With the continuous deterioration of environmental problems and the energy crisis, it has become the research focus to find some effective methods for reducing waste emission of the energy storage system and equipment in the process of design, manufacturing, and application.
It is well known that the minimum waste emissions and longest service life are desired for normal operation and application for energy storage systems and equipment. Low-carbon design, manufacturing, and application are to promote the low-carbon principles, concepts, and methods of the energy storage system and equipment. Low energy consumption, low pollution, and low emissions are performed in all aspects of product manufacturing, storage and transportation, circulation, consumption, and even recycling, which need multiple links to complement each other. Low-carbon design, manufacturing, and application are very important to energy, environmental & sustainable ecological development. However, it is still challenging to achieve low-carbon design, manufacturing, and application of the energy storage system and equipment for both academic researchers and industrial engineers. This research topic is dedicated to the most recent advances in research of the low-carbon design, manufacturing, and application of energy storage systems and equipment.
We invite scientists and investigators to contribute original research and review articles that address the following topics:
? low-carbon design and manufacturing assessment of the energy storage system and equipment;
? low-carbon design and manufacturing strategy of the energy storage system and equipment;
? low-carbon design and manufacturing operation model of the energy storage system and equipment;
? life-cycle assessment of the energy storage system and equipment;
? countermeasure analysis of the energy storage system and equipment;
? cascade utilization of energy storage system and equipment;
? thermal management technology of the energy storage system and equipment;
? carbon footprint evolution under low carbon manufacturing and application of the energy storage system and equipment;
? renewable materials for the energy storage system and equipment;
? systems modeling and simulation under low carbon design, manufacturing and application of the energy storage system and equipment.
With the continuous deterioration of environmental problems and the energy crisis, it has become the research focus to find some effective methods for reducing waste emission of the energy storage system and equipment in the process of design, manufacturing, and application.
It is well known that the minimum waste emissions and longest service life are desired for normal operation and application for energy storage systems and equipment. Low-carbon design, manufacturing, and application are to promote the low-carbon principles, concepts, and methods of the energy storage system and equipment. Low energy consumption, low pollution, and low emissions are performed in all aspects of product manufacturing, storage and transportation, circulation, consumption, and even recycling, which need multiple links to complement each other. Low-carbon design, manufacturing, and application are very important to energy, environmental & sustainable ecological development. However, it is still challenging to achieve low-carbon design, manufacturing, and application of the energy storage system and equipment for both academic researchers and industrial engineers. This research topic is dedicated to the most recent advances in research of the low-carbon design, manufacturing, and application of energy storage systems and equipment.
We invite scientists and investigators to contribute original research and review articles that address the following topics:
? low-carbon design and manufacturing assessment of the energy storage system and equipment;
? low-carbon design and manufacturing strategy of the energy storage system and equipment;
? low-carbon design and manufacturing operation model of the energy storage system and equipment;
? life-cycle assessment of the energy storage system and equipment;
? countermeasure analysis of the energy storage system and equipment;
? cascade utilization of energy storage system and equipment;
? thermal management technology of the energy storage system and equipment;
? carbon footprint evolution under low carbon manufacturing and application of the energy storage system and equipment;
? renewable materials for the energy storage system and equipment;
? systems modeling and simulation under low carbon design, manufacturing and application of the energy storage system and equipment.