Your search keyword '"Jiang, Liqin"' showing total 5 results

1. Numerical Investigation of Flow Field Distributions and Water and Thermal Management for a Proton Exchange Membrane Electrolysis Cell.

Author

Shao, Dan, Hu, Liangyong, Zhang, Guoqing, Hu, Kaicheng, Zhang, Jiangyun, Liu, Jun, Peng, Kang, Jiang, Liqin, Jiang, Wenzhao, and Wen, Yuliang

Subjects

WATER distribution, GEOTHERMAL resources, WATER management, ELECTROLYTIC cells, WATER electrolysis

Abstract

The proton exchange membrane electrolysis cell (PEMEC) has attracted considerable attention for large-scale and efficient hydrogen production because of its high current density, high hydrogen purity and fast dynamic response. Flow field distributions and water and thermal management characteristics of a PEMEC are vital for electrolytic cell structure and the determination of operating condition. A three-dimensional, non-isothermal, electrochemical model of a PEMEC was established in this manuscript. The flow field distribution and water and thermal management of the PEMEC are discussed. The corresponding results showed that the pressure of the flow channel decreased diagonally from the inlet to the outlet, and the pressure and velocity distribution exhibited a downward opening shape of a parabola. At the same inlet flow rate, when the voltage was 1.6 V, the oxygen generation rate was 15.74 mol/(cm2·s), and when the voltage was 2.2 V, the oxygen generation rate was 332.05 mol/(cm2·s); due to the change in the oxygen production rate, the pressure difference at 2.2 V was 2.5 times than that at 1.6 V. When the stoichiometric number was less than two, the average temperature of the catalyst layer (CL) decreased rapidly with the increase in the water flow rate. When the voltage decreased to 2.1 V, the current density came to the highest value when the stoichiometric number was 0.7, then the current density decreased with an increase in the stoichiometric number. When stoichiometric numbers were higher than five, the surface temperature and current density remained basically stable with the increase in the water flow rate, and the water and thermal management and electrolysis characteristics performed better. The research results could optimize the water supply of electrolysis cells. According to the velocity distribution law of the flow field, the water and thermal management performance of the PEMEC could be estimated, further promoting safety and reliability. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Novel Leak-Proof Thermal Conduction Slot Battery Thermal Management System Coupled with Phase Change Materials and Liquid-Cooling Strategies.

Author

Zhang, Wenjun, Zhang, Jiangyun, Zhang, Guoqing, Hu, Yanxin, Shao, Dan, Jiang, Liqin, and Wen, Yuliang

Subjects

PHASE change materials, BATTERY management systems, TEMPERATURE control, CHANNEL flow, FLUID flow

Abstract

Electric vehicles (EVs) are experiencing explosive developments due to their advantages in energy conservation and environmental protection. As a pivotal component of EVs, the safety performance of lithium-ion batteries directly affects driving miles and even safety; hence, a battery thermal management system (BTMS) is especially important. To improve the thermal safety performance of power battery modules, first, a new leak-proof phase change material (PCM)-coupled liquid-cooled composite BTMS for large-scale battery modules is proposed in this research. Second, the numerical simulation analysis method was utilized to analyze the influences of the fluid flow channel shape, working fluid inlet temperature, inlet velocity, and reverse flow conditions on the BTMS. Eventually, the abovementioned performances were compared with the traditional PCM-coupled liquid-cooling strategy. The relative data indicated that the Tmax was reduced by 17.5% and the ΔTmax was decreased by 19.5% compared to the liquid-cooling approach. Further, compared with conventionally designed PCM composite liquid cooling, the ΔTmax was reduced by 34.9%. The corresponding data showed that, when using the e-type flow channel, reverse flow II, the inlet flow velocity was 0.001–0.005 m/s, and the inlet temperature was the ambient temperature of the working condition. The thermal performance of the anti-leakage system with a thermal conduction slot PCM-coupled liquid-cooling composite BTMS reached optimal thermal performance. The outcome proved the superiority of the proposed BTMS regarding temperature control and temperature equalization capabilities. It also further reduced the demand for liquid-cooling components, avoided the problem of the easy leakage of the PCM, and decreased energy consumption. [ABSTRACT FROM AUTHOR]

Published

2024

3. Applications of Genomics and Transcriptomics in Precision Medicine for Myopia Control or Prevention.

Author

Jiang, Liqin, Goh, Dong Xuan, Koh, James Hao Zhong, Chan, Xavier, Brennan, Noel A., Barathi, Veluchamy Amutha, and Hoang, Quan V.

Subjects

*INDIVIDUALIZED medicine, *MYOPIA, *GENOMICS, *ANIMAL models in research, *EARLY diagnosis, *PRECISION farming

Abstract

Myopia is a globally emerging concern accompanied by multiple medical and socio-economic burdens with no well-established causal treatment to control thus far. The study of the genomics and transcriptomics of myopia treatment is crucial to delineate disease pathways and provide valuable insights for the design of precise and effective therapeutics. A strong understanding of altered biochemical pathways and underlying pathogenesis leading to myopia may facilitate early diagnosis and treatment of myopia, ultimately leading to the development of more effective preventive and therapeutic measures. In this review, we summarize current data about the genomics and transcriptomics of myopia in human and animal models. We also discuss the potential applicability of these findings to precision medicine for myopia treatment. [ABSTRACT FROM AUTHOR]

Published

2023

4. Copper/N,N-dimethylglycine catalyzed goldberg reactions between aryl bromides and amides, aryl iodides and secondary acyclic amides.

Author

Jiang L

Subjects

Catalysis, Chemistry Techniques, Synthetic, Sarcosine chemistry, Copper chemistry, Formamides chemistry, Hydrocarbons, Brominated chemistry, Hydrocarbons, Iodinated chemistry, Sarcosine analogs & derivatives

Abstract

An efficient and general copper-catalyzed Goldberg reaction at 90-110 °C between aryl bromides and amides providing the desired products in good to excellent yields has been developed using N,N-dimethylglycine as the ligand. The reaction is tolerant toward a wide range of amides and a variety of functional group substituted aryl bromides. In addition, hindered, unreactive aromatic and aliphatic secondary acyclic amides, known to be poor nucleophiles, are efficiently coupled with aryl iodides through this simple and cheap copper/N,N-dimethylglycine catalytic system.

Published

2014

5. Synthesis of the key precursor of Hirsutellide A.

Author

Xu Y, Duan X, Li M, Jiang L, Zhao G, Meng Y, and Chen L

Subjects

Models, Biological, Peptides, Cyclic chemical synthesis, Prodrugs chemical synthesis, Peptides, Cyclic chemistry, Protein Precursors chemical synthesis

Abstract

Hexadepsipeptide 2, the precursor of Hirsutellide A (1), was synthesized in an overall yield of 45% from N-Boc-Me-Gly via three coupling reactions using dicyclohexylcarbodiimide (DCC), O-(7-azabenzotriazol-1-yl)-N,N,N',N'-tetramethyl- uronium hexafluorophosphate (HATU) and bis(2-oxo-3-oxazolidinyl)phosphinic chloride (BOP-Cl), respectively.

Published

2005