Enhancing methane sensing with NDIR technology: Current trends and future prospects

IF 3.6 3区 化学 Q2 CHEMISTRY, ANALYTICAL
Li Fu, Shixi You, Guangjun Li, Zengchang Fan
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Abstract

Abstract This study presents an in-depth review of non-dispersive infrared (NDIR) sensors for methane detection, focusing on their principles of operation, performance characteristics, advanced signal processing techniques, multi-gas detection capabilities, and applications in various industries. NDIR sensors offer significant advantages in methane sensing, including high sensitivity, selectivity, and long-term stability. The underlying principles of NDIR sensors involve measuring the absorption of infrared radiation by the target gas molecules, leading to precise and reliable methane concentration measurements. Advanced signal processing techniques, such as single-frequency filtering and wavelet filtering algorithms, have been explored to improve the performance of the sensor by reducing noise, enhancing the signal-to-noise ratio, and achieving more accurate results. In the context of multi-gas detection, NDIR sensors face challenges due to overlapping absorption spectra. However, various solutions, including narrow-band optical bandpass filters, gas filter correlation techniques, and machine learning algorithms, have been proposed to address these issues effectively. This study delves into specific applications of NDIR sensors in various industries, such as coal mines, wastewater treatment plants, and agriculture. In these settings, NDIR sensors have demonstrated their reliability, accuracy, and real-time monitoring capabilities, contributing to environmental protection, safety, and energy recovery. Furthermore, the anticipated future trends and developments in NDIR methane detection technology are explored, including increased miniaturization, integration with artificial intelligence, improvements in power efficiency, and the development of multi-gas NDIR sensors. These advancements are expected to further enhance the capabilities and widespread adoption of NDIR sensors in methane detection applications.
利用NDIR技术加强甲烷传感:当前趋势和未来前景
摘要本文对非色散红外(NDIR)甲烷检测传感器的工作原理、性能特点、先进的信号处理技术、多气体检测能力及其在各行业中的应用进行了综述。NDIR传感器在甲烷传感方面具有显著的优势,包括高灵敏度、选择性和长期稳定性。NDIR传感器的基本原理包括测量目标气体分子对红外辐射的吸收,从而精确可靠地测量甲烷浓度。探索了单频滤波、小波滤波等先进的信号处理技术,通过降低噪声、提高信噪比、获得更准确的结果来提高传感器的性能。在多气体检测环境下,NDIR传感器由于吸收光谱重叠而面临挑战。然而,已经提出了各种解决方案,包括窄带光带通滤波器,气体滤波器相关技术和机器学习算法,以有效地解决这些问题。本研究深入探讨了NDIR传感器在煤矿、污水处理厂和农业等不同行业的具体应用。在这些环境中,NDIR传感器已经证明了其可靠性、准确性和实时监测能力,有助于环境保护、安全和能源回收。此外,展望了NDIR甲烷检测技术的未来发展趋势,包括小型化程度的提高、与人工智能的集成、功率效率的提高以及多气体NDIR传感器的发展。预计这些进展将进一步提高NDIR传感器在甲烷探测应用中的能力和广泛采用。
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来源期刊
Reviews in Analytical Chemistry
Reviews in Analytical Chemistry 化学-分析化学
CiteScore
7.50
自引率
0.00%
发文量
15
审稿时长
>12 weeks
期刊介绍: Reviews in Analytical Chemistry publishes authoritative reviews by leading experts in the dynamic field of chemical analysis. The subjects can encompass all branches of modern analytical chemistry such as spectroscopy, chromatography, mass spectrometry, electrochemistry and trace analysis and their applications to areas such as environmental control, pharmaceutical industry, automation and other relevant areas. Review articles bring the expert up to date in a concise manner and provide researchers an overview of new techniques and methods.
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