In recent years, people are committed to developing new technologies and technologies for energy storage and conversion, environmental detection, high-performance sensors and energy security, and other aspects of the increasingly prominent problems in the field of environmental and biosafety. The purpose of this paper is to explore the manufacturing system and automatic synthesis equipment of carbon nanomaterials, understand the control device and control method, and analyze the structure and morphology characteristics of three kinds of carbon nanomaterials produced by carbon nanomaterial manufacturing system by X-ray diffraction and infrared spectroscopy. The results show that the carbon nanomaterial manufacturing system and automatic synthesis system in this paper solve the problems of high cost, low efficiency, and small scale of the existing carbon nanomaterials manufacturing and achieve the precision control of automatic production, so that the productivity is increased by 20%–35%, and the cost is reduced by 15%–30%. Therefore, they are widely used in the fields of science and technology, environmental protection, and intelligent manufacturing broad prospects. Carbon nanotube manufacturing equipment and automatic synthesis equipment have great production advantages, which can greatly improve the quality and efficiency of carbon nanomaterials. UPY, GO, and UGO carbon nanomaterials produced by carbon nanotube manufacturing equipment are not easy to fall off from the materials. When the wavelength is 500 nm, the absorption frequency of the three materials is the largest. With the extension of the spectral wavelength, the absorption frequency of the three materials is reduced by 52%, 33%, and 34.7%, respectively.

中文翻译：

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碳纳米材料制造系统和自动合成设备及其控制装置和控制方法

近年来，人们致力于开发新的技术和新技术，用于能源存储与转换、环境检测、高性能传感器和能源安全等方面，解决环境与生物安全领域日益突出的问题。本文的目的是探索碳纳米材料的制造系统和自动合成设备，了解控制装置和控制方法，并通过X射线分析碳纳米材料制造系统生产的三种碳纳米材料的结构和形貌特征。衍射和红外光谱。结果表明，本文的碳纳米材料制造系统和自动合成系统解决了成本高、效率低、和现有碳纳米材料的小规模制造，实现自动化生产的精密控制，使生产率提高20%~35%，成本降低15%~30%。因此，它们在科技、环保、智能制造等领域有着广阔的应用前景。碳纳米管制造设备和自动合成设备具有很大的生产优势，可以大大提高碳纳米材料的质量和效率。碳纳米管制造设备生产的UPY、GO、UGO碳纳米材料不易从材料上脱落。当波长为500 nm时，三种材料的吸收频率最大。随着光谱波长的延长，