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Flow to study

In industrial applications, emulsions are often obtained by exerting a crude stirring, made of a very complex combination of extensional and shearing flows. To study and understand the fragmentation process, the flow must be simplifled before... [Pg.18]

The nervous system has proven useful for the study of another timely problem that of intracellular distribution of enzymes and substrates of structural lipid formation and degradation in eukaryotic cells and the mechanisms of their assembly into membranes. The neuron constitutes a particularly useful model, by virtue of its peculiar shape. Because its axon may be larger than the perikaryon by several magnitudes, we can take advantage of the process of axonal flow to study the rate of appearance of labeled lipid at some distance from sites of synthesis. [Pg.191]

As follows from (9) there is solution h = l q = I corresponding to a waveless flow. To study linear stability the perturbed solution in form h = 1 h, q = 1 - - q is considered where... [Pg.194]

Temperature programmed desorption experiments (TPD) were used to quantify the amount of CO, and CO evolved upon heat treatment in He flow to study the effectiveness of the carbon oxidizing treatment. [Pg.368]

Flow tube studies of ion-moleeule reaetions date baek to the early 1960s, when the flowing afterglow was adapted to study ion kineties [85]. This represented a major advanee sinee the flowing afterglow is a thennal deviee under most situations and previous instruments were not. Smee that time, many iterations of the ion-moleeule flow tube have been developed and it is an extremely flexible method for studying ion-moleeule reaetions [86, 87, 88, 89, 90, 91 and 92]. [Pg.808]

Another powerftil class of instmnientation used to study ion-molecule reactivity is trapping devices. Traps use electric and magnetic fields to store ions for an appreciable length of time, ranging from milliseconds to thousands of seconds. Generally, these devices mn at low pressure and thus can be used to obtain data at pressures well below the range in which flow tubes operate. [Pg.810]

During the course of these studies the necessity arose to study ever-faster reactions in order to ascertain their elementary nature. It became clear that the mixing of reactants was a major limitation in the study of fast elementary reactions. Fast mixing had reached its high point with the development of the accelerated and stopped-flow teclmiques [4, 5], reaching effective time resolutions in the millisecond range. Faster reactions were then frequently called inuneasurably fast reactions [ ]. [Pg.2114]

Almost all aspects of the field of chemistry involve tire flow of energy eitlier witliin or between molecules. Indeed, tire occurrence of a chemical reaction between two species implies tire availability of some minimum amount of energy in tire reacting system. The study of energy transfer processes is tluis a topic of fundamental importance in chemistry. Energy transfer in gases is of particular interest partly because very sophisticated methods have been developed to study such events and partly because gas phase processes lend tliemselves to very complete and detailed tlieoretical analysis. [Pg.2996]

Thermochemical Liquefaction. Most of the research done since 1970 on the direct thermochemical Hquefaction of biomass has been concentrated on the use of various pyrolytic techniques for the production of Hquid fuels and fuel components (96,112,125,166,167). Some of the techniques investigated are entrained-flow pyrolysis, vacuum pyrolysis, rapid and flash pyrolysis, ultrafast pyrolysis in vortex reactors, fluid-bed pyrolysis, low temperature pyrolysis at long reaction times, and updraft fixed-bed pyrolysis. Other research has been done to develop low cost, upgrading methods to convert the complex mixtures formed on pyrolysis of biomass to high quaHty transportation fuels, and to study Hquefaction at high pressures via solvolysis, steam—water treatment, catalytic hydrotreatment, and noncatalytic and catalytic treatment in aqueous systems. [Pg.47]

The volatile content of the treated paper is important because moisture acts as a temporary plasticizer to promote resin flow during early stages of pressing (9). Dynamic mechanical analysis of the treated paper is a very useful means to study the initial flow stages of a resin and the cure time required to complete cross-linking (10). [Pg.533]

Large Fans These could be used to dilute a vapor cloud below its LFL with ambient air (see, for example, Whiting and Shaffer, Feasi-bihty Study of Hazardous Vapor Amelioration Techniques, Proc. 1978 Nat. Conf. on Control of Hazardous Material Spills, USEPA, Miami Beach, April 1978). But caution must be exercised because the turbulence produced by fans will likely promote rapid combustion and a resulting UVCE unless vapors are diluted below the LFL. Nevertheless, in new plants, strategic placement of air coolers may provide enough air flow to reduce the risk of a UVCE. [Pg.2321]

Design Institute for Emergeney Relief Systems (DIERS) Institute under the auspices of the American Institute of Chemical Engineers founded to study relief requirements for reactive chemical systems and two-phase flow systems. [Pg.160]

Tubular reactors have been the main tools to study continuous flow processes for vapor or gas-phase reactions. These are also used for reaction in tv o flowing phases over a solid catalyst. When the catalyst is in a fixed bed, the contact between the liquid on the outside surface of the particulate is uncertain. For slurry-type solid catalyst the residence time of the catalyst or the quantity in the reactor volume can be undefined. [Pg.31]

Various experimental methods to evaluate the kinetics of flow processes existed even in the last centuty. They developed gradually with the expansion of the petrochemical industry. In the 1940s, conversion versus residence time measurement in tubular reactors was the basic tool for rate evaluations. In the 1950s, differential reactor experiments became popular. Only in the 1960s did the use of Continuous-flow Stirred Tank Reactors (CSTRs) start to spread for kinetic studies. A large variety of CSTRs was used to study heterogeneous (contact) catalytic reactions. These included spinning basket CSTRs as well as many kinds of fixed bed reactors with external or internal recycle pumps (Jankowski 1978, Berty 1984.)... [Pg.53]

A preliminary estimate is useful for the linear velocity to be used on the catalyst under study. The linear flow is known for an existing process. For a new process, it can be estimated from flow used in similar processes. An estimate can also be developed for the minimum flow to avoid gradients from calculations (to be presented in Appendix C.)... [Pg.67]

First it is important to study how the gradual conversion of soda will influence the rate of reaction. Initially, keep all other conditions constant that can influence the rate oxygen and water concentration, and the mole fraction of TCE in the reactor. This last is the same as the TCE in the discharge flow from the reactor. [Pg.95]

Startup flow to the expander is designed to be supplied from the discharge of the compressor through a throttle valve and cooler. A careful study of the characteristics of the compressor blow-off valve and the expander startup valve was performed by Solvay process engineers. Based on these calculations, the startup cooler and valve were sized to supply the minimum required flow to tlie expander wheel. [Pg.456]

To study the effeet of laminar flow, the blades were slotted as shown in Figure 7-9. For the blade treatment easeade rig experiment, a plexiglass easeade was designed and built. Figure 7-10 shows the easeade. This easeade... [Pg.285]

The same water tunnel was used for tests to study the effect of casing treatment in axial-flow compressors. In this study, the same Reynolds number and specific speeds were maintained as those experienced in an actual axial-flow compressor. [Pg.286]

VFO works well in gas turbines. In a nine-month test program, the combustion properties of VFO were studied in a combustion test module. A gas turbine was also operated on VFO. The tests were conducted to study the combustion characteristics of VFO, the erosive and corrosive effects of VFO, and the operation of a gas turbine on VFO. The combustion tests were conducted on a combustion test module built from a GE Frame 5 combustion can and liner. The gas turbine tests were conducted on a Ford model 707 industrial gas turbine. Both the combustion module and gas turbine were used in the erosion and corrosion evaluation. The combustion tests showed the VFO to match natural gas in flame patterns, temperature profile, and flame color. The operation of the gas turbine revealed that the gas turbine not only operated well on VFO, but its performance was improved. The turbine inlet temperature was lower at a given output with VFO than with either natural gas or diesel fuel. This phenomenon is due to the increase in exhaust mass flow provided by the addition of steam in the diesel for the vaporization process. Following the tests, a thorough inspection was made of materials in the combustion module and on the gas turbine, which came into contact with the vaporized fuel or with the combustion gas. The inspection revealed no harmful effects on any of the components due to the use of VFO. [Pg.451]

See other pages where Flow to study is mentioned: [Pg.244]    [Pg.271]    [Pg.382]    [Pg.747]    [Pg.371]    [Pg.244]    [Pg.271]    [Pg.382]    [Pg.747]    [Pg.371]    [Pg.414]    [Pg.809]    [Pg.1846]    [Pg.3035]    [Pg.287]    [Pg.107]    [Pg.110]    [Pg.266]    [Pg.93]    [Pg.88]    [Pg.150]    [Pg.152]    [Pg.132]    [Pg.192]    [Pg.409]    [Pg.517]    [Pg.506]    [Pg.246]    [Pg.153]    [Pg.170]    [Pg.704]    [Pg.2146]    [Pg.161]    [Pg.798]    [Pg.204]    [Pg.367]   
See also in sourсe #XX -- [ Pg.146 ]



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Flow Regimes and Corresponding Devices Used to Study in Vitro Platelet Aggregation

Flow studies

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