Rate Coefficients and Branching Ratios for the Reaction of the OH Radical with Formic Acid under Low-Temperature Combustion Conditions and the Fate of the HOCO Product.

Formic acid (FA, HC(O)OH) is of interest as an e-fuel and hydrogen carrier, as well as a significant component of atmospheric acidification. Reaction with the OH radical is a major removal process for FA. We have measured the overall rate coefficient, , for the reaction of OH and FA over the temperature range of 300-850 K using laser flash photolysis to generate OH and monitoring the disappearance of OH under pseudo-first-order conditions using laser-induced fluorescence. The rate coefficient can be parameterized as () = 9.8 × 10 × (/298 K) × exp(-14200/R) cm molecule s where we estimate that the uncertainty increases from ∼ ±20% in the range 300-600 K to ±50% above 600 K. We have also determined the branching ratio to HO + HCO (abstraction at the O-H site) by observing the H atoms produced by the fast decomposition of HCO. H atom yields drop from ∼0.9 at 300 K to ∼0.5 at 600 K. The kinetics and branching ratios of are in good agreement with theoretical calculations. Above 600 K, the observed H atom yield increases, and we show that this is due to the decomposition of the HOCO product. The implications of these studies on FA and HOCO in the combustion and pyrolysis of FA are considered.