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180 results on '"Differential heat"'

2. Thermodynamics of hydrogen sulfide adsorption in Zeolite Lix

Author

Abdurakhmonov E., Sapaev I.B., Abdullaeva B., Rakhmatkarieva F., and Dekhkanova N.N.

Subjects
lix zeolite, hydrogen sulfide, microcalorimeter, differential heat, isotherm, entropy, thermokinetics, Environmental sciences, GE1-350
Abstract

Sulfur compounds adversely affect the technological process of oil and gas refining, as well as the release of sulfur-containing compounds into the atmosphere, polluting the environment. Oil and gas processing is carried out using microporous adsorbents with high sorption capacity in the purification of gases containing sulfur. This is one of the most efficient methods in oil refining and gas processing. In research work, the adsorption of gases containing sulfur in their composition is carried out in various ways. When determining the formation complex, the main centers of Li-ionic molecules, it was possible to obtain a more accurate idea of the adsorption mechanism at the stages of absorption of hydrogen sulfide molecules into Li-zeolites using a highly sensitive adsorption calorimeter. In our study, in the process of adsorption of hydrogen sulfide on the LiX zeolite, the results of differential adsorption heat, isotherm, entropy, and thermal equilibrium time (thermokinetics) based on obtained in a high vacuum adsorption device are accurately revealed. Based on exact formulas, it was proved how many hydrogen sulfide molecules are adsorbed in the zeolite that died under vacuum conditions.

Published
2023
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3. ЧИНОР ДАРАХТИ ПОЯСИ АСОСИДА СУВ БУҒИ ЁРДАМИДА ФАОЛЛАНТИРИБ ОЛИНГАН КЎМИР АДСОРБЕНТИГА БЕНЗОЛ БУҒЛАРИ АДСОРБЦИЯСИ ТЕРМОДИНАМИКАСИ

Author

ПАЙҒАМОВ, Р. А., ЭШМЕТОВ, И. Д., КУЛДАШЕВА, Ш. А., and ЖУРАЕВА, Ф. Н.

Abstract

Background. In the world of obtaining adsorbents from the stems and waste of trees, to develop technologies for their activation in order to create opportunities for wastewater treatment from organic substances, scientific justification is needed in the following areas: identification of raw materials for activated carbon; obtaining carbon adsorbents with high sorption properties by various activation methods. Purpose. Studying the isotherm of benzene vapor adsorption on a steam activated carbon adsorbent obtained from the Chinara tree trunk and thermodynamic properties (heat of adsorption, adsorption entropy), adsorption kinetics. Methodology. In laboratory conditions, using a high-vacuum adsorption microclimetric device, the isotherms of benzene vapor adsorption on activated charcoal adsorbent and the thermodynamic parameters were determined Originality. For the first time, the full thermodynamic properties of benzene vapor adsorption by a carbon adsorbent obtained on the basis of a plane tree trunk activated by steam were determined. Findings. The complete thermodynamic characteristics of the adsorption of benzene vapors on the CACH-V adsorbent were determined. The heat of adsorption of benzene at CACH-V at the initial saturation regions, at a=0.14 mol/kg, is 98.05 kJ/mol, and at 101.46 kJ/mol, the maximum value is reached a = 0.52 mol/kg, then the differential heat of adsorption decreases to Qd=63.66 kJ/mol at α=1.47 mol/kg. In the final saturation regions of adsorption in the range α= 2.67-3.86 mol/kg, it was found that the heat of adsorption decreases from Qd = 41.29 kJ/mol to Qd =33.41 kJ/mol. [ABSTRACT FROM AUTHOR]

Published
2020

5. DIFFERENTIAL HEATS OF WATER ADSORPTION IN MOLECULAR SIEVES OF IODIDE SODALITE.

Author

Karimovich, Ergashev Oybek

Subjects
*IODIDES, *SODALITE, *ATMOSPHERIC temperature, *ENTROPY, *ADSORPTION (Chemistry)
Abstract

The detailed thermodynamic characteristics of the adsorption of water into iodide sodalite are studied. The correlation between the adsorption-energy characteristics and the crystal-chemical structure of the sodalide iodide was found, and the molecular mechanism of the adsorption of water into iodide sodalite was found throughout the entire filling region. [ABSTRACT FROM AUTHOR]

Published
2018
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7. The efficiency assessment of an automatic sprinkler system

Author

A. A. Tarantsev, I. A. Babikov, O. A. Zybina, and L. T. Tanklevskiy

Subjects
Computer science, Limit value, 020101 civil engineering, 02 engineering and technology, 01 natural sciences, 010406 physical chemistry, 0201 civil engineering, 0104 chemical sciences, Reliability engineering, Differential heat, Sprinkler system, Ceiling (aeronautics), Heating time, Roof
Abstract

Introduction. Сases of ineffective activation of automatic sprinkler fire-fighting systems (AFFS), designed pursuant to current standards, have made it necessary to address the following three issues: a) identification of reasons for ineffective activation; b) examination of AFFS systems to ensure their successful activation in case of fire; c) making a list of recommendations for AFFS designers. These issues can be resolved with reference to Appendix B to new SP (Construction Regulations) 485.13130.2020.Maximal critical height of sprinkler placement. Models of fire development were used to design the roof height limit and the AFFS bulb heating time. If the ceiling height exceeds the limit value, sprinklers cannot be activated in a timely manner. This leads to delays in the AFFS activation, and, as a result, the fire area exceeds the one safeguarded by the sprinkler.Acceptable sprinkler height. The analysis of fire scenarios and bulb heating models allows to more accurately project the feasibility of timely AFFS activation. This, in turn, allows to solve the three above listed problems.Using a differential heat detector to activate sprinklers. If it is established that the use of the AFFS, activating sprinklers by means of thermal destruction of a bulb, is ineffective in a given room, the feasibility of forced AFFS activation using a differential heat detector responding to the temperature rise in a room may be considered. The ratios, thus obtained, are applied to identify the acceptable height of premises protected by the AFFS equipped with such detectors. Problem solutions, including the identification of the reason for the ineffective operation of the AFFS, examination of the AFFS in operation, and provision of recommendations to designers, are demonstrated using the exhibition hall as an example.Conclusions. The above-mentioned problems are resolvable with the help of Appendix B to new Construction Regulations 485.13130.2020 and the above models.

Published
2021

8. INVERSE PROBLEM FOR INTEGRO-DIFFERENTIAL HEAT EQUATION WI TION WITH A VARIABLE COEFFICIEN ABLE COEFFICIENT OF THERM T OF THERMAL CONDUCTIVITY

Author

Zhavlon Zafarovich Nuriddinov and Durdimurod K. Durdiev

Subjects
Physics, Differential heat, Therm, Thermal conductivity, Mathematical analysis, Hölder condition, Contraction mapping, Heat equation, Inverse problem, Variable (mathematics)
Abstract

Background. The inverse problem of finding a multidimensional memory kernel of a time convolution integral depending on a time variable t and (n-1)-dimensional spatial variable. 2-dimensional heat equation with a time-dependent coefficient of thermal conductivity is studied. Methods. The article is used Cauchy problems for the heat equation, resolvent methods for Volterra type integral equation and contraction mapping prinsiple.

Published
2020

10. Enthalpy change during hydrothermal carbonization of biomass: a critical review

Author

Matteo Pecchi, Daniele Basso, Marco Baratieri, and Francesco Patuzzi

Subjects
business.industry, Industrial scale, Enthalpy, Biomass, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 010406 physical chemistry, 0104 chemical sciences, Hydrothermal carbonization, Differential heat, Scientific method, Environmental science, Hydrous pyrolysis, Physical and Theoretical Chemistry, 0210 nano-technology, Process engineering, business
Abstract

A remarkable number of scientific papers are available in the literature about the process of hydrothermal carbonization (HTC), also called wet or hydrous pyrolysis, applied to biomass substrates. However, the biggest share of it focuses on the characterization of HTC products obtained from different feedstocks. Only a few works are available on the process thermodynamics, particularly about the determination of the enthalpy change and the related heat release or absorption during HTC, which is a key parameter to understand the nature of the process and to evaluate the heat requirements for the design of industrial scale HTC plants. The present review summarizes the research carried out with the aim of assessing the process enthalpy for HTC. Two main approaches have been identified and described, and the research works are sorted into two categories: enthalpy calculation based on the direct application of the Hess’s law and enthalpy evaluation based on differential heat measurement. The hypotheses and results obtained by the different authors are critically analysed and discussed, and directions for further research are proposed.

Published
2019

11. Textural Characterization and Energetics of Porous Solids by Adsorption Calorimetry

Author

Vanessa Silenia Garcia-Cuello, Juan C. Moreno-Pirajan, and Liliana Giraldo

Subjects
adsorption microcalorimeter, differential heat, adsorption, isotherm, porous solids, Technology
Abstract

An adsorption microcalorimeter was designed and built in our laboratory and used for the determination of differential adsorption heats in different samples of porous solids: activated carbon granules, activated carbon pellets, an activated carbon monolith and a zeolite sample. This work shows the relationship between adsorption heat and the pore size of different porous solids using adsorption of NH3, CO and N2O. The result shows that the thermal effect can be related with textural properties and superficial chemical groups of the studied porous solids. The values of differential heats of N2O adsorption in the investigated systems have shown that this interaction is weaker than that with CO. Small amounts of N2O are chemisorbed in the investigated systems. For the room temperature adsorption of N2O, the strongest active sites for the interaction with Brönsted acid groups in the ACM structure were identified. The values determined are between −60 kJ/mol and −110 kJ/mol for ZMOR and ACM, respectively, for the adsorption of N2O and −95 kJ/mol and −130 kJ/mol for the adsorption of CO.

Published
2011
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15. Heat of absorption of CO2 in aqueous N,N-diethylethanolamine + N-methyl-1,3-propanediamine solutions at 313 K

Author

Katarzyna Sobala and Hanna Kierzkowska-Pawlak

Subjects
Environmental Engineering, Aqueous solution, Chemistry, General Chemical Engineering, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Biochemistry, Diethylethanolamine, Differential heat, chemistry.chemical_compound, 020401 chemical engineering, Reaction calorimeter, Co2 absorption, Amine gas treating, 0204 chemical engineering, 0210 nano-technology, Nuclear chemistry
Abstract

Differential heat of absorption of CO2 in aqueous solutions of N,N-diethylethanolamine (DEEA) and activated DEEA solutions up to a total concentration of 2 mol·L−1 was measured as a function of CO2 loading at 313.15 K using a reaction calorimeter. In order to analyze the performance of N-methyl-1,3-propanediamine (MAPA) as an activator, DEEA blended solutions containing 0.05, 0.1 and 0.2 mol·L−1 MAPA were studied. The heat of CO2 absorption in single DEEA solutions was unaffected by changing the DEEA concentration in the range of (0.5–2) mol·L−1. On the other hand, increasing the concentration of MAPA in aqueous amine mixtures of (DEEA + MAPA) raised the heat of absorption.

Published
2019

16. Cylindrical Li-Ion Battery State of Health Evaluation by Differential Heat Analysis During Calendar Ageing

Author

Andrey V. Mityakov, Kirill Murashko, Juha Pyrhonen, Vladimir Mityakov, Sergey Z. Sapozhnikov, and Jorma Jokiniemi

Subjects
Battery (electricity), Differential heat, Materials science, Renewable Energy, Sustainability and the Environment, Ageing, State of health, Nuclear engineering, Materials Chemistry, Electrochemistry, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ion
Published
2019

17. Catalytic cracking of n-alkane naphtha: The impact of olefin addition and active sites differentiation.

Author

Corma, Avelino, Mengual, Jesús, and Miguel, Pablo J.

Subjects
*NAPHTHA, *ALKANES, *HEPTANE, *CATALYTIC cracking, *ADDITION reactions, *BINDING sites, *CHEMICAL kinetics
Abstract

An extended dual kinetic model allows to fit the n -heptane cracking results working in a wide range of reaction conditions. The duality of the model is provided by the contribution of monomolecular and bimolecular cracking mechanisms. It takes into account the role played by the olefins formed on the global cracking or added within the feed. Furthermore by means of this model and the kinetic parameters obtained when cracking n -heptane on ZSM-5, it has been observed that, while some characterization techniques show a homogeneous zeolite surface from the point of view of the active sites, rigorous kinetic experiments point to the possibility that the reactant sees a heterogeneous surface with, at least, two groups of cracking active sites. Those differentiated active sites give different cracking rates and different activation energies for the process and, in the case of ZSM-5, could be assimilated to sites pointing to the 10R channels and sites pointing into the crossing of the 10R channels, mainly due to differences in acid site location and confinement effects. [ABSTRACT FROM AUTHOR]

Published
2015
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18. Contrasting patterns of mortality in Polynesian coral reefs following the third global coral bleaching event in 2016

Author

Franck Lerouvreur, Gonzalo Pérez-Rosales, Héloïse Rouzé, Xavier Pochon, Robert S. Steneck, Pierre E. Galand, Cécile Berthe, Maggy M. Nugues, Serge Planes, Gilles Siu, Elodie Martinez, Yannick Chancerelle, Laetitia Hédouin, and PSL Research University, EPHE-UPVD-CNRS, USR 3278 CRIOBE, Université de Perpignan, 58 Avenue Paul Alduy, 66860 Perpignan Cedex, France

Subjects
0106 biological sciences, geography, geography.geographical_feature_category, Coral bleaching, 010604 marine biology & hydrobiology, Coral, Coral reef, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Mo'orea, Differential heat, Oceanography, Habitat, Tuamotu, Coral cover, Archipelago, [SDE]Environmental Sciences, 14. Life underwater, Mortality, Reef, ComputingMilieux_MISCELLANEOUS, El Nino
Abstract

In 2016, many tropical corals worldwide were exposed to anomalously high temperatures due to one of the strongest El Nino events ever recorded. Bleaching impacts were reported on 23 islands within three archipelagos of French Polynesia (Tuamotu, Society and Marquesas archipelagos). A detailed study on the effects of elevated temperatures on corals was performed on five islands (Mo'orea, Makemo, Hikueru, Marutea and Katiu) and revealed contrasting patterns of coral bleaching responses between Mo'orea (Society Archipelago) and the four islands of the Tuamotu Archipelago. While some reefs from the Tuamotu lost more than half of their coral cover, in Mo'orea, less than 1% mortality was recorded 6 months after bleaching. During the 2016 bleaching event, certain reefs at 12 m depth in the outer reef habitats were not exposed to sufficiently long high-temperature periods (heat stress not exceeding 1.1 degrees C weeks in Mo'orea) to cause large-scale bleaching-related coral mortality. In contrast, other reefs in the Tuamotu Archipelago had DHW reaching up to 9.2 degrees C weeks and experienced severe mortality (up to 71%). Our study showed how differential heat stress exposure across reefs of French Polynesia led to different impacts on corals. Until now, Mo'orea reefs have been spared abnormally high temperatures leading to mortality and should be considered an important source of larvae to help maintain reefs on the surrounding islands.

Published
2020

19. H2 Adsorption on Cu(I)–SSZ-13

Author

Rachel A. Pollock, Raul F. Lobo, Bahar Ipek, Deniz Uner, and Craig M. Brown

Subjects
Neutron powder diffraction, Steric effects, Materials science, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Ring (chemistry), 01 natural sciences, Copper, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, SSZ-13, Differential heat, General Energy, Oxygen atom, Adsorption, chemistry, Physical chemistry, Physical and Theoretical Chemistry, 0210 nano-technology
Abstract

We report H2 adsorption capacities reaching 0.05 wt % at 303 K and at 1 atm H2 pressure on solid-state CuCl-exchanged [Al]-SSZ-13 and [B]-SSZ-13 zeolites. Differential heat of H2 adsorption is found in the range between 16 and 48 kJ mol H2–1 on Cu(I)-SSZ-13 at 323 K and isosteric heat of adsorption is found between 20 and 55 kJ mol H2–1 on Cu(I)-[B]-SSZ-13 at temperatures between 293 and 323 K. Strong interactions between H2 and the copper cations in Cu(I)-SSZ-13 are evidenced using Rietveld refinements of neutron powder diffraction patterns revealing Cu–deuterium (D2) distances of 2.3(2) and 2.41(1) A. A temperature-dependent Cu(I) migration—away from the six-membered ring (6MR) and eight-membered ring (8MR)—is related to the high adsorption capacities of the samples at 303 K. At 10 K, access to Cu(I) at 6MR is sterically hindered by framework oxygen atoms (Cu–Oframework distance of 2.196(5) A), rationalizing the low H2 adsorption capacities of Cu(I)-SSZ-13 samples as compared to Na-SSZ-13 at 77 K.

Published
2018

20. Quantitative profiling of gingerol and its derivatives in Australian ginger

Author

Simon White, Joel B. Johnson, Mani Naiker, Philip H. Brown, and Janice S. Mani

Subjects
Differential heat, chemistry.chemical_compound, chemistry, Mild dehydration, Gingerol, Organoleptic, Food science, Shogaol, High-performance liquid chromatography, Food Science
Abstract

Gingerols and their shogaol derivatives play an important role in determining the sensory and organoleptic properties of ginger. In this study, 6-gingerol, 8-gingerol, 10-gingerol and 6-shogaol were quantified in 98 samples of dried Australian processing-grade ginger using high performance liquid chromatography (HPLC). A significant level of variation was found in the gingerol and shogaol contents of ginger samples grown under different conditions. The level of variation found in 6-shogaol content was lower than that observed for 6-gingerol, 8-gingerol or 10-gingerol content. It is possible that zeroth-order reaction kinetics under mild dehydration conditions could be responsible for this observation. More detailed information on the kinetics of the gingerol-dehydration reaction could potentially be used to manipulate the gingerol and shogaol contents of ginger through differential heat treatments.

Published
2021

21. Calorimetric study and simulation of the adsorption of methanol and propanol onto activated carbon fibers

Author

Nobusawa, Satomi, Kaku, Hiroto, Amada, Takeshi, Asano, Hiroki, Satoh, Kazuki, and Ruike, Masatoshi

Subjects
*ADSORPTION (Chemistry), *METHANOL, *PROPANOLS, *ACTIVATED carbon, *CARBON fibers, *CALORIMETRY, *COMPUTER simulation
Abstract

Abstract: Adsorption isotherms and differential heats of adsorption of methanol, ethanol, 1- and 2-propanol, and 1- and 2-butanol onto two types of activated carbon fiber (ACF) were measured at 298.0K to investigate the mechanism for the adsorption of lower alcohols onto ACFs. The dependence of the differential heat at the initial stage of adsorption on the type of alcohol can be quantitatively explained by a dispersion pore potential. However, it is necessary to take into account the effect of surface functional groups on the total amount of differential heat. Therefore, a grand canonical Monte Carlo (GCMC) simulation was applied to the adsorption of methanol and propanol onto ACF using simple slit pore models with and without carbonyl functional groups. Large differences in the amount of alcohol adsorbed and the differential heat were observed for different carbonyl configurations. A comparison of the experimental and simulated isotherms and differential heats revealed that a surface without functional groups does not reproduce the experimental isotherm and differential heat. The positioning of five carbonyls close together on the carbon surface makes a very active site that provides similar features to those obtained experimentally. For the pore model with active sites, 1-propanol molecules form a bilayer structure similar to methanol molecules, whereas 2-propanol molecules do not form such a definite layer structure. This is a typical isomer effect that originates from the steric hindrance of the alkyl group on 2-propanol. [Copyright &y& Elsevier]

Published
2013
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22. A new microcalorimeter of adsorption for the determination of differential enthalpies

Author

Garcia-Cuello, V., Moreno-Piraján, J.C., Giraldo-Gutiérrez, L., Sapag, K., and Zgrablich, G.

Subjects
*CALORIMETERS, *HEAT of adsorption, *VOLUMETRIC analysis, *STAINLESS steel, *ATMOSPHERIC temperature, *CALIBRATION, *ZEOLITE absorption & adsorption
Abstract

Abstract: An adsorption microcalorimeter for the determination of the differential heat of adsorption is designed and built, and some of the results are presented here. For this purpose, a Calvet heat-conducting microcalorimeter is developed and is connected to a gas volumetric unit built in stainless steel to record adsorption isotherms. The microcalorimeter is electrically calibrated to establish its sensitivity and reproducibility, obtaining K =154.34±0.23WV−1 and, chemically, it is examined with a THAM–HCL system, obtaining Δf =−30.49±0.05kJmol−1.The adsorption microcalorimeter is used here to obtain adsorption isotherms and the corresponding differentials heats, using as reference solid, a zeolite ZSM-5 type. [Copyright &y& Elsevier]

Published
2009
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24. The Thermophysical Bases of Monitoring of the Fireproof Lining Wear in the Blast Furnace Hearth

Author

Andrey N. Dmitriev, Kai Chen, M.O. Zolotykh, and Galina Yu. Vitkina

Subjects
Blast furnace, Radiation, Materials science, Hearth, 05 social sciences, Metallurgy, 02 engineering and technology, Condensed Matter Physics, Conduction equation, 020501 mining & metallurgy, Differential heat, Thermal conductivity, 0205 materials engineering, 0502 economics and business, General Materials Science, 050203 business & management
Abstract

This paper presents a two-dimensional description of the temperature field in refractory lining of the hearth in the blast furnace. The mathematical model is based on Fourier differential heat conduction equation. Different solutions of this equation are presented and the optimal quantity and location of thermosensors in the hearth is proposed. This paper also presents a methodology to obtain the heat conductivity of refractory materials.

Published
2017

25. Study on chemisorption of H2, O2, CO and C2H4on Pt-Ag/SiO2catalysts by microcalorimetry and FTIR.

Author

Li, L., Wang, X., Shen, J., Zhou, L., and Zhang, T.

Subjects
*CHEMISORPTION, *CALORIMETRY, *FOURIER transform infrared spectroscopy, *ETHYLENE, *HYDROCARBONS, *CATALYSTS
Abstract

Adsorption microcalorimetry has been employed to study the interaction of ethylene with the reduced and oxidized Pt-Ag/SiO2catalysts with different Ag contents to elucidate the modified effect of Ag towards the hydrocarbon processing on platinum catalysts. In addition, microcalorimetric adsorption of H2, O2, CO and FTIR of CO adsorption were conducted to investigate the influence of Ag on the surface structure of Pt catalyst. It is found from the microcalorimetric results of H2and O2adsorption that the addition of Ag to Pt/SiO2leads to the enrichment of Ag on the catalyst surface which decreases the size of Pt surface ensembles of Pt-Ag/SiO2catalysts. The microcalorimetry and FTIR of CO adsorption indicates that there still exist sites for linear and bridged CO adsorption on the surface of platinum catalysts simultaneously although Ag was incorporated into Pt/SiO2. The ethylene microcalorimetric results show that the decrease of ensemble size of Pt surface sites suppresses the formation of dissociative species (ethylidyne) upon the chemisorption of C2H4on Pt-Ag/SiO2. The differential heat vs. uptake plots for C2H4adsorption on the oxygen-preadsorbed Pt/SiO2and Pt-Ag/SiO2catalysts suggest that the incorporation of Ag to Pt/SiO2could decrease the ability for the oxidation of C2H4. [ABSTRACT FROM AUTHOR]

Published
2005
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26. Determination of basic sites in Mg–Al mixed oxides by combination of TPD-CO2 and CO2 adsorption calorimetry

Author

Petr Kutálek, Eva Kroft, Ivana Troppová, Karel Frolich, Lucie Smoláková, and Libor Čapek

Subjects
Work (thermodynamics), Chemistry, Inorganic chemistry, Analytical chemistry, 02 engineering and technology, Calorimetry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Alkali metal, Co2 adsorption, 01 natural sciences, 0104 chemical sciences, Differential heat, Adsorption, Physisorption, Mixed oxide, Physical and Theoretical Chemistry, 0210 nano-technology
Abstract

We present the critical analysis of the utilization of CO2 adsorption calorimetry/volumetry and TPD-CO2 for the determination of the Mg–Al mixed oxide basicity. The aim of work is the description and the evaluation of both methods with respect to the fact when the same types of CO2 adsorption complexes are involved. Critical parts of basic sites determination are originally discussed for both methods. In TPD-CO2, the process of the purging of non-specifically physisorbed CO2 is stressed. In CO2 adsorption calorimetry, the differential heat of CO2 distinguishing CO2 adsorption on weak basic sites and non-specific CO2 physisorption is stressed. Both methods are applied on series of selected Mg/Al mixed oxides varying in Mg/Al molar ratio and alkali co-cation. We show that the generally used TPD-CO2 does not provide complete information about basic sites since some weak sites form unstable CO2 species and these species could not be involved in TPD experiments. All our TPD-CO2 experiments reflect at 0–485 °C those CO2 adsorbed in the range of the differential heat of CO2 above 30–32 kJ mol−1.

Published
2016

27. Preliminary experimental insights into differential heat impact among lithic artifacts

Author

Javier Baena Preysler and Guillermo Bustos-Pérez

Subjects
010506 paleontology, Artifact (archaeology), 060102 archaeology, Knapping, breakage, Experimental archaeology, Thermal impact, hearths, Mineralogy, 06 humanities and the arts, 01 natural sciences, heat alterations, Differential heat, Breakage, lcsh:Archaeology, lithic studies, 0601 history and archaeology, experimental archaeology, lcsh:CC1-960, Geology, 0105 earth and related environmental sciences
Abstract

The presence of thermally altered and broken flint artifacts is common at archaeological sites. Most studies focus their attention on the effects of heat treatment on flint to improve knapping qualities, disregarding the effects of fire over flint under uncontrolled conditions. This paper aims to show how under uncontrolled heating processes flint artifacts develop different heat alterations (such as levels of breakage, presence of scales, etc.) as a result of vertical distribution, volume or raw material and to establish a gradient of rock changes and behavior. Artifacts where macroscopically analyzed and a series of uncontrolled heating experiments through the distribution of flint blanks under two hearths were carried out, allowing a comparison of the before and after of the blanks. Preliminary results show how levels of breakage, surface alteration or development of heat alteration features can be differentiated according to artifact volume, vertical distribution and level of surface alteration. Results also show how two different raw materials react differently to similar thermal impact, and how surface alteration reacts at different rhythm in the case of recycled artifacts. We conclude that levels of thermal alteration can be differentiated through macroscopic analysis of flint surface.

Published
2016

28. Differential heat sensitivity index in barley cultivars (Hordeum vulgare L.) monitored by chlorophyll a fluorescence OKJIP

Author

Saïd El Madidi, Reto J. Strasser, and Abdallah Oukarroum

Subjects
Chlorophyll, 0106 biological sciences, 0301 basic medicine, Chlorophyll a, Photosystem II, Physiology, Plant Science, 01 natural sciences, Fluorescence, 03 medical and health sciences, Differential heat, chemistry.chemical_compound, Genetics, Cultivar, Analysis of Variance, Geography, biology, Chlorophyll A, Hordeum, biology.organism_classification, Morocco, 030104 developmental biology, Agronomy, chemistry, Hordeum vulgare, Heat-Shock Response, 010606 plant biology & botany
Abstract

The objective of this study was to differentiate the heat tolerance in ten varieties of barley (Hordeum vulgare L.) originating from Morocco. Five modern varieties and five landraces (local varieties) collected at five different geographical localities in the south of Morocco were investigated in the present study. After two weeks of growth, detached leaves were short term exposure to various temperatures (25, 30, 35, 40, and 45 °C) for 10 min in the dark. Two chlorophyll a fluorescence parameters derived from chlorophyll a fluorescence transient (OKJIP) (performance index (PIABS) and relative variable fluorescence at the K-step (VK)) were analysed. Heat treatment had a significant effect on the PIABS and VK at 45 °C treatment and the analysis of variance for PIABS and VK is highly significant between all varieties. The slope of the relationship between logPIABS and VK named heat sensitivity index (HSI) was used to evaluate the thermotolerance of photosystem II (PSII) between the studied barley varieties. According to this approach, barley varieties were screened and ranked for improving heat tolerance. HSI was found to be a new indicator with regard to distinguishing heat tolerance of different barley cultivars.

Published
2016

29. Variation of radon progeny concentration over a continental location

Author

T. Narayana Rao, T. Rajendra Prasad, K. Nagaraja, K Charan Kumar, and M. Venkataratnam

Subjects
Radiological and Ultrasound Technology, Meteorology, Diurnal temperature variation, 010501 environmental sciences, Atmospheric sciences, 01 natural sciences, Atmospheric research, respiratory tract diseases, Atmosphere, Differential heat, Radon Progeny, Radiology, Nuclear Medicine and imaging, Relative humidity, Variation (astronomy), 0105 earth and related environmental sciences, Morning
Abstract

Background: The variation of the radon progeny concentration in outdoor environment and meteorological parameters at fine resolution were studied for one year at a continental location, National Atmospheric Research Laboratory, Gadanki, India.Materials and Methods: The concentrations were measured using Alpha Progeny Meter by collecting air samples at a height of 1 m above the Earth’s surface at a known flow rate. Results: Radon progeny concentration shows temporal variations on diurnal and monthly scales, and is due to mixing in the atmosphere. Peak in the early morning hours and low values during afternoon compared to nighttime are due to differential heat contrast between earth’s surface and its atmosphere. However, the activity during February shows maximum compared to June/July months.The diurnal variation of radon progeny shows positive correlation with the relative humidity and negative correlation with ambient temperature.The monthly mean activity of radon progeny for the year 2012 was found to be 4.76 ± 0.73 mWL. Conclusion: The mean concentration of radon progeny in the study region is relatively high compared to the other locations in India and may be due to the rocky terrains and trapping of air-masses near the observation site due to its topography.

Published
2016

30. Numerical Simulation of Heat and Mass Transfer in an Ejection Apparatus

Author

M. M. Kologrivov and V. P. Buzovskii

Subjects
Physics::Fluid Dynamics, Differential heat, Boundary layer, Materials science, Brine, Steam condensation, Computer simulation, Mass transfer, General Engineering, Thermodynamics, Spherical coordinate system, Condensed Matter Physics, Cooling effect
Abstract

The results of numerical simulation of heat and mass transfer in an ejection apparatus during condensation of vapor–gas mixture components on cold brine droplets are presented. The local parameters of working flows were determined by solving a system of differential heat transfer equations with account for the hydrodynamic pattern. Calculations were carried out on the assumption that the liquid spray is directed horizontally. The Stefan formula has been derived with reference to a spherical coordinate system. The results of calculation of heat and mass transfer rates with and without regard for steam condensation jointly with hydrocarbon vapors are compared and analyzed. Estimation of the effect exerted by the apparatus and drip pan walls on the general process of heat and mass transfer was carried out. The results of simulation made it possible to quantitatively estimate the influence of the adopted thickness of the diffusional boundary layer on the vapor–air mixture cooling effect.

Published
2016

31. Direct inference of site strength in basic solids upon CO2 adsorption: enthalpy–entropy compensation effects

Author

Marc Pera-Titus

Subjects
Chemistry, Enthalpy, General Physics and Astronomy, Inference, Thermodynamics, 02 engineering and technology, Calorimetry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Co2 adsorption, 01 natural sciences, 0104 chemical sciences, Differential heat, Adsorption, Enthalpy–entropy compensation, Physical chemistry, Physical and Theoretical Chemistry, 0210 nano-technology
Abstract

The adsorption of CO2 coupled to calorimetry is a state-of-the-art technique for characterizing the basic properties of solids. In this paper, we show that the differential heat and entropy curves measured upon CO2 adsorption on a basic solid can be reasonably estimated from a single CO2 isotherm with no need for any independent heat (calorimetric) measurement. Our method relies on two important observations: (1) formulation of generalized F-H-TS thermodynamic isotherms, the former (F) being directly generated from the raw CO2 isotherms, and (2) the presence of unexpected enthalpy-entropy compensation effects upon CO2 adsorption linking the integral enthalpy and entropy of adsorption until saturation for different solids. Our thermodynamic method has been validated using a broad library of basic solids with variable site strength and heterogeneity. Finally, a new scale of basicity is proposed using the parameters fitted from the thermodynamic isotherm (free energy basis) as descriptors of basic strength. This method opens an avenue to the inference of site strength of basic solids without the need for expensive calorimeters.

Published
2016

32. Studies of the roles of Sn or Fe on γ-Al2O3-supported Pt catalysts by CO adsorption microcalorimetry and dehydrogenation reaction of C4 alkanes.

Author

Jia, Jifei, Lin, Liwu, Shen, Jianyi, Xu, Zhusheng, Zhang, Tao, Liang, Dongbai, and Chen, Yi

Abstract

CO adsorption microcalorimetry was employed in the study of γ-Al2O3-supported Pt, Pt-Sn and Pt-Fe catalysts. The results indicated that the initial differential heat of CO adsorption of the Pt/γ-Al2O3 catalyst was 125 kJ/mol. As CO coverage increased, the differential heat of adsorption decreased. At higher coverages, the differential heat of adsorption decreased significantly. 60% of the differential heat of CO adsorption on the Pt/γ-N2O3 catalyst was higher than 100 kJ/mol. No significant effect on the initial differential heat was found after adding Sn and Fe to the Pt/γ-Al2O3 catalyst. The amount of strong CO adsorption sites decreased, while the portion of CO adsorption sites with differential heat of 60–110 kJ/mol increased after increasing the Sn or Fe content. This indicates that the surface adsorption energy was changed by adding Sn or Fe to Pt/γ-N2O3. The distribution of differential heat of CO adsorption on the Pt-Sn(C)/γ-Al2O3 catalyst was broad and homogeneous. Comparison of the dehydrogenation performance of C4 alkanes with the number of CO adsorption sites with differential heat of 60–110 kJ/mol showed a good correlation. These results indicate that the surface Pt centers with differential heats of 60–110 kJ/mol for CO adsorption possess superior activity for the dehydrogenation of alkanes. [ABSTRACT FROM AUTHOR]

Published
1998
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33. Differential Dynamics of the Ruminal Microbiome of Jersey Cows in a Heat Stress Environment

Author

Junkyu Son, Myunghoo Kim, Tansol Park, Sang-Seok Joo, Dong-Hyeon Kim, Beom-Young Park, Bon-Hee Gu, Eun Tae Kim, Ji Hwan Lee, and Sang Bum Kim

Subjects
Holstein, lcsh:Veterinary medicine, animal structures, General Veterinary, KEGG pathways, Energy metabolism, food and beverages, Functional genes, Biology, Stress resistance, Article, Heat stress, heat stress, ruminal microbiome, Differential heat, Rumen, Animal science, lcsh:Zoology, lcsh:SF600-1100, Animal Science and Zoology, sense organs, lcsh:QL1-991, Microbiome, Jersey, Respiration rate
Abstract

The microbial community within the rumen can be changed and shaped by heat stress. Accumulating data have suggested that different breeds of dairy cows have differential heat stress resistance, however, the underlying mechanism by which nonanimal factors contribute to heat stress are yet to be understood. This study is designed to determine changes in the rumen microbiome of Holstein and Jersey cows to normal and heat stress conditions. Under heat stress conditions, Holstein cows had a significantly higher respiration rate than Jersey cows. Heat stress increased the rectal temperature of Holstein but not Jersey cows. In the Kyoto encyclopedia of genes and genomes (KEGG) pathway analysis, Jersey cows had a significantly higher proportion of genes associated with energy metabolism in the normal condition than that with other treatments. Linear discriminant analysis effect size (LEfSe) results identified six taxa as distinguishing taxa between normal and heat stress conditions in Holstein cows, in Jersey cows, 29 such taxa were identified. Changes in the rumen bacterial taxa were more sensitive to heat stress in Jersey cows than in Holstein cows, suggesting that the rumen mechanism is different in both breeds in adapting to heat stress. Collectively, distinct changes in rumen bacterial taxa and functional gene abundance in Jersey cows may be associated with better adaptation ability to heat stress.

Published
2020

34. Differential calorimetric enthalpies of adsorption of p-xylene and m-xylene on y faujasites at 25°C.

Author

Simonot-Grange, M., Bertrand, O., Pilverdier, E., Bellat, J., and Paulin, C.

Abstract

The differential enthalpies of adsorption of p-xylene and m-xylene on NaY, KY and BaY zeolites were measured by isothermal calorimetry coupled with isothermal volumetry at 25‡C. Whatever the zeolite, the enthalpies of adsorption of p-xylene and m-xylene at low filling were of the same order of magnitude. They did not show significantly the effect of the dipolar moment of m-xylene. Their absolute values varied in the sequence Q0( pX/NaY)< Q0( pX/KY) = Q0(mX/KY)< Q0(pX/BaY)< Q0(mX/NaY) = Q0(mX/BaY) During the adsorption of the third molecule of xylene per α-cage, BaY zeolite exhibited specific behaviour: the differential enthalpies of adsorption decreased with the filling of the α-cages in such a way that they became lower than those of the other two zeolites. Some arguments concerning the structures of the zeolite and xylene molecules can explain such behaviour. Whatever the zeolite, the adsorption capacity of the α-cages was 3.5 molec.α−1. For relative pressures ranging from 0.2 to 0.5, an additional adsorption of about 0.1 molec.α−1 occurred on the external surface. [ABSTRACT FROM AUTHOR]

Published
1997
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35. Morphometrics of mid-Atlantic dabbling ducks for use in thermoregulation models

Author

Matthew T. Dibona, John M. Coluccy, Christopher K. Williams, and Mark C. Livolsi

Subjects
Morphometrics, Ecology, Thermoregulation, Biology, Atmospheric sciences, biology.organism_classification, Wind speed, Differential heat, Energy expenditure, Waterfowl, Carrying capacity, Animal Science and Zoology, Body region, Ecology, Evolution, Behavior and Systematics
Abstract

Bioenergetics modeling is a popular tool used by waterfowl biologists to estimate carrying capacity based on food energy availability and daily energy expenditure (DEE). For wintering waterfowl, estimates of DEE may incorporate a cost of thermoregulation (CT) component, which accounts for metabolic heat production when ambient temperatures fall below a species-specific Lower Critical Temperature (LCT). Typically, DEE estimates have utilized either a fixed CT component or a simple CT model based solely on the magnitude of the difference between ambient temperature and LCT. Using a more complex CT model that accounts for differential heat loss from individual body regions due to temperature, wind speed, and contact with air or water may provide more detailed estimates of CT and, in turn, carrying capacity. However, such models required detailed morphometrics as model inputs in addition to environmental data. We present morphometrics for 8 dabbling duck species for use in thermoregulation models, as...

Published
2015

36. Weighted Temperature Identities

Author

V. A. Kot

Subjects
Differential heat, Sequence, Weight function, Basis (linear algebra), Mathematical analysis, General Engineering, Complex system, Heat equation, Boundary value problem, Condensed Matter Physics, Eigenvalues and eigenvectors, Mathematics
Abstract

It has been shown that the differential heat conduction equation together with the boundary conditions can be recast as a sequence consisting of integral identities for the weighted temperature. Weight functions take into account the properties of the heat conduction equation and the boundary conditions. The sequence of identities was constructed on the basis of multiple differentiation or integration operators. Using the search for eigenvalues of the boundary value problem as an example, we have demonstrated the high efficiency of such systems.

Published
2015

37. Differential Heat of Adsorption and Isosteres

Author

Yun Tian and Jianzhong Wu

Subjects
Chemistry, Monte Carlo method, Industrial gas, Thermodynamics, 02 engineering and technology, Surfaces and Interfaces, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Amorphous solid, Condensed Matter::Materials Science, Differential heat, Adsorption, Thermal, Electrochemistry, General Materials Science, 0210 nano-technology, Porous medium, Porosity, Spectroscopy
Abstract

Heat of adsorption is a basic thermodynamic property extensively used not only for understanding thermal effects and heat management in industrial gas storage and separation processes but also for development and validation of adsorption models and materials force fields. Despite a long history of theoretical studies and a vast experimental literature, controversies often arise in the thermodynamic analysis of heat effects due to various assumptions used to describe gas adsorption and inconsistencies between direct calorimetric measurements and isosteric heat obtained from various adsorption isotherms. Here we present a rigorous theoretical procedure for predicting isosteric heat without any assumption about the geometry of porous adsorbents or operating conditions. Quantitative relations between the differential heat and various isosteres have been established with the grand-canonical Monte Carlo simulation for gas adsorption in amorphous as well as crystalline porous materials. The inconsistencies and practical issues with conventional methods for the analysis of the heat effect have been clarified in the context of the exact results for model systems. Via the resolution of a number of controversies about heat analysis, we hope that the new theoretical procedure will be adopted for both fundamental research and industrial applications of gas adsorption processes.

Published
2017

38. Expansions in Terms of q-Laguerre Heat Polynomials

Author

M. S. Ben Hammouda

Subjects
Differential heat, Polynomial, Pure mathematics, Series (mathematics), General Mathematics, Mathematical analysis, Laguerre polynomials, Heat equation, Region of convergence, Mathematics
Abstract

In a previous paper M. S. Ben Hammouda and Akram Nemri derived criteria for the expansion of solutions u(x, t) from the generalized q-heat equation, in series of polynomial solutions \({p_{n}^{\alpha}}\), thus extending an analogous theory of the ordinary heat equation developed by P. C. Rosenbloom and D. V. Widder. It is the goal to carry out a parallel study for the q-Laguerre differential heat equation and establish the region of convergence of the series of q-Laguerre heat polynomials and their temperature transforms.

Published
2014

39. Determination of thermal diffusivity for rigid body at non-stationary thermal conditions

Author

Vladimir Agafonov, Sultan Makoev, Viktor Pisarenko, Oleg Derevianko, Mikle Egororov, Pavel Berezin, and Denis Karpov

Subjects
Differential heat, Materials science, Field (physics), Infrared, Thermal, Thermal treatment, Mechanics, Thermal diffusivity, Rigid body
Abstract

In this paper we present a new method for calculation of the thermal diffusivity of a rigid body. This method is based on contactless thermal treatment of the examined construction material by an infrared radiation source. Further we analytically find one-dimensional non-stationary temperature field of a rigid body during its heating using data from thermal elements. The calculation of the thermal diffusivity of a rigid body is made using differential heat equation.

Published
2019

40. Mathematical model of the thermodynamic system during winter concreting of bored piles

Author

Gavril Turantaev, Aleksey Mestnikov, and Valeriy Fedorov

Subjects
lcsh:GE1-350, Materials science, business.industry, Heating element, 0211 other engineering and technologies, Stefan problem, 02 engineering and technology, Thermal treatment, Mechanics, Thermodynamic system, Differential heat, 021105 building & construction, Heat transfer, 021108 energy, Thermosiphon, business, lcsh:Environmental sciences, Thermal energy
Abstract

The article discusses the development of a mathematical model of the thermodynamic system during winter concreting of bored piles. The processes of heat transfer based on the differential heat equation and the Stefan problem are described. A method for calculating the rationale for the parameters of the energy-saving and gentle thermal treatment of concrete using non-traditional sources of thermal energy is proposed. The solutions for using two-phase thermosyphons as heating elements are considered.

Published
2019

41. Study on the Thermodynamic Properties of Two Anti-Cancer Drugs

Author

Dai Huo Liu, J. Q. Gao, Zong-Xiao Li, and Wei Wei Zhao

Subjects
Solvent, Differential heat, Atmospheric pressure, Chemistry, Scientific method, Anti cancer drugs, Enthalpy, General Engineering, Thermodynamics, Dissolution
Abstract

The dissolution enthalpy of Cisplatin and Etoposide in the appropriate solvent were measured by RD496-2000 microcalorimeter under the conditions of atmospheric pressure and 309.65 K. The differential heat and the integral heat of the process are obtained, thereby establishing the relationship between the heat and the amount of solute, knowing that the dissolution process is the pseudo-first order reaction. In turn, the half-life, △solHm, △solGm, △solSm are also can obtained.

Published
2013

42. Calorimetric study of water adsorption on saponite

Author

V. E. Polyakov and Yu. I. Tarasevich

Subjects
Mineral, Ion exchange, Chemistry, Inorganic chemistry, technology, industry, and agriculture, Surfaces and Interfaces, engineering.material, Matrix (chemical analysis), Differential heat, Colloid and Surface Chemistry, Adsorption, engineering, Molecule, Saponite, Physical and Theoretical Chemistry, Water vapor
Abstract

The isotherms and differential heats of water vapor adsorption on Na- and Ca-saponite samples are measured. It is shown that the successive stages of hydration of the internal surface of this mineral appear as waves or inflections in the adsorption isotherms and maxima in the dependences of the differential heat on the adsorption value. The compositions of Na+ and Ca2+ aquacations in single- and double-layer saponite hydrates are determined. The heats of interaction between water molecules and interlayer Na+ cations in single-layer saponite hydrates and between Na+ cations and the ion exchanger matrix are estimated.

Published
2012

43. Chilled orange juices stabilized by centrifugation and differential heat treatments applied to low pulp and pulpy fractions

Author

Amparo Tárrega, M.C. Gurrea, Enrique Sentandreu, and J.V. Carbonell

Subjects
Orange juice, Heat resistant, PME activity, Chemistry, Pasteurization, General Chemistry, Orange (colour), Industrial and Manufacturing Engineering, law.invention, Differential heat, law, Centrifugation, Aseptic processing, Food science, Food Science
Abstract

Thermal treatments of citrus juices to inactivate microorganisms and pectinmethylesterase (PME) must be as soft as possible to preserve fresh taste. PME, a cell wall enzyme associated with pulp, is more heat resistant than spoilage microorganisms. This paper analyzes fresh taste and storage stability of orange juices in which the pulp receives a heat treatment more intense than the rest of the juice. The products compared where: A) low pulp juice treated at 60 °C–15 s; B) aseptic blend of A and the corresponding pulpy fraction treated at 85 °C–15 s; C) non aseptic blend of non-treated low pulp fraction and the corresponding pulpy fraction treated at 85 °C–15 s. Product C was finally treated at 60 °C–15 s and packed under aseptic conditions. PME activity in A, B and C was around 10% of that in the original juice (1.30 nkat/ml). After 12 months at 3 °C, juices B and C retained the original fresh taste with minimal losses of color and cloudiness. Juice A maintained fresh taste but its color and cloud were not satisfactory. Industrial Relevance The procedures proposed in this paper can be applied to produce chilled orange juices without losses in fresh taste having in addition, higher stability than commercial juices. Other advantages when compared to non thermal emergent technologies are that can be carried out by regular equipments used in citrus industries with an important energy saving. These procedures imply energy savings of 22% to 38% when compared to thermal requirements of juice pasteurization at 85 °C.

Published
2011

44. Textural Characterization and Energetics of Porous Solids by Adsorption Calorimetry

Author

Juan Carlos Moreno-Piraján, Liliana Giraldo, and Vanessa S. Garcia-Cuello

Subjects
Work (thermodynamics), Control and Optimization, Pellets, Energy Engineering and Power Technology, Calorimetry, porous solids, lcsh:Technology, jel:Q40, Adsorption, differential heat, jel:Q, jel:Q43, jel:Q42, medicine, jel:Q41, jel:Q48, jel:Q47, Electrical and Electronic Engineering, Monolith, Zeolite, Engineering (miscellaneous), jel:Q49, geography, geography.geographical_feature_category, Chromatography, Renewable Energy, Sustainability and the Environment, Chemistry, lcsh:T, adsorption microcalorimeter, isotherm, jel:Q0, equipment and supplies, jel:Q4, Chemical engineering, adsorption, Brønsted–Lowry acid–base theory, Energy (miscellaneous), Activated carbon, medicine.drug
Abstract

An adsorption microcalorimeter was designed and built in our laboratory and used for the determination of differential adsorption heats in different samples of porous solids: activated carbon granules, activated carbon pellets, an activated carbon monolith and a zeolite sample. This work shows the relationship between adsorption heat and the pore size of different porous solids using adsorption of NH 3 , CO and N 2 O. The result shows that the thermal effect can be related with textural properties and superficial chemical groups of the studied porous solids. The values of differential heats of N 2 O adsorption in the investigated systems have shown that this interaction is weaker than that with CO. Small amounts of N 2 O are chemisorbed in the investigated systems. For the room temperature adsorption of N 2 O, the strongest active sites for the interaction with Brönsted acid groups in the ACM structure were identified. The values determined are between −60 kJ/mol and −110 kJ/mol for ZMOR and ACM, respectively, for the adsorption of N 2 O and −95 kJ/mol and −130 kJ/mol for the adsorption of CO.

Published
2011

45. Mathematical modeling of temperature fields and concrete strength during winter concreting of building structures

Author

Gavril Turantaev, Valeriy Fedorov, and Alexey Mestnikov

Subjects
Field (physics), business.industry, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Structural engineering, 0201 civil engineering, Differential heat, lcsh:TA1-2040, 021105 building & construction, Heat transfer, Boundary value problem, lcsh:Engineering (General). Civil engineering (General), business, Interpolation
Abstract

In this paper we present a mathematical model of a three-dimensional non-stationary temperature field for concrete that hardens in winter conditions. The developed mathematical model describes heat transfer processes basing on the differential heat equation. We also consider the classical boundary conditions of the I, II, III and IV kinds. We compiled a computer interpolation of the family of nomograms in the second order regression equation in order to calculate the relative theoretical strength of concrete after heat treatment.

Published
2018

46. A new microcalorimeter of adsorption for the determination of differential enthalpies

Author

Juan Carlos Moreno-Piraján, Karim Sapag, Liliana Giraldo-Gutierréz, G. Zgrablich, and Vanessa S. Garcia-Cuello

Subjects
Differential heat, Adsorption, Mechanics of Materials, Chemistry, Enthalpy, Thermodynamics, General Materials Science, General Chemistry, Sorption isotherm, Condensed Matter Physics, Zeolite, Molecular sieve
Abstract

An adsorption microcalorimeter for the determination of the differential heat of adsorption is designed and built, and some of the results are presented here. For this purpose, a Calvet heat-conducting microcalorimeter is developed and is connected to a gas volumetric unit built in stainless steel to record adsorption isotherms. The microcalorimeter is electrically calibrated to establish its sensitivity and reproducibility, obtaining K = 154.34 ± 0.23 W V −1 and, chemically, it is examined with a THAM–HCL system, obtaining Δ f = −30.49 ± 0.05 kJ mol −1 .The adsorption microcalorimeter is used here to obtain adsorption isotherms and the corresponding differentials heats, using as reference solid, a zeolite ZSM-5 type.

Published
2009

47. Construção de um calorímetro isotérmico diferencial de alta sensibilidade e baixo custo

Author

Carlos Eduardo Perles, Rafael Bergamo Trinca, and Pedro L. O. Volpe

Subjects
excess enthalpy of solution, binary mixture, Differential heat, Research groups, Materials science, Thermoelectric effect, calorimeter, Calibration, Analytical chemistry, Mineralogy, General Chemistry, Calorimeter, Enthalpy change of solution
Abstract

The high cost of sensitivity commercial calorimeters may represent an obstacle for many calorimetric research groups. This work describes the construction and calibration of a batch differential heat conduction calorimeter with sample cells volumes of about 400 μL. The calorimeter was built using two small high sensibility square Peltier thermoelectric sensors and the total cost was estimated to be about US$ 500. The calorimeter was used to study the excess enthalpy of solution of binary mixtures of liquids, as a function of composition, for the following binary systems of solvents: water + 1,4-dioxane or + dimethylsulfoxide at 298,2 ± 0,5 K.

Published
2009

48. Investigation on thermodynamics characteristics of biomass thermal decomposition using TG/DSC method

Author

J.H. Huang, C.P. Cen, Z.J. Tang, Z.X. Tang, and P. Fang

Subjects
Materials science, Quantitative Biology::Tissues and Organs, Thermal decomposition, Thermodynamics, Biomass, Combustion, Quantitative Biology::Other, Differential heat, Biomass combustion, Thermal, Quantitative Biology::Populations and Evolution, Physics::Chemical Physics, Pyrolysis, Physics::Atmospheric and Oceanic Physics
Abstract

KEYWORD: biomass; DSC analysis; combustion and pyrolysis; thermal decomposition ABSTRACT: Based on results of biomass combustion and pyrolysis using TG-DSC analyzer, biomass thermodynamics characteristics were studied. Integrated heat model and differential heat model were used to determined biomass thermal behavior, and the former fitted the actual better; the heat capacities with temperature can be empirically expressed in the linear form as: . Study results provided an insight of biomass thermal decomposition mechan- ism.

Published
2015

49. Catalytic cracking of n-alkane naphtha: The impact of olefin addition and active sites differentiation

Author

Jesús Mengual, Avelino Corma, and Pablo J. Miguel

Subjects
Alkane, chemistry.chemical_classification, Naphtha, Olefin fiber, Isosteric heat, Kinetic models, Chemistry, Thermal desorption spectroscopy, Zeolite ZSM-5, Photochemistry, Fluid catalytic cracking, Cracking mechanisms, Catalysis, Differential heat, Cracking, QUIMICA ORGANICA, Catalytic cracking, Chemical physics, Temperature-programmed desorption, Physical and Theoretical Chemistry, Zeolite, TECNOLOGIA DEL MEDIO AMBIENTE
Abstract

An extended dual kinetic model allows to fit the n-heptane cracking results working in a wide range of reaction conditions. The duality of the model is provided by the contribution of monomolecular and bimolecular cracking mechanisms. It takes into account the role played by the olefins formed on the global cracking or added within the feed. Furthermore by means of this model and the kinetic parameters obtained when cracking n-heptane on ZSM-5, it has been observed that, while some characterization techniques show a homogeneous zeolite surface from the point of view of the active sites, rigorous kinetic experiments point to the possibility that the reactant sees a heterogeneous surface with, at least, two groups of cracking active sites. Those differentiated active sites give different cracking rates and different activation energies for the process and, in the case of ZSM-5, could be assimilated to sites pointing to the 10R channels and sites pointing into the crossing of the 10R channels, mainly due to differences in kid site location and confinement effects. (C) 2015 Elsevier Inc. All rights reserved., Financial support by the Ministerio de Economia y Competitividad of Spain (MINECO) [Programa Estatal (Project MAT2012-31657) and Programa Consolider-Ingenio 2010 (Project MULTICAT)] is gratefully acknowledged.

Published
2015

50. Adsorption thermodynamics of monomers on diluted-bonds triangular lattices

Author

A.J. Ramirez-Pastor, G. Zgrablich, Mildred Quintana, and M. Pasinetti

Subjects
Surface (mathematics), Phase transition, Monte Carlo method, Thermodynamics, Surfaces and Interfaces, Condensed Matter Physics, Surfaces, Coatings and Films, Amorphous solid, Condensed Matter::Soft Condensed Matter, Condensed Matter::Materials Science, chemistry.chemical_compound, Differential heat, Adsorption, Monomer, chemistry, Materials Chemistry, Hexagonal lattice
Abstract

The surface of amorphous solids cannot be usually represented by a regular lattice of adsorbing sites. One of the main characteristics of such surfaces is a variable connectivity for each site. A simple model consisting of a triangular lattice where a fraction of bonds (interactions) is suppressed at random is used here to find out, by using Monte Carlo simulations, how the adsorption thermodynamics of repulsively interacting monomers is modified with respect to the same process in the regular lattice. Adsorption isotherm, differential heat of adsorption and adsorbed phase entropy calculations are carried out showing and interpreting the effects of the variable connectivity. In particular, it is found that the order–disorder phase transition observed for the regular lattice survives, though with modifications, above a critical mean connectivity.

Published
2006

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