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U.S. Government Printing Office, Aluminum Forming Point Source Category, Code of Federal Regulations, Title 40, Vol. 27, Part 467, U.S. GPO, Washington, DC, July 1, 2003. [Pg.228]

Table 8.3. EPA s conventional and non-conventional pollutant categories (code of Federal Regulations, Title 40)... Table 8.3. EPA s conventional and non-conventional pollutant categories (code of Federal Regulations, Title 40)...
Category Code Brazilian State AC AP AM MA MT PA RO RR TO/GO Area (Weighted Mean) ... [Pg.176]

Water Body Category Code SWB Surface Water Body (RW river LW lake CW coastal water TW transitional water MW marine water) GWB Groundwater body (GW groundwater) WFD, SOE Cat. 1 ... [Pg.393]

Hazard Qass and Category Code(s) Danger categories ... [Pg.52]

Hazard Class and Category Code(s) Hazard Statement Code(s) Pictogram, Signal Word Code(s) Hazard statement Code(s) ... [Pg.60]

Figure 37-10. Example of a bar chart comparing injuries classified by numerical category codes. Figure 37-10. Example of a bar chart comparing injuries classified by numerical category codes.
CoiTosivity is expressed as the number part of the corrosivity category code (e.g., I instead C I) according to Table 6 in ISO 9223. [Pg.134]

Select the one (most) direct cause and the root (basic) cause (the one for which corrective action will prevent recurrence and have the greatest, most widespread effect). In cause selection, focus on programmatic and system deficiencies and avoid simple excuses such as blaming the employee. Note that the root (basic) canse mnst be an explanation (the why) of the direct cause, not a repeat of the direct canse. In addition, a cause description is not just a repeat of the category code description it is a description specific to the occurrence. Also, up to three (contributing or indirect) causes may be selected. Describe the corrective actions selected to prevent recurrence, including the reason why they were selected, and how they will prevent recurrence. Collect additional information as necessary. [Pg.130]

Note that the EMEA process described here requires the entry of probability, severity, and risk codes. The example of a risk assessment matrix shown in Table 13, and the Risk Category Codes, given in the nearby text fulfill the needs for traditional FMEA purposes. A Eailure Modes and Effects Analysis form on which those codes would be entered is provided in Addendum C at the end of this chapter, courtesy of A-P-T Research, Inc. [Pg.129]

Listed as a persistent bioaccumulative and toxic (PBT) chemical that is manufactured, processed, or otherwise used at your facility above the designated threshold for that chemical. Names of PBT chemicals, CAS Registry numbers, category codes for chemical categories, and reporting thresholds are listed in 40 CFR 372. [Pg.548]

The Model entity, in the RAVEN environment, represents a connection pipeline between the input and the output space. The RAVEN framework does not own any physical model (i.e. it does not posses the equations needed to simulate a generic system), but implements APIs by which any generic model can be integrated and interrogated. The RAVEN framework provides APIs for three different model categories Codes, Externals and ROMs. [Pg.763]

Applicable risk category codes, (if such codes have been defined by the organization) ... [Pg.107]

Crude estimates were obtained by regressing MDI scores on cord blood lead category coded as an ordinal scale (1 = low, 2 = mid, 3 = high)... [Pg.349]

In the following discussion, attention is focused on the application of thermal-hydraulic system codes. Under this category codes like APROS, ATHLET, CATHARE, RELAP5 and TRAC are included, all based upon the solution of a main system of six partial differential equations. Two main fields, one per each of the two phases liquid and steam are considered and coupling is available with the solution of the conduction heat transfer equations within solids interfaced with the fluid phases. A one-dimensional solution for the characteristics of the fluid is achieved in the direction of the fluid motion in time dependent conditions. It should be emphasized that more sophisticate models are also available including three-dimensional solutions and multi-field approaches in two and multiphase fluids. However the present qualification level of those sophisticated computational tools is questionable as well as their actual need in the design or in the safety applications. [Pg.26]

See other pages where Category Code is mentioned: [Pg.194]    [Pg.336]    [Pg.337]    [Pg.337]    [Pg.339]    [Pg.340]    [Pg.340]    [Pg.341]    [Pg.341]    [Pg.194]    [Pg.405]    [Pg.175]    [Pg.179]    [Pg.291]    [Pg.1433]    [Pg.253]    [Pg.253]    [Pg.85]    [Pg.154]    [Pg.238]    [Pg.32]    [Pg.32]    [Pg.33]   
See also in sourсe #XX -- [ Pg.238 ]



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