr Gf = gas loading factor L = liquid loading, Ib/hr-ft ... [Pg.298]

Process applications are primarily limited to low-fmned tubing, although the high-fmned tubes lit many process gas designs that require special mechanical details. This test limits the presentation to the low-fmned design. [Pg.218]

Ethyliodoacetate. Brit tear gas, designated SK, listed in Vol 2 of Encycl, p C169-R, under CHEMICAL AGENTS. See Also Cond ChemDict (1961) 472-R... [Pg.179]

The CEA decomposition loop operates at low pressures, near 5 bar. This is because the decomposition reaction is favoured at lower pressures. However, the GA flow sheet is conducted at 70 bar, near the expected operating pressure of the secondary helium loop. This is to minimise mechanical and thermal stress induced by a large pressure gradient between the helium and the chemical process at high temperatures. The GA design of the decomposition loop allows for more heat recovery, but does so with a more complex configuration. In practice, trade-offs between complexity and cost will be necessary to develop the most cost-efficient design. [Pg.184]

Figure 9. Pyrrhotites from autoclaves (coal only) Blacksville coal with Ht (O) Blacksville coal with synthesis gas (%) Clean Kentucky coal with H2( 3) Clean Kentucky coal with synthesis gas designated coal with synthesis gas (A)-... Figure 9. Pyrrhotites from autoclaves (coal only) Blacksville coal with Ht (O) Blacksville coal with synthesis gas (%) Clean Kentucky coal with H2( 3) Clean Kentucky coal with synthesis gas designated coal with synthesis gas (A)-...
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See also in sourсe #XX -- [ Pg.213 ]



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Conceptual process design gases

Design of Packed Bed Reactors for Gas-Liquid Reactions

Design of a Gas Scrubber The Adiabatic Case

Design of a Gas Supply System

Design of a device for large gas flow rates

Exhaust gases treatment design

FLARE GAS DESIGN PRACTICES

Fuel Element Designs for Gas-Cooled Reactors

Gas Distributor Design

Gas Distributor and Plenum Design in Fluidized Beds

Gas Flow Channel Design

Gas dispersion design example

Gas flow-field design

Gas-Manifold Design for a Tubular SOFC

Information required for gas-liquid reactor design

Key points for design of gas protection systems

Modelling and design of gas-solid reactors

Predication of Gas Storage in New Designed PAFs

Rational Design of Covalent Organic Frameworks for High Performance Gas Storage

Reactor Design for Gas-Liquid Reactions

Small-Size and Low-Gas-Flow Designs

System Designs for Natural Gas Fed PEMFC and PAFC Plants with Steam Reformers

The Design of Experimental Studies in Gas-Solid Reaction Systems

The design of rapid prediction system on coal seam gas content

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