Dust concentration detection technology based on light scattering multi-source coupling

［1］　PORTARAPILLO Maria, DANZI Enrico, SANCHIRICO Roberto, et al. Energy Recovery from Vinery Waste: Dust Explosion Issues［J］. Applied Sciences, 2021, 11（23）: 11188. ［2］　ABBASI Behrooz, WANG Xiaoliang, CHOW Judith C, et al. Review of respirable coal mine dust characterization for mass concentration, size distribution and chemical composition［J］. Minerals, 2021, 11（4）: 426. ［3］　KELLY K E, WHITAKER J, PETTY A, et al. Ambient and laboratory evaluation of a low-cost particulate matter sensor［J］. Environmental Pollution, 2017, 221: 491-500. ［4］　ALEXANDER Konoshonkin, NATALIA Kustova, ANATOLI Borovoi, et al. Using the Physical Optics Approximation for Estimating the Light Scattering Properties of Large Dust Particles for Lidar Applications［J］. The European Physical Journal Conferences, 2020, 237（4）: 425-432. ［5］　HALDER Prithish, ROY Parizath Deb, DAS Himadri Sekhar. Dependence of light scattering properties on porosity, size and composition of dust aggregates［J］. Icarus, 2018, 312: 45-60. ［6］　JENNIFER M Alexander, OLGA Laskina, BRIAN Meland, et al. A combined laboratory and modeling study of the infrared extinction and visible light scattering properties of mineral dust aerosol［J］. Journal of Geophysical Research: Atmospheres, 2013, 118（2）: 435-452. ［7］　付士根，亢永，王庆.基于光散射法粉尘个体监测仪研制［J］.中国安全生产科学技术，2021，17（6）：149-153. FU Shigen, KANG Yong, WANG Qing. Development of individual dust monitor based on light scattering method［J］. Journal of Safety Science and Technology, 2021,17（6）: 149-153. ［8］　贾茜媛.粉尘颗粒光散射测量技术研究［D］.杭州：中国计量大学，2017. ［9］　赵政.基于光散射法的粉尘浓度检测技术研究［J］.电子设计工程，2015，23（24）：116-118. ZHAO Zheng. Research on dust concentration measurement technique on the light scattering method［J］. Electronic Design Engineering, 2015, 23（24）: 116-118. ［10］　UTRY N, AJTAI T, PINT?魪R M, et al. Mass-specific optical absorption coefficients and imaginary part of the complex refractive indices of mineral dust components measured by a multi-wavelength photoacoustic spectrometer［J］. Atmospheric Measurement Techniques, 2015, 8（1）: 401-410. ［11］　MATHIEU Balcaen, LORENZ De Neve, KOEN Dewettinck, et al. Effect of dilution on particle size analysis of w/o emulsions by dynamic light scattering［J］. Journal of Dispersion Science and Technology, 2021, 42（6）: 869-879. ［12］　MU Tongtong, SHEN Jin, WANG Mengjie, et al. Particle size distribution measurement in a flowing aerosol using dynamic light scattering［J］. Measurement Science and Technology, 2021, 32（7）: 1011-1018. ［13］　HOU Bowen, LI Jiajing, GAO Liang, et al. Multi-Source Coupling Based Analysis of the Acoustic Radiation Characteristics of the Wheel Rail Region of High-Speed Railways［J］. Entropy, 2021, 23（10）: 1328-1328. ［14］　YAO Jiannan, DENG Yong, XIAO Xingming. Optimization of hoisting parameters in a multi-rope friction mine hoist based on the multi-source coupled vibration characteristics of hoisting catenaries［J］. Advances in Mechanical Engineering, 2017, 9（3）: 48-50. ［15］　MOLLAKAZEMI M Javad, ATYABI S Abbas, GHAFFARI Ali. Heart beat detection using a multimodal data coupling method［J］. Physiological Measurement, 2015, 36（8）: 1729-1742. ［16］　李国正.复杂工况下旋转机械的多源耦合故障信号分离诊断方法研究［D］.北京：北京化工大学，2020. ［17］　ALEXANDER D W, CHASKO L L. Effect of ground control mesh on dust sampling and explosion mitigation［J］. Mining Engineering, 2015, 67（7）: 111-117. ［18］　尉莉莉.中美粉尘采样方法比对研究［D］.北京:首都经济贸易大学，2015.