China's centimeter-scale micro-generation system came out
2024-05-28 15:07:29
The Chinese Academy of Sciences Guangzhou Energy, the Chinese Academy of Sciences "Hundred Talents Program" candidate, "Huigui" Dr. Xu Jinliang led the research team in the field of micro-energy research, with three years of hard work and sweat finally formed a fruit: the centimeter-level micro-power generation system came out in the near future. It is reported that this achievement has broad application prospects.
According to reports, the micro-energy system was first proposed by American scholars a few years ago. The concept is to integrate a complete power plant into a milliliter-scale volume with a size of centimeter and key features of the key components in the micron range. The micro-energy system can provide long-term energy supply for future field workers. It can replace lithium-ion batteries, greatly improve the survivability of the field, and also serve as a power output to power the micro-aircraft. It can also power microelectromechanical systems (MEMS) or other electronic devices that work in the field and in special occasions, and its application prospects are very broad.
In view of this, the concept of micro-energy system has been raised from the very beginning, which has aroused great attention from the international academic community. However, due to the difficulty of multidisciplinary and material development, such as materials, thermophysics and microsystems, there is no report on the power output of microenergy systems in the world.
Under the leadership of Dr. Xu Jinliang, the chief scientist of the Institute of Microenergy Systems, Guangzhou Institute of Energy, the Chinese Academy of Sciences, through unremitting efforts in recent years, has overcome many technical difficulties and recently successfully developed a prototype prototype of the micro-energy system. Xu Jinliang believes that although the microsystem has a certain distance from the practical, it has seen the dawn of application from recent progress. His microenergy systems laboratory has also made great strides in microscale energy conversion in recent years, in J. of Micromechanics and Microengineering, Nanoscale and Microscale Thermophysical Engineering, Int. J. of Heat and Mass Transfer, and Int. J. A series of papers published in the journals such as Multiphase Flow have attracted the attention of the international academic community.
According to reports, the micro-energy system was first proposed by American scholars a few years ago. The concept is to integrate a complete power plant into a milliliter-scale volume with a size of centimeter and key features of the key components in the micron range. The micro-energy system can provide long-term energy supply for future field workers. It can replace lithium-ion batteries, greatly improve the survivability of the field, and also serve as a power output to power the micro-aircraft. It can also power microelectromechanical systems (MEMS) or other electronic devices that work in the field and in special occasions, and its application prospects are very broad.
In view of this, the concept of micro-energy system has been raised from the very beginning, which has aroused great attention from the international academic community. However, due to the difficulty of multidisciplinary and material development, such as materials, thermophysics and microsystems, there is no report on the power output of microenergy systems in the world.
Under the leadership of Dr. Xu Jinliang, the chief scientist of the Institute of Microenergy Systems, Guangzhou Institute of Energy, the Chinese Academy of Sciences, through unremitting efforts in recent years, has overcome many technical difficulties and recently successfully developed a prototype prototype of the micro-energy system. Xu Jinliang believes that although the microsystem has a certain distance from the practical, it has seen the dawn of application from recent progress. His microenergy systems laboratory has also made great strides in microscale energy conversion in recent years, in J. of Micromechanics and Microengineering, Nanoscale and Microscale Thermophysical Engineering, Int. J. of Heat and Mass Transfer, and Int. J. A series of papers published in the journals such as Multiphase Flow have attracted the attention of the international academic community.
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