Big Chemical Encyclopedia

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

Articles Figures Tables About

Processes process complexity

Software base complexes are used for this purpose, which realize analytical restoration algorithms and various procedures of tomograms processing Program complexes ensure the control of a measuring process and dialoguing with the operator. [Pg.598]

While the classical approach to simulation of slow activated events, as described above, has received extensive attention in the literature and the methods are in general well established, the methods for quantum-dynamical simulation of reactive processes in complex systems in the condensed phase are still under development. We briefly consider electron and proton quantum dynamics. [Pg.15]

Xylenes. The main appHcation of xylene isomers, primarily p- and 0-xylenes, is in the manufacture of plasticizers and polyester fibers and resins. Demands for xylene isomers and other aromatics such as benzene have steadily been increasing over the last two decades. The major source of xylenes is the catalytic reforming of naphtha and the pyrolysis of naphtha and gas oils. A significant amount of toluene and Cg aromatics, which have lower petrochemical value, is also produced by these processes. More valuable p- or 0-xylene isomers can be manufactured from these low value aromatics in a process complex consisting of transalkylation, eg, the Tatoray process and Mobil s toluene disproportionation (M lDP) and selective toluene disproportionation (MSTDP) processes isomerization, eg, the UOP Isomar process (88) and Mobil s high temperature isomerization (MHTI), low pressure isomerization (MLPI), and vapor-phase isomerization (MVPI) processes (89) and xylene isomer separation, eg, the UOP Parex process (90). [Pg.52]

Practical appHcations have been reported for PVP/ceUulosics (108,119,120) and PVP/polysulfones (121,122) in membrane separation technology, eg, in the manufacture of dialysis membranes. Electrically conductive polymers of polyaruline are rendered more soluble and hence easier to process by complexation with PVP (123). Addition of small amounts of PVP to nylon 66 and 610 causes significant morphological changes, resulting in fewer but more regular spherulites (124). [Pg.532]

Consistent Data-Recording Procedures. Clear procedures for recording all pertinent data from the experiment must be developed and documented, and unambiguous data recording forms estabUshed. These should include provisions not only for recording the values of the measured responses and the desired experimental conditions, but also the conditions that resulted, if these differ from those plaimed. It is generally preferable to use the values of the actual conditions in the statistical analysis of the experimental results. For example, if a test was supposed to have been conducted at 150°C but was mn at 148.3°C, the actual temperature would be used in the analysis. In experimentation with industrial processes, process equiUbrium should be reached before the responses are measured. This is particularly important when complex chemical reactions are involved. [Pg.522]

The fixed capital estimate depends on the definition of the plant. A grass-roots plant is a complete faciUty at a new location, including all utihties, services, storage faciUties, land, and improvements. If a process plant is located at an existing processing complex, it can usually share some of these auxihary faciUties. A battery-limits plant is defined as the process faciUty itself, so that the auxiUaries, off-site, and land-related items are excluded from the fixed capital estimation. However, a battery-limits plant maybe assigned allocated capital charges for the share of common utihty and service faciUties used by the plant. [Pg.442]

At processing complexes, central utiUties and other faciUties are shared by several battery-limits process plants. The capital cost of a central utiUty is sometimes charged to the capital cost of each battery-limits plant as an allocated capital cost based on the unit capital cost of the utiUty faciUty and the units of capacity of the utiUty required by the plant. In this case, the use charge per unit consumed only covers operating expenses. The alternative is to recover utihty capital costs, as well as operating expense, in the unit usage charge. [Pg.443]

Nonmedical uses envisaged include as growth promoters, indicators for copying processes, analytical complexing agents, cyanine dyes and dye-bleaching catalysts. [Pg.262]

The mixed refrigerant cwcle was developed to meet the need for hq-uefying large quantities of natural gas to minimize transportation costs of this fuel. This cycle resembles the classic cascade cycle in principle and may best be understood by referring to that cycle. In the latter, the natural gas stream after purification is cooled successively by vaporization of propane, ethylene, and methane. Each refrigerant may be vaporized at two or three pressure levels to increase the natural gas coohng efficiency, but at a cost of considerable increased process complexity. [Pg.1129]

COMPUTER SIMULATION OF DYNAMIC PROCESSES IN COMPLEX ELECTROLYTIC MEDIA... [Pg.28]

Solution processes of complexes of Mo(VI), W(VI) and V(V) with BPR as well as these complexes in the presence of dodecylpyridiniy chloride from aqueous solutions on aminosilica gels surfaces have been considered. The presence of dodecylpyridiniy chloride increases significantly the sorption degree of metals and broadens pH range of their quantitative extraction. [Pg.277]

Mass Transfer Rale Consideralions - As discussed previously, the mass transfer mechanism involved in industrial adsorption processes is complex. Generally, basic physical data on the materials involved are insufficient for design. Experimental mass transfer rate data for the specific adsorbate-adsorbent system are usually required for good design. [Pg.465]

Since non-ideal gases do not obey the ideal gas law (i.e., PV = nRT), corrections for nonideality must be made using an equation of state such as the Van der Waals or Redlich-Kwong equations. This process involves complex analytical expressions. Another method for a nonideal gas situation is the use of the compressibility factor Z, where Z equals PV/nRT. Of the analytical methods available for calculation of Z, the most compact one is obtained from the Redlich-Kwong equation of state. The working equations are listed below ... [Pg.522]

The stability of the stock with respect to heat determines the maximum temperature which can be employed in the distillation process. The complexity of the process is also affected by the product purity demanded by product specifications or by the limitations of subsequent processing equipment. The relative values of the several products determine how much money can be spent in designing the unit for increased yields of the more valuable products. [Pg.71]

Selection of a PrHA methodology requires consideration of many factors including the availability of process information such as experience with the process, changes that have taken place, reliability, aging, maintenance, etc. If it is a new process, less reliance can be placed on experience and greater reliance must be placed on the analysis of possible accidents and accidents in similar or related processes. Size, complexity and hazard severity influences the dunce ot ihe most appropriate PrHA methodology. [Pg.70]

Any operation that relies on skills doesn t need a procedure. However, the operator will not be clairvoyant - you may need to provide procedures for straightforward tasks to convey special safety, handling, packaging, and recording requirements. You need to ensure that you don t make your processes so complex that bottlenecks arise when the slightest variation to plan occurs. The setting up of equipment, other than equipment typical of the industry, should be specified to ensure consistent results (see later in this chapter under Verification of job set-ups). In fact any operation that requires tasks to be... [Pg.353]

The behavior of simple and molecular ions at the electrolyte/electrode interface is at the core of many electrochemical processes. The complexity of the interactions demands the introduction of simplifying assumptions. In the classical double layer models due to Helmholtz [120], Gouy and Chapman [121,122], and Stern [123], and in most analytic studies, the molecular nature of the solvent has been neglected altogether, or it has been described in a very approximate way, e.g. as a simple dipolar fluid. Computer simulations... [Pg.358]

The foregoing investigations which demonstrate the equilibrium character of the primary step in methylation with diazomethane necessitate the additional assumption for Eq. (9) that the complex 1 shows the properties of an oriented ion pair (there is evidence " which can be thus interpreted) and the formation of 1 is reversible. It should be noted that in no stage of the process (including complex 1) is a mesomeric anion formed. A direct methylation is only possible when the compound retains a fixed structure throughout the reaction. [Pg.250]

The performance of VASP for alloys and compounds has been illustrated at three examples The calculation of the properties of cobalt dislicide demonstrates that even for a transition-metal compound perfect agreement with all-electron calculations may be achieved at much lower computational effort, and that elastic and dynamic properties may be predicted accurately even for metallic systems with rather long-range interactions. Applications to surface-problems have been described at the example of the. 3C-SiC(100) surface. Surface physics and catalysis will be a. particularly important field for the application of VASP, recent work extends to processes as complex as the adsorption of thiopene molecules on the surface of transition-metal sulfides[55]. Finally, the efficiciency of VASP for studying complex melts has been illustrate for crystalline and molten Zintl-phases of alkali-group V alloys. [Pg.80]

The process is complex and cannot be simplified into an ultimate balance condition, from which to work back to a supposed operating point, so factors are used for design and application which are based on similar apparatus. [Pg.262]

In the case of the evaporative condenser, the heat is input to the condenser coils, which are kept wet by the spray. The water acts both as a heat transfer medium and an evaporative coolant, and its temperature will vary through the stack of tubes. The overall process is complex and ratings are determined from practical tests on a complete condenser [16]. [Pg.262]

Thermal cracking takes place without a catalyst at temperatures up to 900 °C. The exact processes are complex, although they undoubtedly involve radical reactions. The high-temperature reaction conditions cause spontaneous homolytic breaking of C-C and C-H bonds, with resultant formation of smaller fragments. We might imagine, for instance, that a molecule of butane... [Pg.173]

Ammonium hydrofluoride is relatively stable, even in the molten state. In addition to being in contact with tantalum or niobium oxide, the compound will initiate the fluorination process yielding complex tantalum or niobium fluoride compounds. There is no doubt that thermal treatment of the hydroxides at high temperatures and/or at a high temperature rate leads to the enhancement of the defluorination processes, which in turn results in an increase in fluorine content of the final oxides. [Pg.302]

The processes of complex-ion formation referred to above can be described by the general term complexation. A complexation reaction with a metal ion involves the replacement of one or more of the coordinated solvent molecules by other nucleophilic groups. The groups bound to the central ion are called ligands and in aqueous solution the reaction can be represented by the equation ... [Pg.51]

PA-6,6 is made from the relatively expensive materials hexamethylene diamine and adipic acid. An alternative synthesis of PA-6,6 from adiponitrile and hexamethylene diamine utilizing water is under investigation.16 PA-6 can be synthesized in a continuous process at atmospheric pressure, but reaction times are very long as the ring-opening initiation step is particularly slow. The reaction time can be shortened considerably by carrying out prepolymerization in the presence of excess water at pressure however, this makes the continuous polymerization process more complex. Copolymers with amide units of uniform length (diamides) are relatively new the diamide units are able to crystallize easily and have a thermally stable crystalline structure. [Pg.137]


See other pages where Processes process complexity is mentioned: [Pg.40]    [Pg.2930]    [Pg.269]    [Pg.132]    [Pg.161]    [Pg.333]    [Pg.439]    [Pg.402]    [Pg.270]    [Pg.440]    [Pg.377]    [Pg.443]    [Pg.1547]    [Pg.1840]    [Pg.112]    [Pg.1182]    [Pg.213]    [Pg.413]    [Pg.174]    [Pg.816]    [Pg.285]    [Pg.160]    [Pg.188]    [Pg.6]    [Pg.105]   
See also in sourсe #XX -- [ Pg.3 ]




SEARCH



Adsorption processes, surface complexation

Adsorption processes, surface complexation mechanism

Atomic complexities processes

Biological processes coordination complexes

Cobalt complex charge-transfer process

Cobalt complexes imaging processes

Complex Event Processing

Complex Materials Mimicking Biological Processes

Complex Process Optimization

Complex biochemical processes

Complex distillation processes

Complex distillation processes adding

Complex distillation processes computer simulation

Complex distillation processes examples

Complex distillation processes residue curves

Complex distillation processes schematic

Complex distillation processes selecting

Complex distillation processes solvents

Complex interplay of processes

Complex methanation process

Complex processes, rate solved

Complex radical processes

Complex reactions physiological processes

Complex shaped-reinforced thermoplastic manufacturing process

Complex system rate processes

Complex systems data processing

Complexation processes

Complexation processes

Complexation processing

Complexation-elution process

Complexity of process

Complexity-shunt processes

Cooperative Phenomena in Complexation Processes

Crystallization processes complexity

Cyanide complexes process

Diffusion transfer process metal complexes

Documents Complex -. Processing

Electrochemical processes complexation degree

Electron-transfer processes in macrobicyclic complexes

Electropolymerization—A Complex Process Oversimplified

Heterogeneous process complex nonlinear interaction

Host-guest complexation process

Hydride transfer processes from metal complexes

Insertion processes complexes

Interfacial processes complexation

Interfacial processes complexation agents, effect

Intermolecular complex electron transfer process

Intersystem-crossing processes complexes

Its Basic Chemistry and Advantages as a Metal Complexation Process

Leach process complex

Ligand site environment, influence complexation process

Ligolytic Processes - Simple vs. Complex

Macromolecular metal complexes structuring process

Mechanisms Complex-Induced Proximity Effect Process, Kinetically Enhanced Metalation, and Overriding Base Mechanism

Mixed solvent effect on processes of complex formation

More Complex Processes

Nitrosyl complexes oxidative processes

Nitrosyl complexes reductive processes

Non-Equilibrium Processes Are Usually Complex

Nuclear pore complex processing

Nucleophilic substitution process Meisenheimer complex

Olefin complexes Wacker process

Other Units and Complex Processes

Platinum complexes intramolecular processes

Process Complexities in Scale-up

Process complex

Process complex

Process control, automatic complex systems

Processes complexity

Processes complexity

Processing complex shapes

Rubber compounds processing operation complexity

Ruthenium complex charge-transfer process

Spectrocalorimetric Screening for Complex Process Optimization

Stoichiometric processes with copper complexes

Substitution Processes in Dimeric Metal Complexes

Technological Schemes of Complex Oil, Gas and Condensate Processing Plants

Tetranuclear complexes, energy-transfer processes

The Rates of Complex Processes

The Role of Redox Processes in Reactions Catalyzed by Nickel and Palladium Complexes with Anionic Pincer Ligands

Transition Metal Complexes, Primary Processes in (Forster)

Transition metal complexes fundamental processes

Transition metal complexes intermolecular activation processes

Transition metal complexes primary processes

Understanding and Controlling Complex Chemical Processes

Will you be able to master the more complex processes

© 2024 chempedia.info