Big Chemical Encyclopedia

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

Articles Figures Tables About

Optimized schematic

Fig. 2. Schematic of a segmented thermocouple. Each segment of each leg must be optimized in size for the design temperatures. Fig. 2. Schematic of a segmented thermocouple. Each segment of each leg must be optimized in size for the design temperatures.
Figure 3 A schematic representation of two optimization schemes, (a) Minimization, which leads to the closest local minimum (h) simulated annealing, which can overcome intermediate energy haiTiers along its path. Figure 3 A schematic representation of two optimization schemes, (a) Minimization, which leads to the closest local minimum (h) simulated annealing, which can overcome intermediate energy haiTiers along its path.
The chain arrangement of this morphology was schematically proposed as in Fig. 10. The cell of the microsphere has a hexagonal surface, and the AB diblock copolymers form a bilayer between the microspheres. From this schematic arrangement, the optimal blend ratio of the AB block copolymer in this system was calculated as 0.46. This value was very close to the blend ratio of the AB type block copolymer 0.5 at which the blend showed the hexagonal packed honeycomb-like structure. [Pg.606]

The calibration-design-dependent LOD approach, - namely the use of the confidence limit function, is endorsed here for reasons of logical consistency, response to optimization endeavors, and easy implementation. Fig. 2.14 gives a (highly schematic) overview ... [Pg.116]

The traditional approach to optimize a process is schematically shown in Figure 2 its principle elements are the development of a model, model validation, definition of an objective function and an optimizing algorithn. The "model" can be (a) theoretical, (b) empirical or (c) a combination of the two. [Pg.100]

When trade-offs exist, no single compound will stand out uniquely as the optimum drug for the market, ranked hrst on all measures of performance. Rather, a set of compounds will be considered that, on current knowledge, span the optimal solution to the problem. These compounds are those for which there is no other compound that offers equivalent performance across all criteria and superior performance in at least one. In multicriteria decision analysis (MCDA) terminology, they are known as Pareto-optimal solutions. This concept is illustrated by the two-criteria schematic in Figure 11.3. [Pg.256]

Figure 48-12. Schematic illustration of some aspects of the role of the osteoclast in bone resorption. Lysosomal enzymes and hydrogen ions are released into the confined microenvironment created by the attachment between bone matrix and the peripheral clear zone of the osteoclast. The acidification of this confined space facilitates the dissolution of calcium phosphate from bone and is the optimal pH for the activity of lysosomal hydrolases. Bone matrix is thus removed, and the products of bone resorption are taken up into the cytoplasm of the osteoclast, probably digested further, and transferred into capillaries. The chemical equation shown in the figure refers to the action of carbonic anhydrase II, described in the text. (Reproduced, with permission, from Jun-queira LC, Carneiro J BasicHistology. Text Atlas, 10th ed. McGraw-Hill, 2003.)... Figure 48-12. Schematic illustration of some aspects of the role of the osteoclast in bone resorption. Lysosomal enzymes and hydrogen ions are released into the confined microenvironment created by the attachment between bone matrix and the peripheral clear zone of the osteoclast. The acidification of this confined space facilitates the dissolution of calcium phosphate from bone and is the optimal pH for the activity of lysosomal hydrolases. Bone matrix is thus removed, and the products of bone resorption are taken up into the cytoplasm of the osteoclast, probably digested further, and transferred into capillaries. The chemical equation shown in the figure refers to the action of carbonic anhydrase II, described in the text. (Reproduced, with permission, from Jun-queira LC, Carneiro J BasicHistology. Text Atlas, 10th ed. McGraw-Hill, 2003.)...
When considering the morphology of prepared electro-catalysts are different to each other especially to the commercial one, one can think that the structure of electrode which was optimized to the commercial catalyst may not be optimum. So, the for the better electrode structures was conducted by investigating the effect of NFP. Fig. 2 is a schematic of electrode which depicts the effect of Nafion content[9]. For the conventional electrocatalysts, the range of 30 35 % NFP is reported as optimum value[10]. [Pg.639]

Fig. 2. Schematic representation of electrodes, (a) Content of Nafion too low not enough catalysts with ionic connection to membrane, (b) Optimal Nafion content electronic and ionic connections well balanced, (c) Content of Nafion too high catalyst particles electronically isolated from diflusion layer. Reproduced from [9]. Fig. 2. Schematic representation of electrodes, (a) Content of Nafion too low not enough catalysts with ionic connection to membrane, (b) Optimal Nafion content electronic and ionic connections well balanced, (c) Content of Nafion too high catalyst particles electronically isolated from diflusion layer. Reproduced from [9].
Figure 8.24. Left schematic diagram of an adiabatical three-bed, indirectly cooled reactor with two heat exchangers. Right a diagram showing the equilibrium curve to the upper right, the optimal operating line and the operation line for the reactor are to the left. [Adapted from C.J.H. Jacobsen, S. Dahl, A. Boisen, B.S. Clausen,... Figure 8.24. Left schematic diagram of an adiabatical three-bed, indirectly cooled reactor with two heat exchangers. Right a diagram showing the equilibrium curve to the upper right, the optimal operating line and the operation line for the reactor are to the left. [Adapted from C.J.H. Jacobsen, S. Dahl, A. Boisen, B.S. Clausen,...
Figure 1.6 Presynaptic inhibition of the form seen in the dorsal horn of the spinal cord, (a) The axon terminal (i) of a local neuron is shown making an axo-axonal contact with a primary afferent excitatory input (ii). (b) A schematic enlargement of the synapse, (c) Depolarisation of the afferent terminal (ii) at its normal resting potential by an arriving action potential leads to the optimal release of neurotransmitter, (d) When the afferent terminal (ii) is already partially depolarised by the neurotransmitter released onto it by (i) the arriving acting potential releases less transmitter and so the input is less effective... Figure 1.6 Presynaptic inhibition of the form seen in the dorsal horn of the spinal cord, (a) The axon terminal (i) of a local neuron is shown making an axo-axonal contact with a primary afferent excitatory input (ii). (b) A schematic enlargement of the synapse, (c) Depolarisation of the afferent terminal (ii) at its normal resting potential by an arriving action potential leads to the optimal release of neurotransmitter, (d) When the afferent terminal (ii) is already partially depolarised by the neurotransmitter released onto it by (i) the arriving acting potential releases less transmitter and so the input is less effective...
Fig. 5.7. Simplified schematic flow chart for the optimization of the parameters of the bond length and bond angle potentials. The input parameters from the chemically realistic model are the moments (L), (L2), ( ), (02), (LG) taken from the bond length and bond angle distributions, and the reduced effective barrier (W) from the torsion potentials. From Tries [184]... [Pg.124]

Fig. 2.6.7 General principle of time-of-flight flow detection, (a) Schematic of a set-up for TOF experiments. An object of interest is placed inside an environment optimized for encoding (field gradients not shown). As the sensor medium flows out of the analyte object, its magnetization is recorded with a second coil with a smaller volume, which is placed as close to the encoding volume as possible, (b) Generic pulse sequence used for TOF experiments. Encoding along one dimension can be done by inverting the magnetization of a slice... Fig. 2.6.7 General principle of time-of-flight flow detection, (a) Schematic of a set-up for TOF experiments. An object of interest is placed inside an environment optimized for encoding (field gradients not shown). As the sensor medium flows out of the analyte object, its magnetization is recorded with a second coil with a smaller volume, which is placed as close to the encoding volume as possible, (b) Generic pulse sequence used for TOF experiments. Encoding along one dimension can be done by inverting the magnetization of a slice...
Fig. 5.6. Schematic representation of the Box-Wilson optimization with step width h... [Pg.141]

Figure 11. (a) Schematic drawings of the singly occupied it molecular orbital in the three A" states of planar azacycloheptatrienylidene (4b). (b) CASSCF(8,8)/6-31 G" optimized geometries of the four spin states of 4b, showing approximate it bonding patterns.61... [Pg.232]

See other pages where Optimized schematic is mentioned: [Pg.241]    [Pg.181]    [Pg.139]    [Pg.199]    [Pg.249]    [Pg.27]    [Pg.227]    [Pg.4]    [Pg.469]    [Pg.18]    [Pg.249]    [Pg.305]    [Pg.332]    [Pg.287]    [Pg.183]    [Pg.134]    [Pg.93]    [Pg.98]    [Pg.274]    [Pg.39]    [Pg.179]    [Pg.160]    [Pg.102]    [Pg.947]    [Pg.284]    [Pg.289]    [Pg.195]    [Pg.236]    [Pg.465]    [Pg.437]    [Pg.83]    [Pg.37]    [Pg.278]    [Pg.419]    [Pg.83]   
See also in sourсe #XX -- [ Pg.1299 ]



SEARCH



© 2024 chempedia.info