Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Manufacturer storage

Sampling (ASTM DUO). This standard provides guidance for the sampling of asphalts, hquid and semisohd, at point of manufacture, storage, or dehvery. [Pg.371]

Caibon tetiachloiide, as aie the other chlorinated methanes, is heavily regulated at the national, state, and local level. The manufacturing, storage, and... [Pg.532]

This combination of monomers is unique in that the two are very different chemically, and in thek character in a polymer. Polybutadiene homopolymer has a low glass-transition temperature, remaining mbbery as low as —85° C, and is a very nonpolar substance with Htde resistance to hydrocarbon fluids such as oil or gasoline. Polyacrylonitrile, on the other hand, has a glass temperature of about 110°C, and is very polar and resistant to hydrocarbon fluids (see Acrylonitrile polymers). As a result, copolymerization of the two monomers at different ratios provides a wide choice of combinations of properties. In addition to providing the mbbery nature to the copolymer, butadiene also provides residual unsaturation, both in the main chain in the case of 1,4, or in a side chain in the case of 1,2 polymerization. This residual unsaturation is useful as a cure site for vulcanization by sulfur or by peroxides, but is also a weak point for chemical attack, such as oxidation, especially at elevated temperatures. As a result, all commercial NBR products contain small amounts ( 0.5-2.5%) of antioxidant to protect the polymer during its manufacture, storage, and use. [Pg.516]

They are widely employed in the manufacture, storage and distribution of liquified gases, particularly on sea and road tankers. The most popular alloy for cryogenic applications is 4.5% magnesium alloy (N8). Table 3.33 gives the boiling points of the most common cryogenic liquids and the minimum temperatures at which various materials can be used. [Pg.90]

SIA provides a forum for the collation, interpretation and exchange of information affecting manufacture, storage and distribution of solvents. [Pg.266]

Cost of business interruption. The cost of business interruption is significantly influenced by various commercial factors. For example, if you are not producing at fiill capacity it may be possible to make up lost production at other facilities or when the plant comes back into operation. The business interruption costs will only be the additional costs of production, transportation and any lost sales. As these conditions can vary from month to month it may be more appropriate to adopt a standard method of calculating business interruption costs for PSM and ESH purposes. One commonly adopted approach is to estimate the tonnage of production lost and calculate the cost as being the difference between the sale price and all manufacturing, storage and transportation costs. [Pg.125]

The majority of the applications of anodic protection involve the manufacture, storage and transport of sulphuric acid, more of which is produced world-wide than any other chemical. Oleum is 100% sulphuric acid containing additional dissolved sulphur trioxide. The corrosion rate of steel in 77-100% sulphuric acid is 500-1 000 my" at 24°C and up to 5 000 my at 100°C which indicates the necessity for additional protection. [Pg.269]

Hydrocolloid stabilizers are vitally important in the manufacture of sherbet and ices. The absence of larger amounts of milk colloids and the presence of larger amounts of water emphasize the need for proper stabilization. Stabilizers help to maintain a Arm body and smooth texture during manufacture, storage, and distribution. Bleeding and surface sugar crystallization are two problems related to crystal structure in sherbet and ices and are very closely associated with the use of the proper hydrocolloid stabilizer. [Pg.49]

Plant Size, Manufacturing Storage, Transfer, Terminal, Total Plant... [Pg.64]

In Great Britain manufacture, storage and transport of industrial... [Pg.7]

As the stability data can be affected by many factors like formulation, manufacturing, storage conditions, in-process and GMP controls, analytical methods, and process validation, the biggest challenge is to figure out the source of the variability in the stability results. At least three batches of the drug substance or product are required to establish the acceptance criteria for future production batches as a measurement... [Pg.344]

Batch manufacture, storage, and transfer should be carried out in aeeordanee with routine procedures involving the same operators. The maehine should be eleaned and sterilized by the usual proeedures, although if an overkill sterilization eyele is used routinely, a partial sterilization (although still meeting standard parameters) may be chosen as worst case. ... [Pg.7]

There are innumerable situations where gases, liquids, and hazardous chemicals are produced, stored, or used in a process that, if released, could potentially result in a fire. It is important to analyze all materials and processes associated with a particular process including production, manufacturing, storage, or treatment facilities. Each process requires analysis of the potential for fire. [Pg.132]

Once the optimal formulation and processing method have been determined and the most suitable packaging configuration decided, product stability tests may be commenced. The aim is to determine a shelf life and provide data that demonstrate the product s continued quality under the conditions of manufacture, storage. [Pg.101]

MSER covers the manufacture, storage and handling of all explosives (e.g. ammunition and blasting explosives) and there is specific reference to fireworks, fusing fireworks and assembling fireworks displays from components. [Pg.160]

Thus anybody involved in the manufacture, storage, or professional use of fireworks should at least be familiar with the scope of the 2005 Regulations and of the fact that the Code of Practice has special legal status i.e. a court would find you at fault if it is proved that you did not follow relevant provisions of the Code. [Pg.160]

Anon, "Code for the Manufacture, Storage, Transportation and Use of Explosives and Blasting Agents , (NFPA No 495 1965) National Fire Protection Association, Boston Mass (1965) 45pp... [Pg.133]


See other pages where Manufacturer storage is mentioned: [Pg.7]    [Pg.150]    [Pg.527]    [Pg.143]    [Pg.516]    [Pg.521]    [Pg.527]    [Pg.152]    [Pg.1]    [Pg.475]    [Pg.261]    [Pg.63]    [Pg.10]    [Pg.368]    [Pg.1]    [Pg.118]    [Pg.232]    [Pg.176]    [Pg.990]    [Pg.93]    [Pg.100]    [Pg.263]    [Pg.168]    [Pg.211]    [Pg.50]    [Pg.246]    [Pg.54]    [Pg.3]    [Pg.132]    [Pg.99]    [Pg.190]    [Pg.395]   


SEARCH



© 2024 chempedia.info