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Thermal analysis in sustainable development

Thermoanalytical study of faveleira seeds (Cnidoscolus quercifolius)

Journal of Thermal Analysis and Calorimetry
Authors:
J. C. O. Santos
,
J. P. Dantas
,
C. A. Medeiros
,
P. F. Athaíde-Filho
,
Marta M. Conceiçăo
,
J. R. Santos Jr.
, and
A. G. Souza
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Journal of Thermal Analysis and Calorimetry
Authors:
J. R. Botelho
,
A. G. Souza
,
A. D. Gondim
,
P. F. Athayde-Filho
,
P. O. Dunstan
,
C. D. Pinheiro
,
E. Longo
, and
L. H. Carvalho
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Journal of Thermal Analysis and Calorimetry
Authors:
A. M. Ramalho
,
M. M. Conceiçăo
,
V. J. Fernandes Jr.
,
J. C. Machado
,
L. E. B. Soledade
, and
A. G. Souza
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Journal of Thermal Analysis and Calorimetry
Authors:
V. A. Cardoso
,
L. M. Nunes
,
J. C. O. Santos
,
I. M. G. Santos
,
M. M. Conceiçăo
,
J. R. Santos Jr.
, and
A. G. Souza
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Abstract  

The conventional treatments of effluents containing heavy metals produce significant quantities of byproducts with recalcitrant characteristics, making necessary looking after alternative techniques in order to avoid the production of new contaminated residues. Sorption process of chromium and zinc in vertical columns loaded with sewage sludge and organic solid waste has been studied in this work. The data from the TG curves of the two sorbents presented significant differences when they were submitted to the metal uptake, being noticed the displacement of the thermal events towards lower temperatures for both types of sorbents studied. As it was expected, for both sorbents, an increase in the mass of samples has been observed at the completion of the thermal tests upon metal uptake. Therefore, these facts demonstrate that during the biosorption process a physico-chemical interaction took place between sorbents and metals, as it was evidenced by the more than 100 K increase in the decomposition temperatures as well as the variation of the ΔH values of the samples.

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Journal of Thermal Analysis and Calorimetry
Authors:
N. A. Santos
,
R. Rosenhaim
,
M. B. Dantas
,
T. C. Bicudo
,
E. H. S. Cavalcanti
,
A. K. Barro
,
I. M. G. Santos
, and
A. G. Souza

Abstract

Biodiesel is an increasingly attractive alternative to diesel fuel. The main component of Babassu biodiesel is lauric acid (C12:0), which is a saturated fatty acid with a high melting point. Controlling flow properties, such as viscosity and the cold filter plugging point, is critical because viscosity affects atomization, and crystal formation resulting from decreases in temperature can negatively affect engine starting and performance. To evaluate its flow characteristics more fully, the rheological properties of babassu biodiesel were analyzed, taking into account variations in temperature. The crystallization temperature was determined by modulated temperature differential scanning calorimetry (MT-DSC). The curve of biodiesel viscosity as a function of the biodiesel refrigeration temperature contained an inflection point (corresponding to a steep increase in viscosity) that was coincident with both the transition from a Newtonian-type flow to a pseudoplastic-type flow and the crystallization temperature obtained by MT-DSC, indicating that the appearance of crystals in the biodiesel increased its viscosity. The rheological properties of fatty acid methyl and ethyl mixtures (FAME and FAEE) with metropolitan diesel were also evaluated; a higher FAME percentage reduced viscosity in blends up to B100.

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Journal of Thermal Analysis and Calorimetry
Authors:
F. T. G. Vieira
,
A. L. M. Oliveira
,
D. S. Melo
,
S. J. G. Lima
,
E. Longo
,
A. S. Maia
,
A. G. Souza
, and
I. M. G. Santos

Abstract

Alkaline earth stannates have recently become important materials in ceramic technology due to its application as humidity sensor. In this work, alkaline earth stannates doped with Fe3+ were synthesized by the polymeric precursor method, with calcination at 300 °C/7 h and between 400 and 1100 °C/4 h. The powder precursors were characterized by TG/DTA after partial elimination of carbon. Characterization after the second calcination step was done by X-ray diffraction, infrared spectroscopy, and UV–vis spectroscopy. Results confirmed the formation of the SrSnO3:Fe with orthorhombic perovskite structure, besides SrCO3 as secondary phase. Crystallization occurred at 600 °C, being much lower than the crystallization temperature of perovskites synthesized by solid state reaction. The analysis of TG curves indicated that the phase crystallization was preceded by two thermal decomposition steps. Carbonate elimination occurred at two different temperatures, around 800 °C and above 1000 °C.

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Journal of Thermal Analysis and Calorimetry
Authors:
H. Dantas
,
R. Mendes
,
R. Pinho
,
L. Soledade
,
C. Paskocimas
,
B. Lira
,
M. Schwartz
,
A. Souza
, and
Iêda Santos

Abstract  

Gypsum is a dihydrated calcium sulfate, with the composition of CaSO4⋅2H2O, with large application interest in ceramic industry, odontology, sulfuric acid production, cement, paints, etc. During calcination, a phase transformation is observed associated to the loss of water, leading to the formation of gypsum or anhydrite, which may present different phases. The identification of the phases is not so easy since their infrared spectra and their X-ray diffraction patterns are quite similar. Thus, in this work, temperature modulated differential scanning calorimetry (TMDSC) was used to identify the different gypsum phases, which can be recognized by their different profiles.

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