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Utilization of pineapple stem juice to enhance enzyme-hydrolytic efficiency for sugarcane bagasse after an optimized pre-treatment with alkaline peroxide

Author

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  • Monte, J.R.
  • Brienzo, M.
  • Milagres, A.M.F.

Abstract

The enzymatic hydrolysis of sugarcane bagasse was investigated by treating a peroxide-alkaline bagasse with a pineapple stem juice, xylanase and cellulase. Pre-treatment procedures of sugarcane bagasse with alkaline hydrogen peroxide were evaluated and compared. Analyses were performed using 24 factorial designs, with pre-treatment time, temperature, magnesium sulfate and hydrogen peroxide concentration as factors. The responses evaluated were the yield of cellobiose and glucose released from pretreated bagasse after enzymatic hydrolysis. The results show that the highest enzymatic conversion was obtained for bagasse using 2% hydrogen peroxide at 60 °C for 16 h in the presence of 0.5% magnesium sulfate. Bagasse (5%) was treated with pineapple stem extract, which contains mixtures of protease and esterase, in combination with xylanase and cellulase. It was observed that the amount of glucose and cellobiose released from bagasse increased with the mixture of enzymes. It is believed that the enzymes present in pineapple extracts are capable of hydrolyze specific linkages that would facilitate the action of digesting plant cell walls enzymes. This increases the amount of glucose and other hexoses that are released during the enzymatic treatment and also reduces the amount of cellulase necessary in a typical hydrolysis.

Suggested Citation

  • Monte, J.R. & Brienzo, M. & Milagres, A.M.F., 2011. "Utilization of pineapple stem juice to enhance enzyme-hydrolytic efficiency for sugarcane bagasse after an optimized pre-treatment with alkaline peroxide," Applied Energy, Elsevier, vol. 88(1), pages 403-408, January.
    • Handle: RePEc:eee:appene:v:88:y:2011:i:1:p:403-408
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    Cited by:

    1. Sun, Shao-Long & Wen, Jia-Long & Ma, Ming-Guo & Sun, Run-Cang, 2014. "Enhanced enzymatic digestibility of bamboo by a combined system of multiple steam explosion and alkaline treatments," Applied Energy, Elsevier, vol. 136(C), pages 519-526.
    2. Chen, Wei-Hsin & Ye, Song-Ching & Sheen, Herng-Kuang, 2012. "Hydrolysis characteristics of sugarcane bagasse pretreated by dilute acid solution in a microwave irradiation environment," Applied Energy, Elsevier, vol. 93(C), pages 237-244.
    3. Wirawan, Ferdian & Cheng, Chieh-Lun & Lo, Yung-Chung & Chen, Chun-Yen & Chang, Jo-Shu & Leu, Shao-Yuan & Lee, Duu-Jong, 2020. "Continuous cellulosic bioethanol co-fermentation by immobilized Zymomonas mobilis and suspended Pichia stipitis in a two-stage process," Applied Energy, Elsevier, vol. 266(C).
    4. Shafiei, Marzieh & Zilouei, Hamid & Zamani, Akram & Taherzadeh, Mohammad J. & Karimi, Keikhosro, 2013. "Enhancement of ethanol production from spruce wood chips by ionic liquid pretreatment," Applied Energy, Elsevier, vol. 102(C), pages 163-169.
    5. Borujeni, Nasim Espah & Karimi, Keikhosro & Denayer, Joeri F.M. & Kumar, Rajeev, 2022. "Apple pomace biorefinery for ethanol, mycoprotein, and value-added biochemicals production by Mucor indicus," Energy, Elsevier, vol. 240(C).
    6. Chen, Wei-Hsin & Tu, Yi-Jian & Sheen, Herng-Kuang, 2011. "Disruption of sugarcane bagasse lignocellulosic structure by means of dilute sulfuric acid pretreatment with microwave-assisted heating," Applied Energy, Elsevier, vol. 88(8), pages 2726-2734, August.
    7. Wirawan, Ferdian & Cheng, Chieh-Lun & Kao, Wei-Chen & Lee, Duu-Jong & Chang, Jo-Shu, 2012. "Cellulosic ethanol production performance with SSF and SHF processes using immobilized Zymomonas mobilis," Applied Energy, Elsevier, vol. 100(C), pages 19-26.
    8. Moretti, Marcia Maria de Souza & Bocchini-Martins, Daniela Alonso & Nunes, Christiane da Costa Carreira & Villena, Maria Arévalo & Perrone, Olavo Micali & Silva, Roberto da & Boscolo, Maurício & Gomes, 2014. "Pretreatment of sugarcane bagasse with microwaves irradiation and its effects on the structure and on enzymatic hydrolysis," Applied Energy, Elsevier, vol. 122(C), pages 189-195.
    9. Liu, Xianhua & Hao, Miaoqing & Feng, Mengnan & Zhang, Lin & Zhao, Yong & Du, Xiwen & Wang, Guangyi, 2013. "A One-compartment direct glucose alkaline fuel cell with methyl viologen as electron mediator," Applied Energy, Elsevier, vol. 106(C), pages 176-183.

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