Journal
CATALYSIS LETTERS
Volume 150, Issue 5, Pages 1373-1388Publisher
SPRINGER
DOI: 10.1007/s10562-019-03059-0
Keywords
Sugary food waste; 5-HMF; Ultrasound-ILs; Pretreatment; Acidic solid catalyst
Categories
Funding
- National Natural Science Foundation of China [21676125, 31801552]
- Science and Technology Major Project of Anhui [18030701152]
- Policy Guidance Program (Research Cooperation) of Jiangsu [BY2016072-03]
- Social Development Program (General Project) of Jiangsu [BE2016779]
- 333 high level talents of Jiangsu [2018-26]
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The purpose of this study was to efficiently convert the sugary food waste (SFW) to 5-hydroxymethylfurfural (5-HMF) by ultrasound-[Bmim]Cl pretreatment in ionic liquids (ILs)-ion exchange resin system. The effect of ultrasonic pretreatment on SFW and the effect of ultrasonic frequency, ILs, acid resin and catalyst load on SFW conversion were studied. The kinetic curve and the relationship between products and intermediates were studied. In addition, the structure of SFW was also studied by FT-IR and SEM. The results indicated ultrasound-[Bmim]Cl pretreatment can significantly promote the dissolution of cellulose in SFW, and the optimal ultrasonic frequency, solvent and catalyst were 20 + 40 + 60 kHz, [Bmim]Cl and D001-cc resin, respectively; under the best reaction conditions, the maximum 5-HMF yields from the orange and apple wastes were 42.15 and 44.66 mol%, respectively. The kinetic studies showed that the early stage of 100 and 120 degrees C was mainly the hydrolysis reaction, and late stage was mainly isomerization and dehydration reaction; the early stage of 140 and 160 degrees C was a rapid hydrolysis and dehydration reaction, and the late stage was mainly the rehydration reaction of 5-HMF. The relationship between the intermediate precursors and 5-HMF showed that the rates of formation and rehydration of 5-HMF increased with the increase in temperature, and the formation reaction was mainly concentrated in zone II. The FT-IR and SEM results of degradation products showed that cellulose in SFW was more easily hydrolyzed at high temperature and long time. [GRAPHICS] .
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