Bing Shi scite author profile

Bing Shi

5Publications

39Citation Statements Received

679Citation Statements Given

How they've been cited

How they cite others

387

676

Affiliations

Shanghai Jiao Tong University, Northeast Electric Power University, Puyang Vocational and Technical College

Publications

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Experimental Study on Breakdown Characteristics of Transformer Oil Influenced by Bubbles

Qin

Shi

et al. 2018

Energies

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Bubbles will reduce the electric strength of transformer oil, and even result in the breakdown of the insulation. This paper has studied the breakdown voltages of transformer oil and oil-impregnated pressboard under alternating current (AC) and direct current (DC) voltages. In this paper, three types of electrodes were applied: cylinder-plan electrodes, sphere-plan electrodes, and cone-plan electrodes, and the breakdown voltages were measured in both no bubbles and bubbles. The sphere-sphere electrodes were used to study the breakdown voltage of the oil-impregnated pressboard. The results showed that under the influence of bubble, the breakdown voltage of the cylinder-plan electrode dropped the most, and the breakdown voltage of the cone-plan electrode dropped the least. The bubbles motion was the key factor of the breakdown. The discharge types of the oil-impregnated pressboard were different with bubbles, and under DC, the main discharge type was flashover along the oil-impregnated pressboard, while under AC, the main discharge type was breakdown through the oil-impregnated pressboard.

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Electrical properties of rigid pour polyurethane foam applied for high voltage insulation

Karady

Argin

Shi

et al.

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MBG/ PGA-PCL composite scaffolds provide highly tunable degradation and osteogenic features

Wang

Gao

et al. 2022

Bioactive Materials

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Biological and Bioinspired Thermal Energy Regulation and Utilization

Shi

Jiang

et al. 2023

Chem. Rev.

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The regulation and utilization of thermal energy is increasingly important in modern society due to the growing demand for heating and cooling in applications ranging from buildings, to cooling high power electronics, and from personal thermal management to the pursuit of renewable thermal energy technologies. Over billions of years of natural selection, biological organisms have evolved unique mechanisms and delicate structures for efficient and intelligent regulation and utilization of thermal energy. These structures also provide inspiration for developing advanced thermal engineering materials and systems with extraordinary performance. In this review, we summarize research progress in biological and bioinspired thermal energy materials and technologies, including thermal regulation through insulation, radiative cooling, evaporative cooling and camouflage, and conversion and utilization of thermal energy from solar thermal radiation and biological bodies for vapor/electricity generation, temperature/infrared sensing, and communication. Emphasis is placed on introducing bioinspired principles, identifying key bioinspired structures, revealing structure–property–function relationships, and discussing promising and implementable bioinspired strategies. We also present perspectives on current challenges and outlook for future research directions. We anticipate that this review will stimulate further in-depth research in biological and bioinspired thermal energy materials and technologies, and help accelerate the growth of this emerging field.

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Evaluation of quality changes and elasticity index of kiwifruit in shelf life by a nondestructive acoustic vibration method

Zhang

Shi

et al. 2021

Postharvest Biology and Technology

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Bing Shi

Experimental Study on Breakdown Characteristics of Transformer Oil Influenced by Bubbles

Electrical properties of rigid pour polyurethane foam applied for high voltage insulation

MBG/ PGA-PCL composite scaffolds provide highly tunable degradation and osteogenic features

Biological and Bioinspired Thermal Energy Regulation and Utilization

Evaluation of quality changes and elasticity index of kiwifruit in shelf life by a nondestructive acoustic vibration method

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