Robinson R A, Gardiner T D, Innocenti F, Finlayson A, Woods P T, Few J F M
National Physical Laboratory, Teddington, Middlesex TW11 0LW, UK.
Environ Sci Process Impacts. 2014 Aug;16(8):1957-66. doi: 10.1039/c4em00113c.
The emission of carbon dioxide (CO2) from industrial sources is one of the main anthropogenic contributors to the greenhouse effect. Direct remote sensing of CO2 emissions using optical methods offers the potential for the identification and quantification of CO2 emissions. We report the development and demonstration of a ground based mobile differential absorption lidar (DIAL) able to measure the mass emission rate of CO2 in the plume from a power station. To our knowledge DIAL has not previously been successfully applied to the measurement of emission plumes of CO2 from industrial sources. A significant challenge in observing industrial CO2 emission plumes is the ability to discriminate and observe localised concentrations of CO2 above the locally observed background level. The objectives of the study were to modify our existing mobile infrared DIAL system to enable CO2 measurements and to demonstrate the system at a power plant to assess the feasibility of the technique for the identification and quantification of CO2 emissions. The results of this preliminary study showed very good agreement with the expected emissions calculated by the site. The detection limit obtained from the measurements, however, requires further improvement to provide quantification of smaller emitters of CO2, for example for the detection of fugitive emissions. This study has shown that in principle, remote optical sensing technology will have the potential to provide useful direct data on CO2 mass emission rates.
工业源排放的二氧化碳(CO₂)是造成温室效应的主要人为因素之一。利用光学方法对二氧化碳排放进行直接遥感,为识别和量化二氧化碳排放提供了可能。我们报告了一种能够测量发电站烟羽中二氧化碳质量排放率的地面移动差分吸收激光雷达(DIAL)的开发和演示情况。据我们所知,DIAL此前尚未成功应用于测量工业源二氧化碳排放烟羽。观测工业二氧化碳排放烟羽的一个重大挑战是,要能够区分并观测到局部观测背景水平之上的局部二氧化碳浓度。本研究的目的是对我们现有的移动红外DIAL系统进行改进,以实现二氧化碳测量,并在发电厂对该系统进行演示,评估该技术用于识别和量化二氧化碳排放的可行性。这项初步研究的结果与该场地计算出的预期排放量非常吻合。然而,从测量中获得的检测限需要进一步改进,以便对较小的二氧化碳排放源进行量化,例如用于检测逃逸排放。这项研究表明,原则上,远程光学传感技术有潜力提供有关二氧化碳质量排放率的有用直接数据。