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Storage system materials

Distribution costs depend on plant location, physical state of the material (whether liquid, gas, or sohd), nature of the material (whether corrosive, explosive, flammable, perishable, or toxic), freight rates, and labor costs. Distribution costs may be affected by any of the following new methods of materials handling, safety regulations, productivity agreements, wage rates, transportation systems, storage systems, quality, losses, and seasonal effects. [Pg.817]

The inventoiy system needed is FIFO, which is desirable when inventories are subject to obsolescence or deterioration or when they consist of raw materials that fluc tuate widely in value. The capital investment for a typical aisle-rack storage system having a 5000-paUet capacity (I deep) is 6.5 per stored pallet (this does not include hft-truck investment). [Pg.1980]

Loss of containment due to mechanical failure or misoperation is a major cause of chemical process accidents. The design or storage systems should be based on minimizing the hkelihood of loss of containment, with the accompanying release of hazardous materials, and on limiting the amount or the release. An effective emergency response program that can reduce the impacts of a release should be available. [Pg.2306]

The most important evaluation of an ANG storage systems performance is the measurement of the amount of usable gas which can be delivered from the system. This is frequently defined as the volume of gas obtained from the storage vessel when the pressure is reduced from the storage pressure of 3.5 MPa (35 bar) to one bar, usually at 298 K. This parameter is referred to as the delivered V/V and is easy to determine directly and free from ambiguity. Moreover, it is independent of the ratio of gas adsorbed to that which remains in the gaseous state. To determine the delivered V/V an adsorbent filled vessel of at least several hundred cubic centimeters is pressurized at 3.5 MPa and allowed to cool under that pressure to 298 K. The gas is then released over a time period sufficient to allow the bed temperature to return to 298 K. A blank, where the vessel is filled with a volume of non-porous material, such as copper shot. [Pg.284]

Newer batteries can be divided into small rechargeable batteries for consumer electronics, cell-phones and laptop computers primarily, and larger advanced storage systems. The field of research on battery concepts and materials has recently... [Pg.448]

Certain materials which are generally considered to be stable at ordinary temperatures can inflame even in tlie absence of normal ignition sources. Such spontaneous combustion results from exotliermic autoxidation when the heat liberated exceeds that dissipated by the system. Materials prone to self-heating are listed in Table 6.7. In most cases, such fires involve relatively large, enclosed or thermally-insulated masses, and spontaneous combustion usually occurs after prolonged storage. [Pg.185]

The facile, photoinduced valence isomerization of ethyl 1//-azepine-l-carboxylate to ethyl 2-azabicyclo[3.2.0]hepta-3,6-diene-2-carboxylatehas been studied as a potential solar energy storage system.101102 Unfortunately, the system proved to be inefficient due to build up of polymeric material during the thermally induced, exothermic retro-reaction. [Pg.117]

Previously studied possibilities for bromine storage systems are listed in Table 1. The widely known reduction of the Br2 vapor pressure by formation of adducts with various carbon materials results from strong chemisorption interactions and has Table 1. General possibilities for bromine storage... [Pg.179]

The half-life, f1/2, of a substance is the time needed for its concentration to fall to one-half its initial value. Knowing the half-lives of pollutants such as chlorofluoro-carbons allows us to assess their environmental impact. If their half-lives are short, they may not survive long enough to reach the stratosphere, where they can destroy ozone. Half-lives are also important in planning storage systems for radioactive materials, because the decay of radioactive nuclei is a first-order process. [Pg.663]

Additional information may be had on storage of chemicals from several sources. Material Safety Data Sheets, for example, have specific instructions with regard to storage. The local fire inspector will have good suggestions, and much can be found in reference books. Above all, the laboratory operator should throughly familiarize himself with all chemicals to be used in order to develop a safe storage system. [Pg.46]

Adebiyi, G. A., 1991, A second law study on packed-bed energy storage systems utilizing phase change materials, ASME J. Solar Energy Eng. 113 146—156. [Pg.149]

In determining the size of storage systems the possibility of strikes or major disasters, such as fires, earthquakes, or riots, that may cut off feed stocks for along period of time is not considered. The probability of such events occurring is not great enough to warrant the added expense that would be involved. If the disaster strikes only one plant, the raw material can usually be obtained from another source. [Pg.68]

New Carbon Based Materials for Electrochemical Energy Storage Systems... [Pg.1]

See other pages where Storage system materials is mentioned: [Pg.7]    [Pg.138]    [Pg.153]    [Pg.42]    [Pg.379]    [Pg.377]    [Pg.341]    [Pg.89]    [Pg.271]    [Pg.41]    [Pg.268]    [Pg.502]    [Pg.1100]    [Pg.60]    [Pg.179]    [Pg.115]    [Pg.93]    [Pg.46]    [Pg.196]    [Pg.197]    [Pg.202]    [Pg.203]    [Pg.205]    [Pg.482]    [Pg.17]    [Pg.133]    [Pg.133]    [Pg.149]    [Pg.399]    [Pg.68]    [Pg.12]   
See also in sourсe #XX -- [ Pg.411 ]



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Materials systems

Storage system

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