Electric vehicle refers to a vehicle that is powered by an on-board power source and uses an electric motor to drive its wheels, meeting various requirements of road traffic and safety regulations. It uses electricity stored in the battery to start. Sometimes 12 or 24 batteries are used to drive the car, and sometimes more are needed. Electric Sedan Car,Medium To Large Vehicle Super,Electric Sedan,Pure Electric Medium-Sized Car Chongqing Huanyu Automobile Sales Company , https://www.nbhuanyuauto.com
The composition of electric vehicles includes: electric drive and control systems, mechanical systems such as driving force transmission, and working devices to complete predetermined tasks. The electric drive and control system is the core of electric vehicles and the biggest difference from internal combustion engine vehicles. The electric drive and control system consists of a driving motor, a power supply, and a speed control device for the motor. The other devices of electric vehicles are basically the same as those of internal combustion engines.
[ Instrument R & D of Instrument Network ] Recently, Zhang Weijun, a researcher of the Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences Hefei Institute of Material Science, has made new progress in the detection technology of aerosol optical hygroscopic growth characteristics. Related research results are The spectrometer is used for the simultaneous measurement of the hygroscopic growth characteristics of aerosol extinction, scattering, absorption and single-scatter albedo. It was published in the Atmospheric Measurement Techniques published by the European Earth Science Association (EGU) and was selected as the "Highlight Article".
Aerosol hygroscopicity is a key parameter for evaluating aerosol radiative forcing and exploring aerosol environmental effects. The aerosol optical hygroscopic growth characteristic is one of the important methods to characterize the aerosol hygroscopicity, but the existing methods can only measure the extinction or scattering hygroscopic growth characteristics separately, it is difficult to obtain the aerosol optical hygroscopic growth characteristics comprehensively and accurately.
Researchers Zhao Weixiong and Ph.D. Xu Xuezhe, etc., first combined broadband cavity enhanced absorption spectroscopy technology with integrating spheres in 2014, developed the world's first cavity enhanced albedo spectrometer, which realized aerosol multi-parameter optics (extinction, scattering, Absorption, single-scatter albedo) in situ, simultaneous measurement. Subsequently, based on the broadband cavity enhanced absorption spectroscopy technology, a hygroscopic extinction spectrometer was developed, which was first applied to the measurement of the aerosol extinction hygroscopic growth characteristics.
This time, on the basis of the existing work, in order to fully obtain the aerosol optical hygroscopic growth characteristics, the research group combined a cavity enhanced albedo spectrometer with a rapid humidity adjustment system to develop a new aerosol optical hygroscopic growth characteristic measuring device . The device can realize the simultaneous measurement of the hygroscopic growth factor of aerosol extinction, scattering, absorption and single-scatter albedo, and can quickly obtain the corresponding hygroscopic growth curve. Its accuracy and reliability have reached the international advanced level. Carbon aerosol radiative forcing provides a key technical means.
From October to November 2018, the instrument participated in large-scale comprehensive observation experiments in the Guangdong-Hong Kong-Macao Greater Bay Area, and obtained data on the multi-parameter optical hygroscopic growth characteristics of aerosols in Guangzhou. Compared with the existing method, the device not only has complete optical parameters, is accurate and reliable, but also has low cost, good stability, and is suitable for long-term observation of stations, and has good scientific research and business application prospects.
The research was supported by the National Natural Science Foundation of China, the Research Equipment Development Project of the Chinese Academy of Sciences, the Dean Fund of the Hefei Research Institute, the Natural Science Foundation of Anhui Province, and the Youth Innovation Promotion Association of the Chinese Academy of Sciences.
Figure 1. Schematic diagram of hygroscopic cavity enhanced albedo spectrometer (H-CEA)
Figure 2. Measurement results of optical hygroscopic growth characteristics of ammonium sulfate and aniline black aerosol
Figure 3. Participating in large-scale comprehensive observation experiments in the Guangdong-Hong Kong-Macao Greater Bay Area