Hobbs John L Ross Ronald J Ferek And Peter V
a University of Washington , Seattle , Washington.
J Air Waste Manag Assoc. 1996 Mar;46(3):251-259. doi: 10.1080/10473289.1996.10467459.
Burning is a very effective way of removing oil spills from the ocean; the tradeoff is the potential for significant air pollution. Airborne measurements are described for particles and gases from two test burns of crude oil offshore of St. Johns, Newfoundland during the Newfoundland Offshore Burn Experiment (NOBE). The smoke plumes from the burns initially rose 200-400 m into the air and then continued to rise and disperse laterally downwind. The concentrations of accumulation-mode particles in the smoke were ~45,000 cm at 1.5 km from the fires, and they remained as high as ~4,000 cm after an hour or more of travel time downwind. Total particle mass loadings in the plumes were over 1000 µg m near the fires, but decreased to ~100 µg m at 25 km downwind. For each kilogram of fuel consumed, ~770 g of carbon was released in the form of CO2, ~13 g of carbon as CO, -5 g as volatile organic compounds (VOCs), and -87 g as particles with diameters <3.5 µm, of which ~66 g was elemental carbon and ~7 g condensed organic carbon. Also, ~3 g of SO2 was released per kilogram of fuel burned. A relatively low combustion efficiency was indicated by the average molar ratio of the concentration of CO to excess CO2 of 0.017. The molar ratio of NOX to excess CO2 typically varied from 0.3 x 10 to 0.4 x 10, implying little fixation of atmospheric nitrogen and low concentrations of NOX. For comparison, the total smoke particle production rate in the NOBE burns was about the same as that for a nineacre slash burn.
燃烧是清除海洋溢油的一种非常有效的方法;其代价是可能造成严重的空气污染。本文描述了在纽芬兰近海燃烧实验(NOBE)期间,对纽芬兰圣约翰斯近海两次原油测试燃烧产生的颗粒和气体进行的机载测量。燃烧产生的烟羽最初上升到空中200 - 400米,然后继续上升并在顺风方向横向扩散。距火源1.5公里处,烟雾中积聚模式颗粒的浓度约为45,000个/立方厘米,在顺风传播一小时或更长时间后,浓度仍高达约4,000个/立方厘米。烟羽中的总颗粒质量负荷在火源附近超过1000微克/立方米,但在顺风25公里处降至约100微克/立方米。每消耗一千克燃料,约770克碳以二氧化碳的形式释放,约13克碳以一氧化碳的形式释放, - 5克以挥发性有机化合物(VOCs)的形式释放, - 87克以直径<3.5微米的颗粒形式释放,其中约66克是元素碳,约7克是冷凝有机碳。此外,每燃烧一千克燃料释放约3克二氧化硫。一氧化碳与过量二氧化碳浓度的平均摩尔比为0.017,表明燃烧效率相对较低。氮氧化物与过量二氧化碳的摩尔比通常在0.3×10⁻³至0.4×10⁻³之间变化,这意味着大气氮的固定很少,氮氧化物浓度较低。相比之下,NOBE燃烧中总的烟雾颗粒产生率与一次9英亩的皆伐燃烧大致相同。
