3.3. Effects of LHW and DSA pretrea

3.3. Effects of LHW and DSA pretreatments on sugars and other soluble by-products The composition of prehydrolysates after LHW and DSA pretreatments (oligosaccharides, monosaccharides and 5-HMF) is shown in Table 2.Oligosaccharides were the main carbohydrates obtained in LHW prehydrolysates at low and medium temperatures (190e220
C), reaching a maximum yield close to 17 kg oligosaccharides
per 100 kg of raw material at 210
C (log R0 ¼ 3.75).However, degradation reactions of oligosaccharides prevailed over oligosaccharide production when working above 210
C and therefore yields dropped. Thus, 10.7 kg/100 kg OS were obtained at 220
C (log R0 ¼ 4.12), and the oligosaccharide yield drastically dropped to 3.5 kg/100 kg OS at 230
C (log R0 ¼ 4.36). These results
are in agreement with previous studies [19] in which autohydrolysis of crushed olive stones, with particle size in the range 0.300e0.425 mm, produced similar quantities of oligosaccharides
(16 kg/100 kg OS at 200
C for 2 min, log R0 ¼ 3.67). This fact could indicate that particle size is not a significant factor for enhancing the hemicellulosic oligomers production from olive stones by
hydrothermal pretreatment. Nevertheless, the amount of oligosaccharides released to prehydrolysate was strongly dependent on the acid concentration and, in general, the production of these
carbohydrates by hot water was greater than that found by dilute acid hydrolysis (maximum yield of 4.5 kg/100 kg OS at 200
C, log R0 ¼ 3.44), Table 2. D-xylose was the main monosaccharide in prehydrolysates and its production was significantly influenced by the addition of acid and pretreatment temperature. D-xylose maximum yield for LHW trials was 8.0 kg/100 kg OS when raw material was pretreated at 220
C (log R0 ¼ 4.12). DSA pretreatment carried out at 200
C (log
R0 ¼ 3.44) produced 21 kg of D-xylose per 100 kg of olive stones,89.7% of the total D-xylose in raw material. This result is in agreement with that reported by Torget et al. [32], 92% of D-xylose
extraction was achieved during dilute sulphuric acid pretreatment of rice straw. The high D-xylose yield obtained confirms that olive stones are potential source of D-xylose.
The maximum yields of L-arabinose in LHW (0.75 kg/100 kg OS)and DSA (1.2 kg/100 kg OS) experiments were obtained at lower temperatures (210
C and 190
C, respectively) than those that
maximised D-xylose and D-galactose yields. This fact makes sense since L-arabinose is found in lateral chains of hemicelluloses, and the chemical reactions that break side chains are faster than those that hydrolyse the main xylan chain [7].