In the Kraft pulping process, a mix

In the Kraft pulping process, a mixture of sodium hydroxide and sodium sulfide, known as white liquor, is used as the pulping reagent. This white liquor then turns into “green liquor”, pulping terminology for a solution of sodium carbonate and sodium sulfide (Na2S). To regenerate the spent white liquor and to recover sodium hydroxide, the green liquor is mixed with calcium hydroxide (Ca(OH)2). Recently, the use of green liquor for pretreatment of lignocellulosic biomass has drawn considerable attention due to its high selectivity for delignification and high retention of carbohydrates (Wu et al., 2011). Pretreatment using sodium hydroxide alone is a technically feasible pretreatment method.

Sodium hydroxide pretreatment, in fact, has a long history (since the 1900s) of study aimed at increasing the digestibility of cellulose by rumen animals. This strong base solubilizes hemicellulose and lignin significantly under certain conditions (Sjostrom, 1993). Sodium hydroxide is one of the strongest base catalysts, so the effectiveness of pretreatment using it is evidenced by a greater degree of enzyme hydrolysis than with other alkaline pretreatments.

Sodium hydroxide effectively attacks the linkage between lignin and hemicellulose in lignin-carbohydrate complexes (LCC); in particular, it cleaves the ether and ester bonds in the LCC structure. Sodium hydroxide is also effective for cleavage of the ester and carbon-to-carbon (C–C) bonds in lignin molecules (ferulic acid). During the NaOH pretreatment reaction, sodium hydroxide is dissociated into hydroxide ion (OH−) and sodium ion (Na+) and, as the hydroxide ion concentration increases, the rate of the hydrolysis reaction increases accordingly (Modenbach, 2013).