Data import/export

Geographic data import/export Buffering/polygon overlay... 

Databases (structure, posture, performance) Quantitative prediction User interfaces Data import/export Visualization Animation... 

Canning almanac-reviews FDA law/stds. statistics/food packaging labeling specs USD A quality grades, agricultural data imports/exports, etc. Westminster, MD E. E. Judge Sons. 

Data Save/Export/Import- subsets of data files can be saved data can be exported to or imported from "dbf format,... 

In 1972, 5.68 million kg of methyl parathion were exported from the United States (HSDB 1999). Exports dropped to 3.01 million kg in 1984 (Bureau of the Census 1984). However, in 1985, exports inereased to 4.14 million kg (Bureau of the Census 1986). No reeent import/export data addressing methyl parathion are available. 

Production, Import/Export, Use, Release, and Disposal. Methyl parathion is commercially produced in the United States and abroad. Since 1977, production volume statistics for methyl parathion have been combined with those of ethyl parathion, also known as parathion. In 1983, the combined production capacity was estimated at 29 million kg for the United States and 10-15 million kg for western Europe (lARC 1983). Data on recent production in the United States were not located. In 1980,... 

Production, Import/Export, Use, Release, and Disposal. Humans are at risk of exposure to trichloroethylene because of its widespread use and distribution in the environment. Production, import, and use of the chemical are known to be relatively high, but recent quantitative data were not available (HSDB 1994). Trichloroethylene is released to the atmosphere mainly through its use in vapor degreasing operations (EPA 1985e). Landfills can be a concentrated source of trichloroethylene on a local scale. It is also released to surface water and land in sewage sludges and industrial liquid or solid waste. Trichloroethylene is... 

Mineral Oil Hydraulic Fluids and Polyalphaolefin Hydraulic Fluids. Very little public information is collected on the production volume and methods, import/export, applications, and disposal practices for the different types of mineral oil and polyalphaolefin hydraulic fluids. This is largely because public data series will generally not distinguish between hydraulic fluids and lubricants. Because of the extremely large number of workers and people in the general population exposed to these hydraulic fluids, development of more carefully defined data would allow a more accurate estimate of the numbers of people exposed and would allow development of likely routes of exposure and environmental loss. 

USDOC. 1994. U. S. Merchandise Import/Export, Commodity by Country. National Trade Data Bank. June 29,1994. United States Department of Commerce, Bureau of the Census. 

Production, Import/Export, Use, Release, and Disposal. Because of the general confusion in the literature about the nomenclature for octylphthalate esters, historical information about the production and import/export of di- -octylphthalate is not readily available. These values generally must be estimated as a percentage of di(2-ethylhexyl)phthalate production or import/export. The compound is used principally as a plasticizer additive to plastics and PVC resins. It is also used as a dye carrier in plastics production and as a chemical intermediate (EPA 1993a HSDB 1995 Mannsville Chemical Products Corporation 1989 Sittig 1991). Limited information is available about releases of di-n-octylphthalate to environmental media. Even the TRI data, which comprise the most current information available, contain errors as a result of the nomenclature confusion (EPA 1993a Vista Chemical 1992). Data are available about the disposal and regulatory status of the compound (see Chapters 4 and 7). More information on the production and releases of di-ft-octylphthalate is needed to estimate potential exposure to the compound. 

In 1972, disulfoton was not imported into the United States, and the exports of disulfoton from the United States to other countries were negligible (VonRumker et al. 1974). Import/export data for disulfoton in recent years were not located however, since the recent yearly consumption of disulfoton in the United States is substantially lower than the estimated yearly production capacity of 7 million pounds at the Kansas City plant (VonRumker et al. 1974), it is unlikely that disulfoton is being imported. 

Production, import/Export, Use, Release, and Disposal. Knowledge of production and use data for a chemical is important in predicting its potential for environmental contamination and human exposure. Since disulfoton is produced by only one manufacturer (SRI 1994), to maintain confidentiality, its recent production volume is not known. Similarly, data concerning the import and export volumes for disulfoton in recent years are not available. Estimates of its yearly use in the United States are available (Gianessi 1986 Gianessi and Puffer 1992 Goodrich et al. 1991 ... 

Additional production data are available from the Chemical Marketing Reporter (CMR 1996), and import/export data for phenol are available on the National Trade Data Bank (NTDB 1996). Additional data are not needed at this time. 

Production, Import/Export, Use, Release, and Disposal. Data regarding the production methods and current, past, projected future production capacity volumes, and current import and export volumes are available (Ahlstrom and Steele 1979 CEN 1995 Deshon 1979 NTDB 1994 SRI 1993,... 

ECHA (2009) Data on manufacture, import, export, uses and releases of Bis(2-ethyUiexyl) phthalate (DEHP) as well as information on potential alternatives to its use. European Chemicals Agency, Revised version of 29 January, http //echa.europa.eu/doc/consultations/ recommendations/techreports/techrepdehp.pdf Accessed April 2010... 

Production, Import/Export, Use, Release, and Disposal. Data on the production and uses of 1,4-dichlorobenzene in the United States are available (C EN 1995 Chemical Marketing Reporter 1990 HSDB 1998 IRPTC 1985 SRI 1996 TRI96 1998). Production has increased over the past decade and is projected to increase for the next several years due to an increased demand for 1,4-dichlorobenzene to be used in the production of polyphenylene sulfide (PPS) resins. Incineration is the recommended disposal method for 1,4-dichlorobenzene (HSDB 1998 IRPTC 1985). Disposal of this compound is controlled by... 

Production, Import/Export, Use, and Release and Disposal. Fuel oils are used primarily as heating oils and in engines (Air Force 1989). Most releases of fuel oils are the result of spills either on land or water (EPA 1981 Strayer et al. 1983). Few data are available on current production volumes for specific fuel oils such as fuel oil no. 4. Further information on the production volumes for each fuel oil, environmental releases, and disposal of fuel oils would aid in assessing the potential for human exposure as a result of accidental or intentional release. 

Production, Import/Export, Use, and Disposal. 2-Hexanone is no longer produced, imported, or used commercially in the United States (EPA 1987b). Any future manufacture or use is required to be reported to EPA (EPA 1987b). Data from these reports would be helpful in estimating the potential for human exposure to this compound. No data on disposal of 2-hexanone were located. 

Production, Import/Export, Use, Release, and Disposal. Hexachlorobutadiene is not produced for commercial purposes in the United States, however small amounts are imported from Germany. Hexachlorobutadiene is mainly produced as a by-product of chlorinated hydrocarbon synthesis and is a primary component of "hex-wastes" (EPA 1982b). Its uses as a pesticide and fumigant have been discontinued. Hexachlorobutadiene is disposed chiefly by incineration, and to a lesser extent by deep well injection and landfill operations (EPA 1982b). More recent production and release data would be helpful in estimating human exposure to hexachlorobutadiene. 

Import/export data on chlorites from the U.S. Department of Commerce are combined with data for hypochlorites and hypobromites (TTA 2002). Separate data on the impoit/export of chlorite were not located. 

Production, import/Export, Use, Reiease, and Disposai. Although the production of carbon tetrachloride has been declining, humans are at risk of exposure to the compound at specific industrial locations where the compound is used or near chemical waste sites where emission to the environment may occur. Available data indicate that most carbon tetrachloride manufactured in this country is consumed in the synthesis of chlorofluorocarbons, but current quantitative data on the amounts of carbon tetrachloride imported and exported into and from the United States are sparse (CEH 1985 HSDB 1992). According the the Emergency Planning and Community Right-to Know Act of 1986, 43 U.S.C. Section 11023, Industries are required to submit substance release and off-site transfer information to the ERA. The Toxic Release Inventory (TRI), which contains this information for 1990, became available in May of 1992. This database is updated yearly and should provide a list of industrial production facilities and emissions. 

Production, Import/Export, Use, and Disposal. No recent quantitative data were located on the production, import/export, use, or disposal of... 

Production, Import/Export, Use, Release, and Disposal. The available production, use, and release information for HDl is insufiBcient to determine the amoimt of HDl that may be present in the environment. There is a need for data on HDl production and import/export volmnes. The potential for... 

Polybrominated Diphenyl Ethers. Production and use data are available. More information for PBDEs is needed on import/export, release, and disposal. Soil is expected to be the medium with significant contamination due to disposal of PBDE-containing plastics in landfills. Although it is known that PBDE-containing plastics are disposed in landfills, the amount that is incinerated is not known. 

Import/Export of NMR data via local networks and conversion of the original data format to the WIN-NMR format... 

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