Temperature raised

The last equation explains the funetion of the limestone. An older process, in which the ore was partially roasted, the air shut off and the temperature raised so that excess sulphide reacted with the oxide produced to give lead, is now obsolete. 

Other conventions for treating equiUbrium exist and, in fact, a rigorous thermodynamic treatment differs in important ways. Eor reactions in the gas phase, partial pressures of components are related to molar concentrations, and an equilibrium constant i, expressed directiy in terms of pressures, is convenient. If the ideal gas law appHes, the partial pressure is related to the molar concentration by a factor of RT, the gas constant times temperature, raised to the power of the reaction coefficients. 

Fig. 2. Situation with interactions between variables, where in (a) an increase in temperature is beneficial for preparation A but does not make any difference for preparation B, and (b) an increase in temperature raises time to mpture for preparation A but decreases it for preparation B.

In a typical process a jacketed still fitted with a stirrer and reflux condenser in charged with 240 parts 37% w/w (40% w/v) formalin and the pH adjusted to 8.0-8.5 using sodium carbonate solution with the aid of a pH meter. One hundred and twenty six parts of melamine (to give a melamine formaldehyde ratio of 1 3) are charged into the still and the temperature raised to 85°C. The melamine goes into solution and forms methylol derivatives. For treatment of fabrics, paper and leather this product may be diluted and cooled for immediate use. It may also be spray dried to give a more stable product. Cooling the solution would yield crystalline trimethylolmelamine, which may be air dried but which is less soluble in water than the spray-dried product. 

The green cokes were calcined by placing a weighed amount of green coke into an alumina tube. The tube was fitted with end caps to allow for a constant purge of nitrogen. The alumina tube was then inserted into a high-temperature furnace and the temperature raised to about 1000°C for a period between 30 and 60 minutes. The furnace was turned off, cooled to room temperature, and the product recovered to determine the calcined coke yield. 

Anthranilic acid (1 part) is dissolved in acetic anhydride (2 parts) and the temperature raised progressively to 190° to 200°C while distillation takes place. The last traces of acetic acid are removed under vacuum and, after cooling to about. 50° to 60°C, o-toluidine (1 part) is added in portions. 

A test for evaluating ihe chemical quality of grades A, Bl, B2 and B3 by resistance to H2SO4. A specimen is placed in 95-96% H2SO4 and the temperature raised to 300°C in 7 mm. The flashing is due to a sudden increase in the rate of formation of PbS04 and should not happen below 285°C, or 300°C for lead for use at elevated temperatures. 

Pressure has a major effect on solubility only for gas-liquid systems. At a given temperature, raising the pressure increases the solubility of a gas. Indeed, at low to moderate pressures, gas solubility is directly proportional to pressure (Figure 10.5b). 

Thermal radiation becomes important at higher temperatures, especially above 2000°F, when thermal destruction of the monolith substrate probably takes place. Thermal radiation intensities are proportional to the emissivity of the surface multiplied by the absolute temperature raised to the fourth power. The thermal emissivity of the monolith may be close to 1.0 due to the blackened surfaces from deposition of platinum. Each point of the channel is completely visible from any other point of the channel. The... 

It will be noted from equation 10.43 that the diffusivity of a vapour is inversely proportional to (he pressure and varies with the absolute temperature raised to the power of 1.5, although it has been suggested that this underestimates the temperature dependence. 

Fig. 4 Generalized permeation profile. From left to right the data are for n-butanol permeating hairless mouse skin at 20°, 25°, and 30° C respectively. Increasing temperature raises the flux (slope) and shortens the lag time. 

The tube is positioned in a tube furnace so that the boat is near the center of the furnace, a thermocouple is introduced in the open end, and the open end of the furnace is plugged with Pyrex wool. The tube is evacuated and the temperature raised to 450° at about 3° per minute. A transitory blue deposit is formed in the cool portion of the tube at 200° at 300°, a green ring forms in the tube just inside the furnace at 300 to 350°, a blue-black deposit, presumably a mixture of rhenium (V) bromide and rhenium (VI) oxide tetrabromide,2 forms in the portion of the tube just outside the furnace at 350 to 370°, a blue-black... 

In a resistance level detector, a resistive thermometer is powered with 0.1-1 mW. When the thermometer is inside the LHe, its temperature is about 4 K. If it is raised into the vapour phase, its temperature raises because of the weaker thermal contact. The sensing element is usually a NbTi wire (see e.g. ref. [31]). 

Shelves of the chamber are loaded with ice, the chamber and condenser evacuated, and the shelves temperature raised until Tice has reached the value to be tested. The tempera-... 

The second salt studied for which conformational bias in the enantiodiffer-entiating step was expected to be small was the benzocyclohexadienone derivative 55. Compounds of this type are known to undergo what is formally an oxadi-7i-methane photorearrangement [44], and salt 55 was no exception, affording cyclopropyl ketone 56 upon irradiation in the crystalline state and diazomethane workup [45]. The ee in which this photoproduct was formed at room temperature was 81% at 25% conversion and 71% at 80% conversion. As usual, lowering the temperature raised the ee (at -78 °C, the ee was 87% at 30%... 

It Is remarked that specimens maintained at 65 C and 90 C for 4 hours show lower resistances than the resistances measured when the specimen was maintained for 4 hours at 25 C and then the temperature raised to 65°C and then to 90 C. This Is also logical because maintenance at a higher temperature for a longer time causes accelerated degradation. 

Figure 2. Time course of maltose production from maltodextrin (DE 10) by B-amylase and puUulanase 1,6-amylase at 75 C 2, 6-amylase at 75 C for 24 h and then 6-amylase and puUulanase at 60 C 3, puUulanase at 60°C for 24 h and then 6-amylases at 75°C 4, 6-amylase and puUulanase at 60°C for 24 h and then temperature raised to 75°C. Arrow indicates time of addition of second enzyme and/or changing of temperature. Enzyme used (units/g substrate) 6-amylase, 200 puUulanase, 50. Reprinted with permission from ref. 18. Copyright 1989 John Wil r Sons.

LOST. We determined the lower critical solution temperature (LCST) of the polymer at various concentrations by visual observation of the temperature at which turbidity first appeared in a solution immersed in a silicone oil bath with the temperature raised at the rate of 3 C/hour. 

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