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1. Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

Author

Hui Wang, Yunfa Chen, Jianqiang Li, Lijiang Guo, and Minghao Fang

Subjects
salt hydrate, core-shell microcapsules, phase change materials, encapsulating methods, application, Technology (General), T1-995, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with core-shell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields.

Published
2019
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2. Experimental Investigation on Mechanism of Latent Heat Reduction of Sodium Acetate Trihydrate Phase Change Materials

Author

Liu Wu, Jianqiang Li, Hui Wang, Ying Zhang, Shaowei Feng, Yongchang Guo, Jianling Zhao, Xixin Wang, and Lijiang Guo

Subjects
phase change materials, sodium acetate trihydrate, phase separation, latent heat reduction, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Sodium acetate trihydrate (SAT) phase change material (PCM) has been well known for thermal energy storage due to its high latent heat and resource abundance. However, SAT suffers from severe latent heat reduction after heating and cooling cycles. Although a few of previous researches showed the reduction could be effectively inhibited by using thickeners, the mechanisms of the reduction process and thickeners’ inhibition have not been deeply explored till now. In this work, SAT modified by 5 wt.% nucleating agent of disodium hydrogen phosphate dodecahydrate (SAT/5 wt.% DSP) was prepared and 200 thermal cycles were carried out. The differential scanning calorimeter, Rheometer, X-ray diffractometry, and scanning electron microscope were used to investigate the extent of latent heat reduction, viscosity, phase composition and microstructure, respectively, and the infrared thermal imaging method was used to evaluate heat storage capacity. It was found that the latent heat of SAT/5 wt.% DSP dropped dramatically and the relative decrease in latent heat was measured to be 22.44%. The lower layer of SAT/5 wt.% DSP contained 24.1 wt.% CH3COONa, which was quantitatively consistent with the reduction extent. Furthermore, the phase change endothermic time of the lower layer was only 44.1% of that of the upper. SAT/5 wt.% DSP was further modified by 3 wt.% thickener of carboxymethyl cellulose (SAT/5 wt.% DSP/3 wt.% CMC) and endured 200 thermal cycles. The extent of the latent heat reduction of SAT/5 wt.% DSP/3 wt.% CMC was only 9.29%, and phase compositions were more homogeneous. The 3 wt.% CMC increased viscosity by 14 times, which effectively prevented the Stokes sedimentation velocity of CH3COONa in melts and inhibited the final macroscopic phase separation.

Published
2020
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5. Solubility Phase Diagram of the Ternary System LiCl–MgCl2–H2O and Li2SO4–MgSO4–H2O at 348.15 K

Author

Fayan Zhu, Lijiang Guo, and Hongxia Li

Subjects
Ternary numeral system, Chemistry, General Chemical Engineering, Phase (matter), Thermodynamics, General Chemistry, Solubility, Ternary operation, Isothermal process, Phase diagram
Abstract

The solubility isotherms of the ternary systems LiCl–MgCl2–H2O and Li2SO4–MgSO4–H2O were elaborately redetermined at 348.15 K using an isothermal equilibrium method. The compositions of solid phase...

Published
2020

6. Solubility and Phase Equilibrium Investigation of the Ternary System CsCl–MgCl2–H2O at T = 273.15, 308.15, and 348.15 K

Author

Lijiang Guo and Hongxia Li

Subjects
chemistry.chemical_classification, Ternary numeral system, Chemistry, Phase equilibrium, General Chemical Engineering, Extraction (chemistry), Analytical chemistry, Salt (chemistry), chemistry.chemical_element, General Chemistry, Atmospheric temperature range, Caesium, Solubility, Phase diagram
Abstract

The solubility and phase diagram of the CsCl–MgCl2–H2O ternary system, at a relatively wide temperature range, are significantly important for the extraction of the cesium resources from salt lakes...

Published
2020

7. Solubility Measurement of the Solid Solution Containing the RbCl–CsCl–H2O System from T = 298.15 to 348.15 K

Author

Hongxia Li and Lijiang Guo

Subjects
Ternary numeral system, Chemistry, General Chemical Engineering, Analytical chemistry, General Chemistry, Atmospheric temperature range, Solubility, Solid solution
Abstract

The solubility of the RbCl–CsCl–H2O ternary system has been investigated at the temperature range from 298.15 to 348.15 K by two different methods, namely, the Flow-Cloud-Point (FCP) method and the...

Published
2020

8. Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials

Author

Jianqiang Li, Yunfa Chen, Lijiang Guo, Hui Wang, and Minghao Fang

Subjects
chemistry.chemical_classification, Materials science, core-shell microcapsules, General Chemical Engineering, General Engineering, Salt (chemistry), General Chemistry, Core shell, encapsulating methods, Phase change, chemistry, Chemical engineering, phase change materials, salt hydrate, lcsh:Technology (General), lcsh:T1-995, lcsh:QC770-798, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, General Materials Science, Hydrate, application
Abstract

The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with core-shell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields.

Published
2020

9. Controllable formation of lithium carbonate surface phase during synthesis of nickel-rich LiNi0.9Mn0.1O2 in air and its protection role in electrochemical reaction

Author

Lijiang Guo, Weiguo Chu, Hanfu Wang, Shuzhen Liu, Yueming Jiang, Xinghua Tan, Xiaohong Kang, and Jiangtao Zhang

Subjects
Materials science, chemistry.chemical_element, 02 engineering and technology, Electrolyte, engineering.material, 010402 general chemistry, Electrochemistry, 01 natural sciences, Oxygen, law.invention, Crystallinity, Coating, law, Oxidizing agent, Materials Chemistry, Calcination, Mechanical Engineering, Metals and Alloys, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Nickel, chemistry, Chemical engineering, Mechanics of Materials, engineering, 0210 nano-technology
Abstract

It has been well recognized that Li2CO3 is inevitably formed at the surface of nickel rich layered compounds (NRLC) upon storage in air which is usually considered to be detrimental to the performance. Actually, its formation may have been triggered during synthesis of NRLC. However, little is known of its formation during synthesis of NRLC in air and its interaction behaviors with electrolyte during electrochemical process. Herein, we successfully tailor Li2CO3 surface phase simply by controlling calcination time during synthesis of structurally well ordered LiNi0.9Mn0.1O2 particles with great similarity in structure, morphology, size and crystallinity in air using a facile sol-gel method. The thickness of Li2CO3 layer is for the first time observed to decrease with increased calcination time, accompanied by the reduced Ni2+ at surface. More oxygen vacancies caused by more Ni2+ owing to the difficulty of oxidizing Ni2+ to Ni3+ at the surface are proposed here to be responsible for the formation of more Li2CO3 for shorter calcination times. Li2CO3 surface phase is evidenced to favor not only suppressing the H2/H3 phase transition but alleviating the interaction of LiNi0.9Mn0.1O2 with electrolyte because of the coating effect, which therefore improves the cycling stability of LiNi0.9Mn0.1O2 at low rates. Therefore, this study not only provides a new insight into the surface changes of LiNi0.9Mn0.1O2 with calcination time at high temperature during synthesis in air, but opens up a new avenue to tailoring Li2CO3 surface phase as desired by controlling the oxidization extent of Ni2+ to Ni3+ to modulate oxygen vacancies at surface through employing different oxidizing atmospheres or calcination times for performance improvement or exploration of novel preparation approaches of high performance NRLC.

Published
2019

10. Water Activity and Solubility of the System MgCl2–RbCl–H2O at 323.15 K

Author

Lijiang Guo, Jianqiang Li, and Hongxia Li

Subjects
Work (thermodynamics), Ternary numeral system, Water activity, Chemistry, Biophysics, Thermodynamics, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, law.invention, Pitzer model, 020401 chemical engineering, law, 0204 chemical engineering, Physical and Theoretical Chemistry, Solubility, Crystallization, Ternary operation, Molecular Biology
Abstract

The water activities of the MgCl2–RbCl–H2O ternary system and its sub-binary systems have been measured with the isopiestic method at 323.15 K. The measured water activities for the MgCl2–H2O and RbCl–H2O sub-binary systems agree well with the results reported in literature. The measured equal water activity lines of the MgCl2–RbCl–H2O ternary system are not straight lines, which means the mixing behavior of the solutions do not obey Zdanovskii’s rule. The solubility of the MgCl2–RbCl–H2O ternary system has been determined with the Flow-Cloud-Point method at 323.15 K, and the measured results are roughly consistent with values reported in the literature. The Pitzer model was selected to correlate the water activity and solubility data measured in this work. The predicted water activities and solubility isotherm for the MgCl2–RbCl–H2O ternary system at 323.15 K, with binary solution parameters only, both deviated from the experiment values. The ternary solution Pitzer model parameters were obtained by fitting the measured water activities in the ternary system. The water activities and solubility isotherms of the MgCl2–RbCl–H2O ternary system at 323.15 K were calculated including both binary and ternary solution parameters. The calculated water activities are consistent with the experimental values. The calculated solubility isotherms are roughly consistent with experiment values, except they deviate somewhat in the RbCl crystallization region.

Published
2018

12. Experimental Investigation on Mechanism of Latent Heat Reduction of Sodium Acetate Trihydrate Phase Change Materials

Author

Jianqiang Li, Liu Wu, Jianling Zhao, Haiyan Wang, Yongchang Guo, Xixin Wang, Shaowei Feng, Lijiang Guo, and Ying Zhang

Subjects
Materials science, 020209 energy, Analytical chemistry, 02 engineering and technology, Thermal energy storage, lcsh:Technology, Endothermic process, Article, Viscosity, Differential scanning calorimetry, sodium acetate trihydrate, Phase (matter), Latent heat, 0202 electrical engineering, electronic engineering, information engineering, medicine, General Materials Science, lcsh:Microscopy, lcsh:QC120-168.85, lcsh:QH201-278.5, lcsh:T, 021001 nanoscience & nanotechnology, Phase-change material, Carboxymethyl cellulose, latent heat reduction, lcsh:TA1-2040, phase change materials, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, phase separation, lcsh:Engineering (General). Civil engineering (General), 0210 nano-technology, lcsh:TK1-9971, medicine.drug
Abstract

Sodium acetate trihydrate (SAT) phase change material (PCM) has been well known for thermal energy storage due to its high latent heat and resource abundance. However, SAT suffers from severe latent heat reduction after heating and cooling cycles. Although a few of previous researches showed the reduction could be effectively inhibited by using thickeners, the mechanisms of the reduction process and thickeners’ inhibition have not been deeply explored till now. In this work, SAT modified by 5 wt.% nucleating agent of disodium hydrogen phosphate dodecahydrate (SAT/5 wt.% DSP) was prepared and 200 thermal cycles were carried out. The differential scanning calorimeter, Rheometer, X-ray diffractometry, and scanning electron microscope were used to investigate the extent of latent heat reduction, viscosity, phase composition and microstructure, respectively, and the infrared thermal imaging method was used to evaluate heat storage capacity. It was found that the latent heat of SAT/5 wt.% DSP dropped dramatically and the relative decrease in latent heat was measured to be 22.44%. The lower layer of SAT/5 wt.% DSP contained 24.1 wt.% CH3COONa, which was quantitatively consistent with the reduction extent. Furthermore, the phase change endothermic time of the lower layer was only 44.1% of that of the upper. SAT/5 wt.% DSP was further modified by 3 wt.% thickener of carboxymethyl cellulose (SAT/5 wt.% DSP/3 wt.% CMC) and endured 200 thermal cycles. The extent of the latent heat reduction of SAT/5 wt.% DSP/3 wt.% CMC was only 9.29%, and phase compositions were more homogeneous. The 3 wt.% CMC increased viscosity by 14 times, which effectively prevented the Stokes sedimentation velocity of CH3COONa in melts and inhibited the final macroscopic phase separation.

Published
2020
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13. Solar-driven phase change microencapsulation with efficient Ti4O7 nanoconverter for latent heat storage

Author

Lijiang Guo, Xiangmin Meng, Xiaoyu Li, Ying Zhang, Jianqiang Li, and Chenyu Ma

Subjects
Materials science, Renewable Energy, Sustainability and the Environment, business.industry, Nanoparticle, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Solar energy, Thermal energy storage, 01 natural sciences, Storage efficiency, Energy storage, 0104 chemical sciences, Thermal conductivity, Chemical engineering, Thermal, General Materials Science, Electrical and Electronic Engineering, 0210 nano-technology, business, Mass fraction
Abstract

A sort of novel microencapsulated phase change materials (PCMs) has attracted much attention for energy storage. However, the solar energy utilization efficiency of traditional microcapsulated PCMs is still not very high up to date. In this work, new core@shell structured paraffin@SiO2/Ti4O7 composite microcapsules were developed to harvest environmental full-spectrum sunlight by smart and rational design using a sol-gel method. The SiO2 shell not only prevented the leakage of paraffine, but also improves its thermal conductivity. The black 300 nm Ti4O7 particles, which were successfully embedded into the SiO2 shell, can achieve the efficient absorption of sunlight and simultaneously high conversion from light to thermal. The resultant paraffin@SiO2/Ti4O7 microcapsules retained most enthalpy of paraffin, increased its stability, and exhibited an excellent thermal energy storage performance. The thermal conductivity of paraffin@SiO2/Ti4O7 microcapsules was significantly enhanced by 334.87% (1.322 W m−1 K−1) compared with 0.304 W m−1 K−1 of one for paraffin. When the mass fraction of Ti4O7 nanoparticles is 3 wt% of paraffin, these paraffin@SiO2/Ti4O7 microcapsules exhibited remarkable 85.36% of photo-thermal storage efficiency compared with 24.14% of one for paraffin. Due to their huge superiority of high efficient use of abundant solar energy in natural resources, these new photo-driven PCMs are very promising materials for solar-to-thermal conversion and energy storage.

Published
2018

14. Water Activity, Solubility Determination, and Model Simulation of the CaCl2–SrCl2–H2O Ternary System at 323.15 K

Author

Dongdong Li, Junjie Ma, Zhifeng Xu, Xiang Ji, Lijiang Guo, Yan Yao, and Haijun Han

Subjects
Work (thermodynamics), Ternary numeral system, Water activity, Chemistry, General Chemical Engineering, Thermodynamics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 01 natural sciences, Isothermal process, 0104 chemical sciences, 020401 chemical engineering, Phase (matter), Model simulation, 0204 chemical engineering, Solubility, Solid solution
Abstract

Water activities for the CaCl2–SrCl2–H2O ternary system and its sub-binary system were elaborately determined using an isopiestic vapor-pressure method at 323.15 K. The solubility of the titled ternary system at 323.15 K was also determined by the isothermal equilibrium method. The Pitzer–Simonson–Clegg (PSC) model was used for correlating the determined water activity and solubility data, simulating the thermodynamic properties, and predicting the solubility isotherm of the titled system. The reliability of the determined solubility results in this work was evaluated by comparing with the solubility isotherms calculated with the PSC model. The model simulation results showed that the thermodynamic properties and solubility can be predicted with binary parameters only. The experiment and simulation results showed that the equilibrium solid phase in the CaCl2–SrCl2–H2O ternary system are pure salts, and no solid solution was found at 323.15 K.

Published
2018

15. Water Activity and Solubility Measurements and Model Simulation of the CsCl–MgCl2–H2O Ternary System at 323.15 K

Author

Lijiang Guo, Yaxiao Wang, Lanying Tu, and Jianqiang Li

Subjects
Ternary numeral system, Water activity, Chemistry, General Chemical Engineering, Mixing (process engineering), Binary number, Thermodynamics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Strong electrolyte, 020401 chemical engineering, Binary system, 0204 chemical engineering, Solubility, Ternary operation
Abstract

Water activities in the ternary system CsCl–MgCl2–H2O and its sub-binary systems at 323.15 K were elaborately measured by an isopiestic method. Moreover, the solubility of the CsCl–MgCl2–H2O system at 323.15 K was also measured by the flow-cloud-point method. A Pitzer model was used to predict the measured water activity and solubility data. The binary parameters for the CsCl–H2O system at 323.15 K were obtained by fitting the measured water activities for this binary system. The calculated water activity and solubility isotherms for the CsCl–MgCl2–H2O system at 323.15 K, with binary parameters only, deviated from the experimental values. This means that it is insufficient with binary parameters only to predict the water activity and calculate the solubility isotherms of the CsCl–MgCl2–H2O system at 323.15 K. The calculated solubility isotherms with both binary and mixing parameters, obtained by fitting the measured water activity, also deviated from experimental values. A new set of reasonable ternary pa...

Published
2018

16. Water Activity and Phase Equilibria Measurements and Model Simulation for the KCl–SrCl2–H2O System at 323.15 K

Author

Dongdong Li, Haijun Han, Lijiang Guo, and Yan Yao

Subjects
Work (thermodynamics), Ternary numeral system, Water activity, Chemistry, General Chemical Engineering, Thermodynamics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 01 natural sciences, Isothermal process, 0104 chemical sciences, 020401 chemical engineering, Phase (matter), Model simulation, 0204 chemical engineering, Solubility, Phase diagram
Abstract

Water activities for the ternary system of KCl–SrCl2–H2O and its sub-binary system SrCl2–H2O were elaborately measured using an isopiestic method at 323.15 K. The solubility isotherms for the KCl–SrCl2–H2O system were determined by the isothermal equilibrium method. It is found that the measured isopiestic composition lines for the KCl–SrCl2–H2O system deviated from the Zdanovskii rule, especially at a lower water activity. The Pitzer–Simonson–Clegg model was used to correlate the measured water activity and solubility data, simulate the thermodynamic properties, and predict the solubility of the ternary system. The reliability of the solubility data measured in this work was evaluated by comparing with the solubility isotherms calculated with the Pitzer–Simonson–Clegg model. The measured water activity and solubility results are of great importance for predicting the phase diagram of other multicomponent systems that related to this ternary system.

Published
2017

17. Water Activity and Solubility Measurements and Pitzer Model Simulation of the MgCl2–RbCl–H2O Ternary System at 298.15 K

Author

Jianqiang Li, Lijiang Guo, Yaxiao Wang, and Lanying Tu

Subjects
Work (thermodynamics), Ternary numeral system, Water activity, Chemistry, Biophysics, Thermodynamics, 02 engineering and technology, Rubidium chloride, 010402 general chemistry, 01 natural sciences, Biochemistry, Isothermal process, 0104 chemical sciences, Pitzer model, chemistry.chemical_compound, 020401 chemical engineering, Pitzer equations, 0204 chemical engineering, Physical and Theoretical Chemistry, Solubility, Molecular Biology
Abstract

Water activities for the MgCl2–RbCl–H2O ternary system and its sub-binary MgCl2–H2O and RbCl–H2O systems at 298.15 K have been measured using the isopiestic method. The measured results for the binary systems agree well with literature data. The measured equal water activity lines for the MgCl2–RbCl–H2O ternary system deviate from Zdanovskii’s rule. The solubilities for the MgCl2–RbCl–H2O ternary system also have been measured using a isothermal visual first/last crystal method, and the results are consistent with one reported set of solubility data. Pitzer’s model was selected to correlate the measured water activity and solubility data and the parameters reported in the literature are re-examined by comparing the model-calculated equal water activity lines and solubilities with experimental values measured in this work. New and reasonable parameters are obtained by fitting the water activity and solubility data measured in this work and those reported in the literature. The water activities and solubilities were simulated with the new parameters and the results show that the Pitzer model can successfully represent the thermodynamic properties and be used to calculate the solubility isotherms.

Published
2017

18. Thermodynamics and Phase Equilibrium of the System CsCl–MgCl2–H2O at 298.15 K

Author

Yaxiao Wang, Lanying Tu, Lijiang Guo, and Jianqiang Li

Subjects
Activity coefficient, Work (thermodynamics), Aqueous solution, Ternary numeral system, Chemistry, General Chemical Engineering, Thermodynamics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 01 natural sciences, Isothermal process, 0104 chemical sciences, Strong electrolyte, 020401 chemical engineering, 0204 chemical engineering, Solubility, Ternary operation
Abstract

Water activities of the CsCl–MgCl2–H2O ternary system and its sub-binary systems were elaborately measured by an isopiestic method at 298.15 K. The solubility of this ternary system at 298.15 K was also measured by two different methods, namely isothermal method and Flow-Cloud-Point method. The solubilities measured by the two different methods were consistent with each other. A Pitzer model was used to represent the thermodynamic properties and calculate the solubility isotherms for the CsCl–MgCl2–H2O ternary system at 298.15 K. Both the equal water activity lines and the solubility isotherms are calculated with parameters reported in literature. It was found that only the calculated equal water activity lines with the parameters reported by Scharge et al. are consistent with the experimental values of this work. However, all the calculated solubility isotherms deviated from the experimental data in this work. New set of ternary parameters were obtained by fitting the water activities and solubility data...

Published
2017

19. Thermodynamics and phase equilibrium of the high concentration solid solution-aqueous solution system KCl–RbCl–H2O from T=298.15K to T=323.15K

Author

Yan Yao, Lijiang Guo, Ouyang Dong, and Haijun Han

Subjects
Aqueous solution, Ternary numeral system, 010304 chemical physics, Water activity, Chemistry, Thermodynamics, 02 engineering and technology, Atmospheric temperature range, Rubidium chloride, 01 natural sciences, Atomic and Molecular Physics, and Optics, chemistry.chemical_compound, 020401 chemical engineering, Phase (matter), 0103 physical sciences, General Materials Science, 0204 chemical engineering, Physical and Theoretical Chemistry, Solubility, Solid solution
Abstract

Water activities of the high concentration solid solution-aqueous solution system (SS-AS) KCl-RbCIl-H2O and its sub-binary systems at T= 298.15 K and T=323.15 K have been elaborately measured by an isopiestic method. The solubility of this ternary system at T= (298.15, 308.15 and 323.15) K was also measured by a Flow-Cloud-Point method. A Pitzer model was used to estimate the reliability of the solubility reported in the literature, and to judge the type of solid phase, by correlating the measured water activity and the reported solubility values. The binary model parameters as a function of temperature between T=298.15 K and T=323.15 K were obtained by fitting the water activities in the binary systems. The predicted water activities at T=298.15 K and T= 323.15 K with the obtained binary parameters only, are in good agreement with the experimental values, which indicate that the Pitzer model can reliably represent the properties of the ternary system, with binary parameters only within the temperature range from T=298.15 K to T=323.15 K. Under the different assumptions that the equilibrium solid phase involved the pure salts (KCl(s) and RbCl(s) for the ideal solid solution or regular solid solution (K, Rb)Cl-(ss), the solubility isotherms at T= (298.15, 308.15 and 323.15) K were calculated and compared to experimental results, respectively. It was found that only the calculated solubility isotherms for (K, Rb)Cl-(ss) regular solid solution are consistent with the corresponding experimental values. The solid phase equilibrated with the aqueous solution in the KCI-RbCl-H2O ternary system should be a regular solid solution (K, Rb)Cl-(ss). This conclusion also can be verified from the Lippman log Sigma K-X-s - X-act and Phi Sigma(m) - X-s - X-aq equilibrium diagrams. (C) 2016 Elsevier Ltd.

Published
2017

20. Isopiestic measurements of water activities and thermodynamic modeling for CuCl2−MCl2−H2O (M = Mg, Ca) ternary system at t = 298.15 K

Author

Quanbao Zhou, Dewen Zeng, and Lijiang Guo

Subjects
Work (thermodynamics), Ternary numeral system, Water activity, 010405 organic chemistry, Chemistry, Magnesium, General Chemical Engineering, General Physics and Astronomy, chemistry.chemical_element, Thermodynamics, 02 engineering and technology, Electrolyte, 01 natural sciences, 0104 chemical sciences, 020401 chemical engineering, Molecule, 0204 chemical engineering, Physical and Theoretical Chemistry, Solubility, Ternary operation
Abstract

Water activities of the CuCl2−MCl2−H2O (M = Mg, Ca) ternary systems and their sub-binary systems have been measured by the isopiestic method at 298.15 K. The maximum concentrations of the CuCl2−H2O, MgCl2−H2O and CaCl2−H2O binary systems are 5.28 mol•kg−1, 5.25 mol•kg−1 and 6.61 mol•kg−1, respectively. The concentrations of mixture solution rang from 0.91 mol•kg−1 to 5.69 mol•kg−1 for CuCl2−MgCl2−H2O system, and 1.29 mol•kg−1 to 6.87 mol•kg−1 for CuCl2−CaCl2−H2O system. The measured water activities of the sub-binary systems are consistent with the experimental results reported in literature. The measured equal water activities in the ternary systems strongly deviate from the Zdanovskii-Stokes-Robinson (ZSR) lines. The Pitzer model, Pitzer-Simonson-Clegg (PSC) model and Reaction model were selected to correlate and predict the water activity obtained in this work and the solubility reported in literature for the CuCl2−MCl2−H2O (M = Mg, Ca) ternary systems at 298.15 K. It was found that, the Pitzer model and PSC model cannot consistently represent these thermodynamic properties, with the binary and mixing parameters that already reported or fitted in this work. However, the Reaction model, representing the different competition association ability of common-anions and water molecules with different cations, can successfully predictethe water activity and solubility isotherms in these ternary systems at 298.15 K with binary parameters only. Applying the Reaction model, some examples of the Cu-bearing species distribution as a function of MgCl2 (CaCl2) molalities are given and used to account for how the structure variation of a electrolyte solution influences its macroproperties.

Published
2021

21. Phase diagrams and thermochemical modeling of salt lake brine systems. II. NaCl+H2O, KCl+H2O, MgCl2+H2O and CaCl2+H2O systems

Author

Xia Yin, Dongdong Li, Haijun Han, Lijiang Guo, Yan Yao, and Dewen Zeng

Subjects
Activity coefficient, 010405 organic chemistry, Chemistry, General Chemical Engineering, Enthalpy, Aqueous two-phase system, Thermodynamics, General Chemistry, 010402 general chemistry, 01 natural sciences, Heat capacity, 0104 chemical sciences, Computer Science Applications, Dilution, Brine, Osmotic coefficient, Physics::Chemical Physics, Phase diagram
Abstract

This study is part of a series of studies on the development of a multi-temperature thermodynamically consistent model for salt lake brine systems. Under the comprehensive thermodynamic framework proposed in our previous study, the thermodynamic properties of the binary systems (i.e., NaCl+H2O, KCl+H2O, MgCl2+H2O and CaCl2+H2O) are simulated by the Pitzer–Simonson–Clegg (PSC) model. Various thermodynamic properties (i.e., water activity, osmotic coefficient, mean ionic activity coefficient, enthalpy of dilution and solution, relative apparent molar enthalpy, heat capacity of aqueous phase and solid phases) are collected and fitted to the model equations. The thermodynamic properties of these systems are reproduced or predicted by the obtained model parameters. Comparison to the experimental or model values in the literature suggests that the model parameters determined in this study can describe all of the thermodynamic and phase equilibria properties over wide temperature and concentration ranges. This modeling study of binary systems provides a solid basis for property predictions of salt lake brines under complicated conditions.

Published
2016

22. Solubility and phase diagram investigation of the ternary system LiCl–SrCl2–H2O at 323.15 K and 348.15 K

Author

Lijiang Guo and Hongxia Li

Subjects
Ternary numeral system, 010405 organic chemistry, Chemistry, General Chemical Engineering, General Physics and Astronomy, Thermodynamics, 02 engineering and technology, 01 natural sciences, Isothermal process, 0104 chemical sciences, law.invention, 020401 chemical engineering, law, Phase (matter), Solid phases, 0204 chemical engineering, Physical and Theoretical Chemistry, Solubility, Crystallization, Phase diagram, Line (formation)
Abstract

The solubility of the LiCl–SrCl2–H2O system along with its sub-binary systems LiCl–H2O and SrCl2–H2O at 323.15 K and 348.15 K has been measured via the Isothermal Dissolve Equilibrium (IDE) method. The gauged solubility for the LiCl–H2O and SrCl2–H2O binary systems is consistent with the result reported in literature. In view of the measured solubility and corresponding liquid-solid line results for the LiCl–SrCl2–H2O system at 323.15 K, exist four equilibrium solid phases, i.e. LiCl·H2O, SrCl2·H2O, SrCl2·2H2O and SrCl2·6H2O, and four corresponding independent crystallization regions for these solid phases, three invariant points E1, E2, E3 for LiCl·H2O and SrCl2·H2O, SrCl2·H2O and SrCl2·2H2O, SrCl2·2H2O and SrCl2·6H2O, respectively. For the solubility of this ternary system at 348.15 K, there are only three equilibrium solid phases, i.e. LiCl·H2O, SrCl2·H2O and SrCl2·2H2O, accordingly two invariant points, E1 for LiCl·H2O and SrCl2·H2O and E2 for SrCl2·H2O and SrCl2·2H2O. No existence of SrCl2·6H2O solid phase in this ternary system at 348.15 K. The comparison of the phase diagram at 323.15 K and 348.15 K indicates that, with the increase of temperature, the crystallization region of SrCl2·6H2O disappeared, however crystallization region of SrCl2·H2O became larger obviously.

Published
2020

23. Water Activity Measurements by the Isopiestic Method for the MCl–CaCl2–H2O (M = Na, K) Systems at 323.15 K

Author

Lijiang Guo, Dongdong Li, Ning Zhang, Yan Yao, Ouyang Dong, Haijun Han, and Dewen Zeng

Subjects
Molality, Work (thermodynamics), Aqueous solution, Water activity, Chemistry, General Chemical Engineering, Thermodynamics, Turning point, General Chemistry, Ternary operation
Abstract

In this work, the water activities of the NaCl–CaCl2–H2O and KCl–CaCl2–H2O ternary systems and of their sub-binary systems NaCl–H2O and KCl–H2O were measured using an isopiestic method at 323.15 K. The isopiestic composition line for the NaCl–CaCl2–H2O system was found to obey the Zdanovskii rule very well, whereas the KCl–CaCl2–H2O system deviated slightly. The addition of NaCl to an aqueous solution of CaCl2 decreased its water activity for all CaCl2 molalities. However, KCl was found to decrease and increase the water activity at low and high CaCl2 molality, respectively. The turning point appears at 8.0 mol·kg–1 CaCl2 solution. The Pitzer–Simonson–Clegg (PSC) model was applied to represent the water activity of the two ternary systems, and the calculated results are discussed.

Published
2015

24. Isopiestic Measurements of Water Activity for the NaCl–KCl–MgCl2–H2O Systems at 323.15 K

Author

Dongdong Li, Haitang Yang, Haijun Han, Yan Yao, Dewen Zeng, and Lijiang Guo

Subjects
Water activity, Chemistry, General Chemical Engineering, Thermodynamics, General Chemistry, Solubility, Ternary operation, Parametrization, Pitzer model
Abstract

Water activity for binary KCl–H2O, NaCl–H2O and MgCl2–H2O, as well as two ternary NaCl–MgCl2–H2O and KCl–MgCl2–H2O, systems has been measured by using an isopiestic method at 323.15 K. The isopiestic results obtained show that the isopiestic composition lines of the NaCl–MgCl2–H2O system was found to obey the Zdanovskii rule, whereas the KCl–MgCl2–H2O system was observed to deviate slightly. The experimental water activities determined were applied to regress the parameters of the Pitzer model with a good agreement. The model with new parameters is validated by comparing water activity predictions with those given in the literature and not used in the parametrization process and calculating the solubility of the NaCl–MgCl2–H2O and KCl–MgCl2–H2O systems at various temperatures with the comparison of literature values.

Published
2015

25. Bitwise Source Separation on Hashed Spectra: An Efficient Posterior Estimation Scheme Using Partial Rank Order Metrics

Author

Lijiang Guo and Minje Kim

Subjects
FOS: Computer and information sciences, Sound (cs.SD), Computer science, Hash function, Posterior probability, Source separation, Spectrogram, Bitwise operation, Algorithm, Computer Science - Sound, Spectral line, Time–frequency analysis
Abstract

This paper proposes an efficient bitwise solution to the single-channel source separation task. Most dictionary-based source separation algorithms rely on iterative update rules during the run time, which becomes computationally costly especially when we employ an overcomplete dictionary and sparse encoding that tend to give better separation results. To avoid such cost we propose a bitwise scheme on hashed spectra that leads to an efficient posterior probability calculation. For each source, the algorithm uses a partial rank order metric to extract robust features that form a binarized dictionary of hashed spectra. Then, for a mixture spectrum, its hash code is compared with each source's hashed dictionary in one pass. This simple voting-based dictionary search allows a fast and iteration-free estimation of ratio masking at each bin of a signal spectrogram. We verify that the proposed BitWise Source Separation (BWSS) algorithm produces sensible source separation results for the single-channel speech denoising task, with 6-8 dB mean SDR. To our knowledge, this is the first dictionary based algorithm for this task that is completely iteration-free in both training and testing.

Published
2017
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26. Elaborating highly thermal-conductive diamond/Cu composites by sintering intermittently electroplated core-shell powders

Author

Hong Sun, Nan Deng, Xiaoyu Li, Jiangtao Li, Lijiang Guo, Gang He, and Jianqiang Li

Subjects
Materials science, Mechanical Engineering, Composite number, Metals and Alloys, Sintering, Diamond, 02 engineering and technology, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Thermal expansion, 0104 chemical sciences, Thermal conductivity, Coating, Mechanics of Materials, Volume fraction, Materials Chemistry, engineering, Composite material, 0210 nano-technology
Abstract

Actuated by the needs of high power electronic devices heat dissipation, diamond/Cu composites with excellent thermal dissipation properties have been considered as the next generation of thermal management material. Herein, an easy-to-operate intermittently electroplated method is developed for coating micro-sized particles and successfully applied to prepare Cu-coated diamond powders for the first time. The Cu coating is covered evenly and densely on the diamond particles surface, and its volume fraction in diamond/Cu composite powders could be precisely controlled by adjusting the plating time. The dense diamond/Cu composites bulks with varied Cu volume fractions were obtained by hot-press sintering process. The as-sintered microstructures of diamond/Cu bulks present that diamond particles are bonded strongly by Cu shell layer, which is conducive to promoting densification capacity. The maximal diamond/Cu composite bulk possesses high thermal conductivity of 638 W/(m·K) and low coefficient of thermal expansion (CTE) of 4.11 × 10−6/K at 55 vol% diamond. The bending strength of 45 vol% diamond/Cu composite reaches 276 MPa. The combination of these excellent thermal and mechanical properties, coupled with the simple, efficient powder-preparation process, demonstrate the large potential of intermittently electroplated method applying in the development of thermal management material.

Published
2019

27. Investigation of magnesium nitrate hexahydrate based phase change materials containing nanoparticles for thermal energy storage

Author

Lijiang Guo, Jianqiang Li, Haiyan Wang, Zichen Song, Liu Wu, Kaiqi Liu, and Minghao Fang

Subjects
Materials science, Polymers and Plastics, Graphene, Composite number, Metals and Alloys, Nanoparticle, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Biomaterials, Magnesium nitrate, chemistry.chemical_compound, Thermal conductivity, Chemical engineering, chemistry, law, Phase (matter), Supercooling, Mass fraction
Abstract

The magnesium nitrate hexahydrate (MNH) based composite phase change materials (PCMs) have been prepared by adding carboxyl methyl cellulose (CMC) as thickening agent. Different mass fractions of nanoparticles (nanosilver, nanocopper and graphene) have been added independently to enhance the thermal conductivities. The viscosities have been measured for the pure MNH and MNH/CMC composites at liquid state. The thermal conductivities of the solid phase pure MNH, MNH/CMC and MNH/CMC/Nanoparticle composites also have been measured by Hotdisk Thermal Constant Analyzer. It is found that the addition of CMC has little effect on the thermal conductivity of the solid state MNH based composite PCMs, while decreases the thermal conductivity of the liquid PCM. The addition of nanoparticles enhanced the thermal conductivity of the MNH based PCM composites dramatically. Among the prepared PCM composites, the addition of 1.5 wt% graphene, namely MNH/CMC/1.5wt% graphene, shows the optimal characteristic that the thermal conductivity is improved to 0.807 W?m-1?K-1 from 0.338 W?m-1?K-1, and the supercooling degree is also decreased to 2.73 oC from 23.12 oC which shows the grahene nanoparticles can also act as a nucleating agent, compared with the pure MNH. Meanwhile, for the optimal composite PCM?the density is increased with the increase of pressure on the constant temperature and the thermal conductivity is increased with the increase of density. After 50 thermal cycles, the phase change enthalpy of MNH/CMC/1.5wt% graphene composite is only decreased by 4.0%, much lower than the decreased value 16.8% of pure MNH. The results above conformed that the MNH/CMC/Graphene composite is promising to be used for building heating.

Published
2019

28. Review of Encapsulated Salt Hydrate Core-Shell Phase Change Materials.

Author

Hui Wang, Yunfa Chen, Jianqiang Li, Lijiang Guo, and Minghao Fang

Subjects
PHASE change materials, HEAT storage devices, HEAT storage, SALT, HYDRATES, COMPOSITE materials, COMPOSITE structures
Abstract

The salt hydrate heat storage phase change material (PCM) has a promising prospect of application and has become a research hotspot because of the advantages of high thermal storage density, high thermal conductivity, moderate phase change temperature, and low price. However, some problems have restricted the application of salt hydrate heat storage materials, such as phase separation, supercooling, and corrosion of the metal container. A microencapsulated PCM using the microencapsulated technology of solid PCM coated packaging with coreshell structure composite material is an effective method to solve the above problems. In this paper, the research situations involving microencapsulated salt hydrate are analysed. This review introduces the selection of core and shell materials, compares the different preparation methods of encapsulated salt hydrate PCMs and summarizes the application fields. [ABSTRACT FROM AUTHOR]

Published
2020
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29. Isopiestic measurement and solubility evaluation of the ternary system (CaCl2+SrCl2+H2O) at T=298.15K

Author

Haijun Han, Dewen Zeng, Yan Yao, and Lijiang Guo

Subjects
Thermodynamic model, Aqueous solution, Ternary numeral system, Water activity, Particle model, Chemistry, Thermodynamics, General Materials Science, Physical and Theoretical Chemistry, Solubility, Atomic and Molecular Physics, and Optics, Pitzer model
Abstract

Water activity in the ternary system LiCl–SrCl2–H2O and its sub-binary systems has been elaborately measured by the isopiestic method. The measured water activities were used to justify the reliability of solubility isotherms reported in literature by correlating them with two thermodynamic models, that is, the extended Pitzer model and the Pitzer–Simonson–Clegg model. It was found that the extended Pitzer model cannot correlate consistently the water activities measured and either set of the solubility isotherms reported in literature for this concerned system, no matter how its parameters were adjusted. However, the Pitzer–Simonson–Clegg model can correlate consistently our measured water activities and the solubility isotherms reported by the literature (Kydynov et al. Issled. Obl. Khim. Tekhnol. Miner. Solei Okislov1965, 146–150), which should be more reliable than solubility data reported in other references.

Published
2013

31. Perspectives on social tagging

Author

Ying Ding, Elin K. Jacob, Zhixiong Zhang, Schubert Foo, Erjia Yan, Nicolas L. George, and Lijiang Guo

Subjects
Human-Computer Interaction, Artificial Intelligence, Computer Networks and Communications, Software, Information Systems
Published
2009

33. Water Activity and Solubility Measurements and Model Simulation of the CsCl-MgCl2-H2O Ternary System at 323.15 K.

Author

Lijiang Guo, Lanying Tu, Yaxiao Wang, and Jianqiang Li

Subjects
*WATER analysis, *MEASUREMENT of solubility, *CHLORIDES, *ISOTHERMAL processes, *EXTRACTION (Chemistry)
Abstract

Water activities in the ternary system CsCl-MgCl2-H2O and its sub-binary systems at 323.15 K were elaborately measured by an isopiestic method. Moreover, the solubility of the CsCl-MgCl2-H2O system at 323.15 K was also measured by the flow-cloud-point method. A Pitzer model was used to predict the measured water activity and solubility data. The binary parameters for the CsCl-H2O system at 323.15 K were obtained by fitting the measured water activities for this binary system. The calculated water activity and solubility isotherms for the CsCl-MgCl2-H2O system at 323.15 K, with binary parameters only, deviated from the experimental values. This means that it is insufficient with binary parameters only to predict the water activity and calculate the solubility isotherms of the CsCl-MgCl2-H2O system at 323.15 K. The calculated solubility isotherms with both binary and mixing parameters, obtained by fitting the measured water activity, also deviated from experimental values. A new set of reasonable ternary parameters for the CsCl-MgCl2-H2O system was obtained by fitting the measured water activity and solubility data of this work. The calculated solubility isotherms with these parameters agreed with experimental results. [ABSTRACT FROM AUTHOR]

Published
2018
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34. Water Activity and Phase Equilibria Measurements and Model Simulation for the KCl-SrCl2-H2O System at 323.15 K.

Author

Haijun Han, Lijiang Guo, Dongdong Li, and Yan Yao

Subjects
*THERMODYNAMICS, *PHASE equilibrium, *POTASSIUM chloride, *TERNARY system, *SOLUBILITY
Abstract

Water activities for the ternary system of KCl-SrCl2-H2O and its sub-binary system SrCl2-H2O were elaborately measured using an isopiestic method at 323.15 K. The solubility isotherms for the KCl-SrCl2-H2O system were determined by the isothermal equilibrium method. It is found that the measured isopiestic composition lines for the KCl-SrCl2-H2O system deviated from the Zdanovskii rule, especially at a lower water activity. The Pitzer-Simonson-Clegg model was used to correlate the measured water activity and solubility data, simulate the thermodynamic properties, and predict the solubility of the ternary system. The reliability of the solubility data measured in this work was evaluated by comparing with the solubility isotherms calculated with the Pitzer-Simonson-Clegg model. The measured water activity and solubility results are of great importance for predicting the phase diagram of other multicomponent systems that related to this ternary system. [ABSTRACT FROM AUTHOR]

Published
2017
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35. Thermodynamics and Phase Equilibrium of the System CsCl-MgCl2-H2O at 298.15 K.

Author

Lijiang Guo, Yaxiao Wang, Lanying Tu, and Jianqiang Li

Subjects
*CALCIUM chloride, *BINARY number system, *ISOTHERMAL temperature, *THERMODYNAMICS, *CALCIUM compounds
Abstract

Water activities of the CsCl-MgCl2-H2O ternary system and its sub-binary systems were elaborately measured by an isopiestic method at 298.15 K. The solubility of this ternary system at 298.15 K was also measured by two different methods, namely isothermal method and Flow-Cloud-Point method. The solubilities measured by the two different methods were consistent with each other. A Pitzer model was used to represent the thermodynamic properties and calculate the solubility isotherms for the CsCl-MgCl2-H2O ternary system at 298.15 K. Both the equal water activity lines and the solubility isotherms are calculated with parameters reported in literature. It was found that only the calculated equal water activity lines with the parameters reported by Scharge et al. are consistent with the experimental values of this work. However, all the calculated solubility isotherms deviated from the experimental data in this work. New set of ternary parameters were obtained by fitting the water activities and solubility data of this work. Using the new parameters, the calculated equal water activity lines and solubility isotherms agreed with experimental values measured in this work. [ABSTRACT FROM AUTHOR]

Published
2017
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36. Water Activity Measurements by the Isopiestic Methodfor the MCl–CaCl2–H2O (M = Na,K) Systems at 323.15 K.

Author

Haijun Han, Lijiang Guo, Dongdong Li, Ouyang Dong, Yan Yao, Ning Zhang, and Dewen Zeng

Subjects
*CALCIUM chloride, *WATER analysis, *TEMPERATURE effect, *CHEMICAL systems, *SALT, *AQUEOUS solutions, *MOLALITY
Abstract

In this work, the water activitiesof the NaCl–CaCl2–H2O and KCl–CaCl2–H2O ternary systems and of their sub-binarysystems NaCl–H2O and KCl–H2O weremeasured using an isopiesticmethod at 323.15 K. The isopiestic composition line for the NaCl–CaCl2–H2O system was found to obey the Zdanovskiirule very well, whereas the KCl–CaCl2–H2O system deviated slightly. The addition of NaCl to an aqueoussolution of CaCl2decreased its water activity for allCaCl2molalities. However, KCl was found to decrease andincrease the water activity at low and high CaCl2molality,respectively. The turning point appears at 8.0 mol·kg–1CaCl2solution. The Pitzer–Simonson–Clegg(PSC) model was applied to represent the water activity of the twoternary systems, and the calculated results are discussed. [ABSTRACT FROM AUTHOR]

Published
2015
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38. Evaluation of the Persistent Issues in History Laboratory for Virtual Field Experience (PIH-LVFE).

Author

Brush, Thomas, Saye, John, Kale, Ugur, Jung Won Hur, Kohlmeier, Jada, Yerasimou, Theano, Lijiang Guo, and Symonette, Simone

Subjects
HISTORY education, INTERNET in education, WEBQUESTS, COMPUTER assisted research, COMPUTER networks, INTERNET, WORLD Wide Web
Abstract

The Persistent Issues in History Laboratory for Virtual Field Experience (PIH-LVFE) combines a database of video cases of authentic classroom practices with multiple resources and tools to enable pre-service social studies teachers to virtually observe teachers implementing problem-based learning activities. In this paper, we present the results of two studies designed to provide formative evaluation results from our initial implementations of PIH-LVFE resources with pre-service social studies teachers. In study A, we examined usability issues with regard to the PIH-LVFE interface with a small group of pre-service teachers. In study B, we examined pre-service teachers' perceptions of the usefulness and benefits of PIH-LVFE resources when they were integrated into a focused reflection activity utilizing one specific video case. [ABSTRACT FROM AUTHOR]

Published
2009

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