Your search keyword '"Zhongshan Guo"' showing total 11 results

1. Ammonia pools in zeolites for direct fabrication of catalytic centers

Author

Jie Yao, Yingluo He, Yan Zeng, Xiaobo Feng, Jiaqi Fan, Shoya Komiyama, Xiaojing Yong, Wei Zhang, Tiejian Zhao, Zhongshan Guo, Xiaobo Peng, Guohui Yang, and Noritatsu Tsubaki

Subjects

Science

Abstract

Reduction process is a key step to fabricate metal zeolite catalysts, but existing reduction technologies are always energy intensive and inevitably cause the agglomeration of metallic particles or destroy zeolite structure. Here the authors find that zeolites after ion exchange of ammonium display an interesting and unexpected self-reducing feature.

Published

2022

2. Effect of Different Chelating Agents on the Physicochemical Properties of Cu/ZnO Catalysts for Low-temperature Methanol Synthesis from Syngas Containing CO2

Author

Baizhang Zhang, Heng Zhao, Fei Chen, Noritatsu Tsubaki, Peipei Zhang, Liwei Xiao, Zhongshan Guo, Yuya Araki, Yingluo He, Tiejian Zhao, Xiaojing Yong, Wei Zhang, and Weizhe Gao

Subjects

chemistry.chemical_compound, Fuel Technology, Chemistry, Energy Engineering and Power Technology, Chelation, Methanol, Catalysis, Nuclear chemistry, Syngas

Published

2021

3. A Carbonylation Zeolite with Specific Nanosheet Structure for Efficient Catalysis

Author

Xiaojing Yong, Noritatsu Tsubaki, Wei Zhang, Tiejian Zhao, Jiaqi Fan, Zhongshan Guo, Shoya Komiyama, Jie Yao, Guohui Yang, and Qinming Wu

Subjects

Methyl acetate, General Engineering, General Physics and Astronomy, Thin sheet, Combinatorial chemistry, Catalysis, chemistry.chemical_compound, chemistry, General Materials Science, Dimethyl ether, Selectivity, Zeolite, Carbonylation, Nanosheet

Abstract

Up to now, the member of zeolite family has expanded to more than 230. However, only little part of them have been reported as catalysts used in reactions. Discovering potential zeolites for reactions is significantly important, especially in industrial applications. A carbonylation zeolite catalyst Al-RUB-41 has special morphology and channel orientation. The 8-MR channel of Al-RUB-41 is just perpendicular to its thin sheet, making a very short mass-transfer distance along 8-MR. This specific nature endows Al-RUB-41 with efficient catalytic ability to dimethyl ether carbonylation reaction with beyond 95% methyl acetate selectivity. Compared with the most widely accepted carbonylation zeolite catalysts, Al-RUB-41 behaves a much better catalytic stability than H-MOR and a greatly enhanced catalytic activity than H-ZSM-35. A space-confined deactivation mechanism over Al-RUB-41 is proposed. By erasing the acid sites on outer surface, Al-RUB-41@SiO2 catalyst achieves a long-time and high-efficiency activity without any deactivation trend.

Published

2021

4. Effect of particles on hydrodynamics and mass transfer in a slurry bubble column: Correlation of experimental data

Author

Huahai Zhang, Zhongshan Guo, Yuelin Wang, Xiankun Shen, and Tiefeng Wang

Subjects

Environmental Engineering, General Chemical Engineering, Biotechnology

Abstract

The effects of particle concentration and size on hydrodynamics and mass transport in a slurry bubble column were experimentally studied. With increasing particle concentration, the averaged gas holdup, gas holdup of small bubbles and gas-liquid volumetric mass transfer coefficient decreased, while the gas holdup of large bubbles increased slightly. With increasing particle size, the averaged gas holdup and kla remained unchanged when the particle size increased from 55 to 92 m, but decreased significantly when the particle size was further increased to 206 m. A liquid turbulence attenuation model which could quantitatively describe the effects of particle concentration and size was first proposed. Semi-empirical correlations were obtained based on extensive experimental data in a wide range of operating conditions and corrected liquid properties. The gas holdup and mass transfer coefficient calculated by the correlations agreed with the experimental data from both two-phase and three-phase bubble columns

Published

2021

5. Product-oriented decomposition of lignocellulose catalyzed by novel polyoxometalates-ionic liquid mixture

Author

Zhongshan Guo, Fushan Wen, Huang Qiang, Jiang Ruixue, Min Li, Feng Wang, Nan Shi, Dong Liu, Guobo Shen, and Chen Qingtai

Subjects

Anions, 0106 biological sciences, Environmental Engineering, Complex formation, Ionic Liquids, Bioengineering, 010501 environmental sciences, Lignin, 01 natural sciences, Redox, Catalysis, chemistry.chemical_compound, Phenols, 010608 biotechnology, Organic chemistry, Waste Management and Disposal, 0105 earth and related environmental sciences, Aldehydes, Renewable Energy, Sustainability and the Environment, Esters, General Medicine, Ketones, Tungsten Compounds, Decomposition, chemistry, Yield (chemistry), Ionic liquid, Selectivity, Acids, Oxidation-Reduction

Abstract

Lignocellulose was oxidatively decomposed in a newly developed polyoxometalates-imidazolium ionic liquid mixture. Aromatic compounds covering acids, esters, ketones, aldehydes, and phenols were selectively produced under various conditions. 4-Hydroxylbenzoic acid was dominatingly yielded under low temperature and high oxidant concentration. Phenolic compounds were mainly generated at high temperature with a selectivity of 45.1% and a yield of 4.3%, higher than those generated in similar polyoxometalates-ionic liquids system. The products distributions and residues of lignocellulose decomposition under various conditions were characterized; the influences of the ionic liquids anions on the polyoxometalates-ionic liquids complex formation, the acidic and redox properties of the catalyst, and the final products were profoundly investigated; and a tentative reacting process was proposed. The ionic liquid could be recycled for five times. This work not only provided a new lignocellulose decomposition strategy to produce aromatic products, but also offered a guidance for product-oriented lignocellulose decomposition.

Published

2019

6. The effects of gasification technology on IGFC system efficiency

Author

Pingping Li, Xianlin Jin, Zhongshan Guo, Xiaobin You, Hu Li, Jinsong Yao, Lilong Jiang, and Chufu Li

Abstract

As one of the significant part of IGFC (integrated gasification fuel cell) system, coal gasification technology has an important effect on system efficiency as well as technological process. To figure out what kind of gasifier technology could benefit IGFC system most, we select two representative gasifiers for comparison, which are E-Gas gasifier and Shell gasifier. In this study MW-level E-gas IGFC system and Shell IGFC system models are developed respectively, moreover, the energy analysis of two systems are carried out simultaneously. The results show that SOFC DC Power efficiency and system net plant efficiency of E-gas IGFC system are 52.82% and 50.89% , both higher than Shell IGFC system, which are 49.24% and 49.74%; under the same design conditions, gasifier with high content of CH 4 would be easier to obtain higher SOFC power efficiency as well as system net efficiency. The present work is helpful to provide gasifier selection suggestions for large-scale IGFC system.

Published

2020

7. Quick microwave assembling nitrogen-regulated graphene supported iron nanoparticles for Fischer-Tropsch synthesis

Author

Zhongshan Guo, Yu Cui, Lisheng Guo, Xiaojing Yong, Baizhang Zhang, Noritatsu Tsubaki, Song Sun, Jiaming Liang, Jie Li, Guohui Yang, Jian Sun, Tiejian Zhao, and Wei Zhang

Subjects

Materials science, Graphene, General Chemical Engineering, chemistry.chemical_element, Nanoparticle, Fischer–Tropsch process, General Chemistry, Industrial and Manufacturing Engineering, law.invention, Catalysis, Chemical engineering, chemistry, law, Environmental Chemistry, Calcination, Dispersion (chemistry), Selectivity, Carbon

Abstract

Facile preparation of highly efficient iron-based catalysts is vital to improve the performance of Fischer-Tropsch synthesis (FTS), a sustainable process for converting non-petroleum carbon resources to valuable hydrocarbons. In this work, a convenient preparation for nitrogen-regulated graphene supported iron nanoparticles, with the assistant of microwave treatment, was developed. Thereinto, the nitrogen-containing groups in graphene support were introduced by NH3·H2O treatment. By comparison with ordinary calcination, microwave treatment could significantly shorten the heating time to few seconds, and promote the reduction of iron species. The existence of a small number of nitrogen-containing groups could effectively anchor iron species, and improve the dispersion of iron species. Meanwhile, the duration length of NH3·H2O treatment time could regulate the content of N configuration (pyridinic-N and pyrrolic-N). The size of supported iron species from 120 nm to 10 nm could be well controlled via increasing microwave time from 0 to 14 s. For N-regulated graphene supported iron catalysts, evenly dispersed small particles of iron species, improved surface reduction behavior and reasonable N configuration all promoted FTS. Under relevant industrial conditions (320 °C, 2.0 MPa, 5 g h mol−1), the optimized 15%Fe/AG(12 h)-W(10) catalyst achieved CO conversion as high as 97.2% and C5+ selectivity of 40.0% while maintaining a mild CO2 selectivity (28.2%). The superior preparation and catalytic performance disclosed that the catalyst could be one of ideal candidates for industrial iron-based FTS catalysts in future.

Published

2022

8. FeMn@HZSM-5 capsule catalyst for light olefins direct synthesis via Fischer-Tropsch synthesis: Studies on depressing the CO2 formation

Author

Xiaojing Yong, Minghui Tan, Yisheng Tan, Heng Zhao, Zhongshan Guo, Faen Song, Noritatsu Tsubaki, Qingxiang Ma, Guohui Yang, Wei Zhang, Tiejian Zhao, and Xuemei Wu

Subjects

Materials science, Chemical engineering, Process Chemistry and Technology, Diffusion, Mixing (process engineering), Capsule, Fischer–Tropsch process, Selectivity, Catalysis, Water-gas shift reaction, General Environmental Science

Abstract

For Fe-based Fischer-Tropsch synthesis catalyst, how to decrease CO2 formation is a big challenge. In this work, a capsule catalyst (FeMn@HZSM-5) with FeMn as core and HZSM-5 as shell was prepared and used for Fischer-Tropsch to olefins (FTO) reaction, compared with bare FeMn catalyst and several hybrid catalysts by physically mixing FeMn and HZSM-5 in different ways. Among these catalysts, the FeMn@HZSM-5 capsule catalyst showed the best catalytic performance with the highest light olefins selectivity and the lowest CO2 selectivity. Compared with FeMn catalyst, the CO2 selectivity of FeMn@HZSM-5 catalyst decreased more than 10%. However, the CO2 selectivity of other physically mixing catalysts was similar to that of bare FeMn catalyst, indicating that randomly adding HZSM-5 had no effect on depressing the CO2 formation. Benefiting from the HZSM-5 shell, the FeMn@HZSM-5 capsule catalyst could effectively affect the diffusion of H2O and thus suppress the water-gas shift reaction in FTO reaction.

Published

2022

9. Application of a Microwave Mass Flow Meter in a Dense Phase Pneumatic Conveying System of Pulverized Coal

Author

Guomin Zhang and Zhongshan Guo

Subjects

Materials science, Mass flow meter, Pulverized coal-fired boiler, business.industry, Nuclear engineering, 020208 electrical & electronic engineering, 010401 analytical chemistry, 02 engineering and technology, Microwave transmission, 01 natural sciences, Capacitance, Flow measurement, 0104 chemical sciences, Physics::Fluid Dynamics, 0202 electrical engineering, electronic engineering, information engineering, Mass flow rate, Coal, business, Microwave

Abstract

A gas-solid bi-phase mass flow rate measurement technology based on microwave transmission is presented to meet the demand of online flow measurement of pulverized coal in gasification plant. Unlike the methods based on capacitance senor, radiometric sensor and microwave reflection principle, the microwave mass flow meter transmitted microwave through the pulverized coal flow and received on the opposite by antennas. The energy of microwave was absorbed by coal particles. The attenuation degree of the microwave indicated the concentration of the pulverized coal flow. Comparative experiments of microwave mass flow meter and a commercial capacitance mass flow meter were conducted in pilot-scale gasification plant. Experimental results demonstrate the microwave mass flow meter has better dynamic performance than the capacitance mass flow meter in tracking transient fluctuations of pulverized coal flow, especially at start and stop sections during conveying procedure.

Published

2018

10. Relationship between weight status and health-related quality of life in Chinese primary school children in Guangzhou: a cross-sectional study.

Author

Wei Liu, Rong Lin, Weijia Liu, Zhongshan Guo, Lihua Xiong, Bai Li, Cheng, K. K., Adab, Peymane, and Pallan, Miranda

Subjects

SCHOOL children, BODY mass index, MALNUTRITION in children, QUALITY of life, PREVENTION of childhood obesity, PREVENTION

Abstract

Background: To investigate the association between weight status and health-related quality of life (HRQOL) among pupils in Guangzhou, China. Methods: The study comprised 5781 children aged 8-12 years from 29 schools. Height and weight were objectively measured using standardized methods, and BMI z-score derived using the age and sex specific WHO reference 2007 for 5-19 years. Weight status was classified as underweight (<-2SD), healthy weight (between -2SD and 1SD), overweight/obesity (>1SD). HRQOL was measured by the self-report version of the Pediatric Quality of Life Inventory 4.0. Results: After controlling for gender, age, school type, parental education, and family income, HRQOL scores were significantly lower in overweight/obese compared with healthy weight children only in the social functioning domain (β = −1.93, p = 0.001). Compared with healthy weight children, underweight children had significantly lower total (β = −1.47, p = 0.05) and physical summary scores (β = −2.18, p = 0.02). Subgroup analysis for gender indicated that compared to healthy weight, total (β = −1.96, p = 0.02), psychosocial (β = −2.40, p = 0.01), social functioning (β = −3.36, p = 0.001), and school functioning (β = −2.19, p = 0.03) scores were lower in overweight/obese girls, but not boys. On the other hand, being underweight was associated with lower physical functioning (β = −2.27, p = 0. 047) in girls, and lower social functioning (β = −3.63, p = 0.01) in boys. The associations were mainly observed in children aged 10 and over, but were not significant in younger children. Children from private schools had generally lower HRQOL compared to those in public schools, but the associations with weight status were similar in both groups. Conclusions: The relationship between overweight/obesity and HRQOL in children in China is not as prominent as that seen in children in western or high-income countries. However, there appears to be gender and age differences, with more of an impact of overweight on HRQOL in girls and older children compared with boys and younger children. Underweight is also associated with lower HRQOL. Future intervention to prevent both obesity and undernutrition may have a positive impact on the HRQOL in children in China. [ABSTRACT FROM AUTHOR]

Published

2016

11. Relationship between weight status and health-related quality of life in Chinese primary school children in Guangzhou: a cross-sectional study

Author

Rong Lin, Bai Li, Zhongshan Guo, Miranda Pallan, Lihua Xiong, Kar Keung Cheng, Wei Liu, Weijia Liu, and Peymane Adab

Subjects

Male, Parents, China, Pediatric Obesity, Cross-sectional study, Health-related quality of life, Child Health Services, 030209 endocrinology & metabolism, Overweight, Body Mass Index, 03 medical and health sciences, 0302 clinical medicine, Quality of life, Environmental health, medicine, Health Status Indicators, Humans, 030212 general & internal medicine, Child, Children, School Health Services, Schools, business.industry, Research, Body Weight, Public Health, Environmental and Occupational Health, General Medicine, medicine.disease, Obesity, Malnutrition, Weight status, Cross-Sectional Studies, Quality of Life, Female, Underweight, medicine.symptom, business, Body mass index, Psychosocial, Demography

Abstract

Background To investigate the association between weight status and health-related quality of life (HRQOL) among pupils in Guangzhou, China. Methods The study comprised 5781 children aged 8–12 years from 29 schools. Height and weight were objectively measured using standardized methods, and BMI z-score derived using the age and sex specific WHO reference 2007 for 5–19 years. Weight status was classified as underweight (1SD). HRQOL was measured by the self-report version of the Pediatric Quality of Life Inventory 4.0. Results After controlling for gender, age, school type, parental education, and family income, HRQOL scores were significantly lower in overweight/obese compared with healthy weight children only in the social functioning domain (β = −1.93, p = 0.001). Compared with healthy weight children, underweight children had significantly lower total (β = −1.47, p = 0.05) and physical summary scores (β = −2.18, p = 0.02). Subgroup analysis for gender indicated that compared to healthy weight, total (β = −1.96, p = 0.02), psychosocial (β = −2.40, p = 0.01), social functioning (β = −3.36, p = 0.001), and school functioning (β = −2.19, p = 0.03) scores were lower in overweight/obese girls, but not boys. On the other hand, being underweight was associated with lower physical functioning (β = −2.27, p = 0.047) in girls, and lower social functioning (β = −3.63, p = 0.01) in boys. The associations were mainly observed in children aged 10 and over, but were not significant in younger children. Children from private schools had generally lower HRQOL compared to those in public schools, but the associations with weight status were similar in both groups. Conclusions The relationship between overweight/obesity and HRQOL in children in China is not as prominent as that seen in children in western or high-income countries. However, there appears to be gender and age differences, with more of an impact of overweight on HRQOL in girls and older children compared with boys and younger children. Underweight is also associated with lower HRQOL. Future intervention to prevent both obesity and undernutrition may have a positive impact on the HRQOL in children in China.