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Temperature Corresponding (temperature + corresponding)

Distribution by Scientific Domains
Polymers and Materials Science42%

Selected Abstracts

Modeling monthly temperature data in Lisbon and Prague

ENVIRONMETRICS, Issue 7 2009
Teresa Alpuim
Abstract This paper examines monthly average temperature series in two widely separated European cities, Lisbon (1856,1999) and Prague (1841,2000). The statistical methodology used begins by fitting a straight line to the temperature measurements in each month of the year. Hence, the 12 intercepts describe the seasonal variation of temperature and the 12 slopes correspond to the rise in temperature in each month of the year. Both cities show large variations in the monthly slopes. In view of this, an overall model is constructed to integrate the data of each city. Sine/cosine waves were included as independent variables to describe the seasonal pattern of temperature, and sine/cosine waves multiplied by time were used to describe the increase in temperature corresponding to the different months. The model also takes into account the autoregressive, AR(1), structure that was found in the residuals. A test of the significance of the variables that describe the variation of the increase in temperature shows that both Lisbon and Prague had an increase in temperature that is different according to the month. The winter months show a higher increase than the summer months. Copyright © 2009 John Wiley & Sons, Ltd. [source]

Theoretical analysis of LiBr/H2O absorption refrigeration systems

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 15 2009
Akhilesh Arora
Abstract A computational model is developed for the parametric investigation of single-effect and series flow double-effect LiBr/H2O absorption refrigeration systems. The effects of generator, absorber, condenser, evaporator and dead state temperatures are examined on the performance of these systems. The parameters computed are coefficient of performance (COP), exergy destruction rates, thermal exergy loss rates, irreversibility and exergetic efficiency. The results indicate that COP and exergetic efficiency of both the systems increase with increase in the generator temperature. There exist different optimum values of generator temperature for maximum COP and maximum exergetic efficiency. The optimum generator temperature is lower corresponding to maximum exergetic efficiency as compared to optimum generator temperature corresponding to maximum COP. The effect of increase in absorber, condenser and evaporator temperatures is to decrease the exergetic efficiency of both the systems. The irreversibility is highest in absorber in both systems. Copyright © 2009 John Wiley & Sons, Ltd. [source]

Kinetic study of the thermal degradation of poly(aryl ether ketone)s containing 2,7-naphthalene moieties

JOURNAL OF APPLIED POLYMER SCIENCE, Issue 2 2008
Si-Jie Liu
Abstract The degradation of poly(aryl ether ketone) containing 2,7-naphthalene moieties was subjected to dynamic and isothermal thermogravimetry in nitrogen and air. The dynamic experiments showed that the initial degradation temperature, temperature for 5% weight loss, and temperature corresponding to the maximum degradation rate of poly(aryl ether ketone) containing 2,7-naphthalene moieties were a little higher than those of poly(ether ether ketone) and almost independent of the 2,7-naphthalene moiety content. The thermal stability of poly(aryl ether ketone) containing 2,7-naphthalene moieties in air was substantially less than that in nitrogen, and the degradation mechanism was more complex. The results obtained under the isothermal conditions were in agreement with the corresponding results obtained in nitrogen and air under the dynamic conditions. In the dynamic experiments, the apparent activation energies for the degradation processes were 240 and 218 kJ/mol in nitrogen and air for the second reaction stage as the heating rate was higher than 5°C/min. In the isothermal experiments, the apparent activation energies for the degradation processes were 222 and 190 kJ/mol in nitrogen and air, respectively. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2008 [source]

Nucleation and Crystallization of a Lead Halide Phosphate Glass by Differential Thermal Analysis

JOURNAL OF THE AMERICAN CERAMIC SOCIETY, Issue 4 2002
Hongsheng Zhao
The nucleation and crystallization mechanisms of a lead halide phosphate glass [40P2O5·30PbBr2·30PbF2 (mol%)] were investigated by differential thermal analysis (DTA) and X-ray diffraction analysis. There were two crystalline phases in the crystallized samples: the major phase was PbP2O4, and the minor phase was PbP2O6. The average activation energy for crystallization, E, for two different particle sizes of this glass was determined to be 119 ± 4 kJ/mol by the Kissinger method and 124 ± 4 kJ/mol by the Augis,Bennett method. The Avrami constants were determined to be 1.6 and 2.5 for particle sizes of 203 and 1040 ,m, respectively, by the Ozawa equation, and 1.7 and 2.4 for particle sizes of 203 and 1040 ,m, respectively, by the Augis,Bennett equation. The decrease in the crystallization peak height in the DTA curve with increasing particle size suggested that the particles crystallize primarily by surface crystallization. A nucleation-rate type curve was determined by plotting either the reciprocal of the temperature corresponding to the crystallization peak maximum, 1/Tp, or the height of the crystallization peak, (,T)p, as a function of nucleation temperature, Tn. The temperature where nucleation can occur for this glass ranges from 360°,450°C and the maximum nucleation rate is at 420°± 10°C. [source]

Thermal and morphological characterization of composites prepared by solution crystallization method of high-density polyethylene on carbon nanotubes

POLYMER COMPOSITES, Issue 5 2010
Linghao He
The morphology, nucleation, and crystallization of polyethylene/carbon nanotubes composites prepared by solution crystallization method of high density polyethylene on Multiwall Carbon Nanotubes (MWNTs) are studied. Transmission electron microscopy (TEM) results show that the center stems of MWNTs are decorated with lamellar crystals. The nonisothermal crystallization kinetics of pure PE and PE/MWNTs composites are investigated by differential scanning calorimetry at various cooling rates. It is found that the Avrami analysis modified by Jeziorny and Mo can describe the nonisothermal crystallization process of pure PE and PE/MWNTs very well. The difference in the value of exponent between PE and PE/MWNTs suggests that addition of the MWNTs influences the mechanism of nucleation and the growth of PE crystallites. On one hand, the increasing of temperature corresponding to the maximum rate of crystallization and the onset crystallization temperature and the study of the nucleation activity reveal that the inorganic component (MWNTs) can act as the nucleating agent to facilitate the crystallization of PE in the hybrids. On the other hand, the decreasing degree of crystallinity and the increasing of half-crystallization time imply that the MWNTs networks confine the crystallization of PE. POLYM. COMPOS., 2010. © 2009 Society of Plastics Engineers [source]

Ternary fluorides BaMF4 (M = Zn, Mg and Mn) at low temperatures

ACTA CRYSTALLOGRAPHICA SECTION B, Issue 5 2009
Jose Maria Posse
Ternary fluorides BaMF4 (M = Zn, Mg, Mn) have been studied in the temperature range from 300 to 10,K using synchrotron and laboratory powder and single-crystal diffraction. The first two compounds are stable down to 10,K, while the third one undergoes a phase transition to an incommensurately modulated structure at approximately 250,K. The modulated phase is stable down to 10,K. The magnetic anomalies at 45 and 27,K observed previously in BaMnF4 are exclusively reflected in the behavior of the , component of the q vector, which assumes an irrational value of approximately 0.395,Å,1 at the temperature corresponding to the onset of the magnetic ordering and then stays constant down to 10,K. Mn,Mn distances do not indicate any structural response to the magnetic ordering. The formation of the modulated phase can be explained on the basis of simple geometrical criteria. The incorporation of the large Mn cation in the octahedral sheets implies an increase of the cavity in which the Ba ion is incorporated. This leads to the formation of the modulated structure to adapt the coordination sphere around Ba in such a way that the bond-valence sums can be kept close to the ideal value of two. With further lowering of the temperature, the charge balance around the Ba ion requires an increasingly anharmonic character of the modulation function of Ba, until finally at 10,K a crenel-like shape is assumed for the modulation of this atom. [source]

Thermal tolerance and compatibility zones as a tool to establish the optimum culture condition of the halibut Paralichthys californicus (Ayres, 1859)

AQUACULTURE RESEARCH, Issue 7 2010
José L. Esquer Mendez
Abstract California halibut, Paralichthys californicus (Ayres, 1859) juveniles were studied to ascertain the thermal tolerance and the compatibility zone where these species can be cultivated. Juvenile halibut acclimated at 15, 18, 21 and 24 °C preferred temperatures of 15.1, 18.2, 18.5 and 24.7 °C respectively. The final preferendum (FP) was 18.4 °C, equivalent to the temperature where the physiological processes are more efficient and the optimum growth temperature of 18.02 °C was calculated using the Jobling (1981) equation. The maximum average weekly temperature that must not be exceeded in a juvenile cultivation system is 22.6 °C. Juveniles avoided temperatures of 10.8 and 29.1 °C if they were acclimated between 15 and 24 °C. The thermal tolerance range of the juvenile halibut, having low and high lethal temperatures of 5.0 and 31 °C, characterizes it as a eurythermic organism. The tolerance of the halibut did not increase with the acclimation temperature corresponding to the ultimate upper incipient lethal temperature of 31 °C that differed by only 0.83 °C to the value calculated using the Jobling (1981) equation. The thermal tolerance and compatibility zone for the California halibut were 242.8 and 121.5 (°C)2, respectively; they characterize the thermal niche that includes the FP supporting an optimal growth of juveniles. [source]