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Variables affecting rate

Miscellaneous Methods At the beginning of this section we noted that kinetic methods are susceptible to significant errors when experimental variables affecting the reaction s rate are difficult to control. Many variables, such as temperature, can be controlled with proper instrumentation. Other variables, such as interferents in the sample matrix, are more difficult to control and may lead to significant errors. Although not discussed in this text, direct-computation and curve-fitting methods have been developed that compensate for these sources of error. ... [Pg.632]

Vapor Pressures and Adsorption Isotherms. The key variables affecting the rate of destmction of soHd wastes are temperature, time, and gas—sohd contacting. The effect of temperature on hydrocarbon vaporization rates is readily understood in terms of its effect on Hquid and adsorbed hydrocarbon vapor pressures. For Hquids, the Clausius-Clapeyron equation yields... [Pg.47]

The most important variables affecting nucleation rate are shown by equations 10 and 11 to be iaterfacial eaergy, temperature, and supersaturation. [Pg.342]

What is the most meaningful way to express the controllable or independent variables For example, should current density and time be taken as the experimental variables, or are time and the product of current density and time the real variables affecting response Judicious selection of the independent variables often reduces or eliminates interactions between variables, thereby leading to a simpler experiment and analysis. Also inter-relationships among variables need be recognized. For example, in an atomic absorption analysis, there are four possible variables air-flow rate, fuel-flow rate, gas-flow rate, and air/fuel ratio, but there are really only two independent variables. [Pg.522]

Three examples of simple multivariable control problems are shown in Fig. 8-40. The in-line blending system blends pure components A and B to produce a product stream with flow rate w and mass fraction of A, x. Adjusting either inlet flow rate or Wg affects both of the controlled variables andi. For the pH neutrahzation process in Figure 8-40(Z ), liquid level h and the pH of the exit stream are to be controlled by adjusting the acid and base flow rates and w>b. Each of the manipulated variables affects both of the controlled variables. Thus, both the blending system and the pH neutralization process are said to exhibit strong process interacHons. In contrast, the process interactions for the gas-liquid separator in Fig. 8-40(c) are not as strong because one manipulated variable, liquid flow rate L, has only a small and indirec t effect on one controlled variable, pressure P. [Pg.736]

The extent to which each of the above reactions occur is strongly influenced by feed quality and the levels selected for the major process variables pressure, temperature, recycle rate, and frequency of regeneration. From a process viewpoint, these variables affect catalyst requirement, gasoline yield, and coke make. [Pg.51]

The primary process variables affecting the economics of sulfuric acid alkylation are the reaction temperature, isobutane recycle rate, reactor space velocity, and spent acid strength. To control fresh acid makeup, spent acid could be monitored by continuously measuring its density, the flow rate, and its temperature. This can reduce the acid usage in alkyla-tion units. [Pg.87]

Now that we have a good picture of how SN2 reactions occur, we need to see how they can be used and what variables affect them. Some SN-2 reactions are fast, and some are slow some take place in high yield and others, in low yield. Understanding the factors involved can be of tremendous value. Let s begin by recalling a few things about reaction rates In general. [Pg.365]

In practice, even though with the developments that has occurred in the past and continues this perfect stable situation is never achieved and there are variables that affects the output. If the process is analyzed one can decide that two types of variables affect the quality and output rate. They can be identified as (1) the variables of the machine s design and manufacture and (2) the operating or dynamic variables that control how the machine is run. [Pg.447]

Physical conditions. Temperature and pressure affect rates. Both are usually maintained constant in a given determination. The effects of these variables will be taken up in Chapter 7. [Pg.9]

Why is it necessary to have a balance between the rates of crosslinking and expansion when manufacturing a foamed polyurethane What variables affect these rates ... [Pg.399]

Variables Affecting Measurement Flow measurement methods may sense local fluid velocity, volumetric flow rate, total or cumulative volumetric flow (the integral of volumetric flow rate with respect to elapsed time), mass flow rate, and total mass flow. [Pg.11]

Numerous tests exist for determining ignition temperature, but few of them give the same result. Results may vary as much as 100° depending on the method used, on the rate of heating, on the size of the sample used, on the state of division etc. See Thermal Explosions for a discussion of why measurement variables affect ignition temp results... [Pg.290]

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Rate variables

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