Big Chemical Encyclopedia

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

Articles Figures Tables About

Calendaring: defined

The facility manufactured (defined to include imported), processed, or otherwise used any listed chemical in quantities equal to orgreaterthan the established threshold in the course of a calendar year. [Pg.22]

A ull-time employee," for purposes of section 313 reporting, is defined as 2,000 work hours per year. To determine the number of full-time employees atyourfacility, add up the hours worked by all employees during the calendar year, including contract employees and sales and support staff working at the facility and divide the total by 2,000 hours. In other words, if the total numter of hours worked by all employees is 20,000 hou rs or more, your facility meets the ten employee threshold. [Pg.24]

The recommended initial step is to determine the duration of the study period for the analysis by first defining a start date. The end date is determined by the maintenance records. For computerized systems, the last update of the overall system provides the end date. For manual systems, it may be necessary to define an end date to accommodate the lag time in updating records. The start and end dates define the maximum calendar time that a piece of equipment is available for service. The operating time for this equipment will be equal to or less than the calendar period, depending on plant operations and the equipment s operating mode. [Pg.219]

Insertion (intercalation) compounds. Insertion compounds are defined as products of a reversible reaction of suitable crystalline host materials with guest molecules (ions). Guests are introduced into the host lattice, whose structure is virtually intact except for a possible increase of some lattice constants. This reaction is called topotactic. A special case of topotactic insertion is reaction with host crystals possessing stacked layered structure. In this case, we speak about intercalation (from the Latin verb intercalare, used originally for inserting an extra month, mensis intercalarius, into the calendar). [Pg.327]

A static invariant is expected to hold before and after the actions in its range. Sometimes, an effect is required to be true of all the actions in its range. For example, suppose we want to count every operation invocation on our calendar. An effect invariant defines an effect that is invariant across all actions in its range and is implicitly anded to the postconditions... [Pg.132]

Periods l e T are discrete planning buckets as defined in the planning framework. Default bucket is one month. The planner defines a starting period tj e T and an ending period tTeT. The number of period days and period hours ht, /te T is defined according to the calendar. [Pg.144]

These phases are defined by the number of hydrogen cars on the roads rather than by calendar years. A connection to calendar years can be established through the hydrogen-vehicle market-penetration curves elaborated by the automotive industry (see Fig. 14.5). The infrastructure analysis focuses on the early phase of hydrogen deployment, with a relatively low penetration of hydrogen vehicles because regional aspects are crucial in this phase. [Pg.402]

A third type of error is the systematic error that cannot be defined in statistical terms. Systematic error is treated by analyzing reference samples to establish corrections. The calibration procedure can produce calendar dates that have large error ranges even when the conventional 14C age is known with very high precision (13). [Pg.310]

The technique owes its name to the notion of inserting an extra day into the calendar (Whittingham and Jacobson, 1982). The term is used extensively in biochemistry to describe the insertion of one molecular fragment into the space defined by another (Mathews et al., 2000). The most important example is the intercalation of ethidium bromide, a planar molecular species, as shown in Figure 12.9, into the space defined by two DNA base pairs. In materials synthesis, the most extensively smdies intercalation reactions have involved graphite. [Pg.510]

Consider the following proposal for a decimal calendar. The fundamental unit is the decimal year (Yr), equal to the number of conventional (SI) seconds required for the earth to complete a circuit of the sun. Other units are defined in the table below. Develop, where possible, factors for converting decimal calendar units to conventional calendar units. Discuss pros and cons of the proposal. [Pg.17]

Article 4 defines the legal timings. The Transparency Commission has to provide advice to the applicant within 30 calendar days. The applicant then gets 20 calendar days to respond or bring a complaint against this first opinion. The Transparency Commission has 20 days to transmit its definitive advice to the Minister of Public Health. The Minister of Public Health has to transmit the advice to the MA holder and to the Minister of Social Affairs and of Economic Affairs. The Trcins-parency Commission also has the right to consult appointed specialists. [Pg.49]

Exposure patterns, which usually reflect the time (e.g., hours day, days per calendar year) and location (e.g., geographical, microenvironment) relationship between sources of exposure (e.g., motor vehicles, home appliances, consumer products, and drinking water) and human activity patterns. Human activity patterns include where and how much time people spend in defined microenvironments during a given day. Further, it can be important to characterize their specific microactivities within a given microenvironment, e.g., the frequency of a 1-2-year-old child s hand-to-mouth... [Pg.1115]

Four time points have been defined in the OECD Principles for start and end of a study. The so-called study initiation and study completion dates do not contain any ambiguities that could give rise to interpretation difficulties. The dates when the Study Director signs study plan and final report are unambiguous calendar dates, and they clearly mark the two time points between which a study has been conducted. However, more difficulties are encountered with the experimental starting and completion dates for themselves and for their connection with initiation and termination dates. [Pg.85]

When rubber is deformed during processing operations such as extrusion or calendaring, its inherent elasticity will cause some subsequent recovery. A fundamental material constant characterizing this tendency is, defined in Eqs. (6.12) and (6.14). Elastic recovery is also reflected in die swell, D, defined as the ratio of the flnal and initial dimensions perpendicular to the flow. Die swell is governed by the normal force, although predictions of D for an arbitrary deformation are not possible. However, for steady-state flow there are approximate relations between D and the first (primary) normal force (Tanner, 1970),... [Pg.327]

The buyer of protection pays to the seller a periodic premium, often quarterly, and expressed on a per annum basis. The actual cash amounts of all future premium payments are always known, since the terms of the default swap are set on the trade date. Therefore, we can think of these payments as a series of cash flows and value them according to the method above. We define d to be a function representing the number of calendar days since the inception of the default swap. We then define an integer variable / to represent each premium payment date, such that d is a function of /, d(j). Time is also a function of /, and that is simply the number of years from t = 0 until t = j For our sample 2-year credit default swap, the dates are shown in Exhibit 22.2. [Pg.695]

This situation can be modeled in different fashions. A first option consists in defining a maximum calendar time tum, after which the inescapabUity of aging is observable in the following ways even if the effective age of the component still Ues below the elasticity limit, the rejuvenation obtained by a maintenance action does no longer allow to reach the target state above the elasticity setpoint, the maintenance efficiency is further reduced. [Pg.496]

The year is not commensurable with the date and not a constant. Prior to 1967, when the atomic standard was introduced, the tropical year 1900 served as the basis for the definition of the second. For the epoch 1900.0, it amounted to 365.242 198 79d 31 556 925.975 s and it decreases by 0.530 seconds per century. The calendar years are exactly defined in terms of the day ... [Pg.5263]

X-ray equipment other than a fully shielded instrument may be operated only in a room enclosed on all sides and designated as an X-ray room. The controlled access area is defined as an area where persons can receive more than 15 mSv (1.5 rem) in a calendar year as whole-body exposure the corresponding figure for the monitored area is 5 mSv. [Pg.393]

The facility manufactmes (defined to include importing), processes, or otherwise uses an EPCRA Section 313 chemical in quantities greater than the established threshold in the comse of a calendar year. [Pg.546]

Define Shifts and Calendars. Most CMMSs are capable of bnilding craft and individual-level resource calendars to keep track of craft personnel avaUabihty. [Pg.21]

See other pages where Calendaring: defined is mentioned: [Pg.477]    [Pg.607]    [Pg.666]    [Pg.341]    [Pg.211]    [Pg.504]    [Pg.250]    [Pg.177]    [Pg.399]    [Pg.1642]    [Pg.237]    [Pg.709]    [Pg.88]    [Pg.91]    [Pg.91]    [Pg.440]    [Pg.208]    [Pg.136]    [Pg.477]    [Pg.823]    [Pg.269]    [Pg.273]    [Pg.6736]    [Pg.688]    [Pg.237]    [Pg.329]   
See also in sourсe #XX -- [ Pg.1402 , Pg.1493 ]



SEARCH



Calendar

Calendaring

© 2024 chempedia.info