Your search keyword '"Yue, Jinsong"' showing total 5 results

1. Optimization of hydrogen peroxyl-citric acid system for sulfur removal from high sulfur bituminous coal by response surface method and its mechanism.

Author

Sidan, Cheng, Mei, Li, Xu, Shiyong, Ding, Ning, Yue, Jinsong, and Li, Hui

Subjects

BITUMINOUS coal, DESULFURIZATION of coal, SULFUR acids, SULFUR cycle, FOURIER transform infrared spectroscopy, DESULFURIZATION, SULFUR, COAL combustion, X-ray photoelectron spectroscopy

Abstract

The microwave-assisted hydrogen peroxide-citric acid desulfurization of coal was optimized by response surface methodology, and the samples were characterized before and after desulfurization by proximate analysis, ultimate analysis, sulfur forms determination, X-ray diffraction (×RD), Fourier transform infrared spectroscopy (FT-IR), X-ray photoelectron spectroscopy (×PS), and scanning electron microscopy (SEM) and so on. The quantum chemical calculations were selected to investigate desulfurization mechanism of microwave-assisted hydrogen peroxide-citric acid, and data analysis shows that the citric acid dose is the main factor affecting the desulfurization rate. Under optimized conditions, the actual desulfurization rate can reach 72.23%, the sulfur removal rate of pyrite up to 92.19%. The mineral content of the coal sample was significantly reduced. The oxygen-containing functional groups in the coal sample increased, and more inorganic sulfur and sulfoxide in the low valence state were oxidized to sulfone and sulfate in the high valence state. The microwave effect of pyrite will react with hydrogen ions to produce Fe2+, Fe2+ and citric acid reaction to form a complex. Quantum chemical calculations prove that the addition of an applied electric field can reduce the energy required for the coordination reaction and facilitate the reaction. [ABSTRACT FROM AUTHOR]

Published

2023

2. Mechanism of sulfur removal from high sulfur coal by visible light assisted oxidation system.

Author

Ding, Ning, Li, Mei, Yue, Jinsong, Cheng, Sidan, Xu, Shiyong, and Xu, Rongsheng

Subjects

DESULFURIZATION of coal, DESULFURIZATION, VISIBLE spectra, FOURIER transform infrared spectroscopy, X-ray photoelectron spectroscopy, OXIDATION

Abstract

In order to investigate the effect of visible light irradiation on oxidative desulfurization. Three kinds of coals (SM, YYH and GZ) and four sulfur model compounds were selected as research objects. The effects of different irradiation time (30, 60, 90 and 120 min) and light source power (150, 220 and 300 W) of coal desulfurization were investigated. The samples before and after desulfurization were characterized by Fourier transform infrared spectroscopy (FTIR), X-ray photoelectron spectroscopy (XPS) and electrochemical impedance spectroscopy (EIS). The results show that when coal:H2O2 = 1:5 (g:mL), light source power is 220 W and irradiation is 60 min, the desulfurization rate of SM, YYH and GZ can reach the maximum, which were 27.97%, 56.28% and 66.22%, respectively. According to the characterization of samples before and after desulfurization, it was found that the low-valence sulfur changes into the high-valence sulfur with a more stable structure through a certain transition state during the desulfurization process. Coal responds to visible light, which can promote the generation of electron–hole pairs in the system, so as to enhance the oxidative desulfurization ability of the system. Visible light irradiation can promote the production of strong oxidation active group HO·, thereby improving the desulfurization rate of coal. [ABSTRACT FROM AUTHOR]

Published

2023

3. Mechanism of sulfur removal from coal by microwave assisted acetic acid-hydrogen peroxide system.

Author

Cheng, Sidan, Li, Mei, Xu, Shiyong, Ding, Ning, Yue, Jinsong, and Li, Hui

Subjects

DESULFURIZATION of coal, DESULFURIZATION, SULFUR compounds, HYDROGEN peroxide, ACTIVATION energy, MICROWAVES, PEROXIDES, ELECTRIC fields

Abstract

The desulfurization effect of Ningxia Shuangma coal (SM) with an acetic acid-hydrogen peroxide system assisted by microwave, ultrasonic and ultraviolet light was compared. The results show that microwave-assisted desulfurization has the best effect. When the microwave power is 900W, the irradiation time is 5 min, and the volume ratio of acetic acid to hydrogen peroxide is 1:10, the desulfurization rate can reach 55.82%. Moreover, microwave-assisted desulfurization can effectively improve the removal effect of organic sulfur. XRD, XPS, SEM and other characterization showed that microwave assisted can effectively reduce the mineral content, expose more sulfur-containing groups, and improve the desulfurization effect. The desulfurization rate of three sulfur-containing compounds is: dibenzyl sulfide > diphenyl sulfoxide > benzothiophene. With the increase of intensity of the applied electric field, the C–S bond gets easier to fracture, the applied electric field can reduce the reaction energy barrier, is a benefit to the reaction. [ABSTRACT FROM AUTHOR]

Published

2023

4. Study on the desulfurization effect of coal by microwave–Fenton system.

Author

Cheng, Sidan, Li, Mei, Xu, Shiyong, Ding, Ning, Yue, Jinsong, Li, Hui, Xu, Rongsheng, and Gao, Caiyun

Subjects

DESULFURIZATION, DESULFURIZATION of coal, PYRITES, SULFOXIDES, X-ray photoelectron spectroscopy, ACTIVATION energy

Abstract

BACKGROUND: Microwave‐assisted and Fenton reagents were combined to enhance the removal effect of sulfur from coal. The coal samples before and after desulfurization were characterized by various testing methods such as X‐ray photoelectron spectroscopy, X‐ray diffraction and scanning electron microscopy. RESULTS: The microwave–Fenton system showed the best desulfurization effect with a desulfurization rate of 77.52% at a microwave power of 800 W and irradiation time of 5 min, which was 82.96% higher than the maximum desulfurization rate of Fenton reagents alone. The desulfurization rates of pyrite sulfur, organic sulfur and sulfate sulfur can reach 88.76%, 58.77% and 59.33%, respectively. CONCLUSION: The minerals in the treated coal samples were significantly reduced. The microwave–Fenton system can generate a large number of hydroxyl radicals to break the CS bond, while exposing more sulfur‐containing groups to the reagents, resulting in more oxidation of low‐valent sulfur and sulfoxide to high‐valent sulfone and sulfate sulfur. The model compound removal effect was measured, dibenzyl sulfide > diphenyl sulfoxide > diphenyl sulfoxide > dibenzothiophene, while the microwave–Fenton system could significantly enhance the desulfurization effect of the above four model compounds. It was found that with the increase in applied electric field, the reaction energy barrier decreased and the CS bond was more easily broken, which was favorable to the reaction. © 2022 Society of Chemical Industry (SCI). [ABSTRACT FROM AUTHOR]

Published

2023

5. Effect of oxalic acid and sodium hydroxide on the desulfurization of coal using UV–H2O2 oxidation system.

Author

Yue, Jinsong, Li, Mei, Ding, Ning, Cheng, Sidan, and Gao, Caiyun

Subjects

*DESULFURIZATION, *DESULFURIZATION of coal, *OXALIC acid, *SODIUM hydroxide, *FOURIER transform infrared spectroscopy, *X-ray photoelectron spectroscopy

Abstract

To research the efficient and economical desulfurization of Lingshi high sulfur coal (LS), the influence of acid and alkaline additives on an ultraviolet (UV) light oxidation desulfurization system was assessed. Sodium hydroxide (NaOH) and oxalic acid (OA) were selected as the alkaline and acid additives, respectively, to investigate whether acid and alkaline additives could promote oxidative desulfurization in the UV–H2O2 system. The coal samples were investigated via scanning electron microscopy (SEM), Brannuer–Emmett–Teller analysis (BET), contact angle analysis (CA), Fourier transform infrared spectroscopy (FTIR), X-ray diffractometry (XRD), and X-ray photoelectron spectroscopy (XPS). In addition, the desulfurization mechanism, including sulfur removal, sulfur conversion, and change of coal surface morphology on the reaction, was investigated. The results demonstrated that the surface morphology and the pore structure in coal improved; the wettability and oxygen-containing functional groups increased after the action of NaOH and OA, which indicated that the oxidation was enhanced during the reaction. This study proved that strong oxidation promoted the efficient removal of sulfur from coal samples, where NaOH reacted strongly with pyrite, and OA influenced the removal of organic sulfur, which played a directional desulfurization effect. [ABSTRACT FROM AUTHOR]

Published

2022