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272 results on '"Enzymatic pretreatment"'

5. Efficient Green Extraction of Nutraceutical Compounds from Nannochloropsis gaditana : A Comparative Electrospray Ionization LC-MS and GC-MS Analysis for Lipid Profiling.

Author

Blanco-Llamero, Cristina, García-García, Paz, and Señoráns, Francisco Javier

Subjects
EXTRACTION techniques, LIPID analysis, PHOSPHOLIPIDS, GAS chromatography/Mass spectrometry (GC-MS), BIOACTIVE compounds, GLYCOLIPIDS
Abstract

Microalgae have been described as a potential alternative source of a wide range of bioactive compounds, including polar lipids and carotenoids. Specifically, Nannochloropsis gaditana is described as producing large amounts of polar lipids, such as glycolipids and phospholipids. These natural active compounds serve as key ingredients for food, cosmetic, or nutraceutical applications. However, microalgae usually possess a rigid cell wall that complicates the extraction of these compounds. Thus, an ultrasound-assisted enzymatic pretreatment is necessary to efficiently extract bioactives from microalgae, and it was studied in this article. Pretreated biomass was extracted using different advanced and green methodologies and compared to traditional extraction. Furthermore, the analysis, characterization, and identification of valuable compounds using GC-MS and LC-MS analytical methods were also investigated. Interestingly, major results demonstrated the efficiency of the pretreatment, enriching polar lipids' distribution in all extracts produced no matter the extraction technique, although they presented differences in their concentration. Pressurized liquid extraction and microwave-assisted extraction were found to be the techniques with the highest yields, whereas ultrasound-assisted extraction achieved the highest percentage of glycolipids. In summary, green extraction techniques showed their effectiveness compared to traditional extraction. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Enhanced biogas production efficiency of kitchen waste by anaerobic co-digestion and pretreatment.

Author

Zhu, Lifu and Cheng, Keke

Abstract

Anaerobic fermentation (AF) can effectively dispose of kitchen waste (KW) without the shortcomings of traditional methods such as incineration and sanitary landfill. However, KW has a high organic content, which easily leads to acidification and ammonia inhibition during digestion. To mitigate this issue, anaerobic co-digestion (AnCoD) with other substrates helps to adjust the carbon to nitrogen ratio (C/N) and enhance the stability of the reaction system. The hydrolysis of substrate is the rate-determining step in AF, prompting the adoption of necessary pretreatment methods to accelerate substrate hydrolysis. Among physical, chemical, and enzymatic pretreatments, the latter is more efficient. And the enzymatic pretreatment does not need additional equipment or reagents. Therefore, coupling enzyme treatment before AnCoD received more attention. In this review, we conduct a comparative analysis of the biogas production efficiency of enzymatic pretreatment against other pretreatment methods. The challenges and strategies concerning enzymatic pretreatment coupled with AnCoD system were discussed. Finally, the pilot-scale study and industrial application for KW co-digestion are also analyzed. [ABSTRACT FROM AUTHOR]

Published
2024
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7. 超声联合酶解处理对发酵整果枸杞子品质影响.

Author

陈君然, 李岢祎, 李海川, 白亚辉, 胡云峰, 马云, and 段亚宗

Subjects
LACTIC acid bacteria, PRINCIPAL components analysis, DISCRIMINANT analysis, OXIDANT status, LEAST squares, FLAVOR
Abstract

Copyright of Food & Fermentation Industries is the property of Food & Fermentation Industries and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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8. Enhancing methane yield and shifting microbial communities in anaerobic reactors treating lipid-rich dairy wastewater through exogenous lipase addition.

Author

Abedalkarem, Marwa, Dabbour, Omamah, and Asli, Sare

Subjects
*HYDROLASES, *ANAEROBIC reactors, *BATCH reactors, *METHANOGENS, *METHANOTROPHS, *CHEMICAL oxygen demand, *MICROBIAL communities, *LIPASES
Abstract

AbstractThis study explores a novel enzymatic pretreatment approach in anaerobic reactors for dairy wastewater, using lipase AY Amano to enhance methane production and modify microbial and archaeal community composition. Batch and semi-batch reactors with a total volume of 2000 mL were used to treat dairy wastewater with initial COD of 2000 and 15,000 mg L−1, respectively. In a new novel approach, the semi-batch reactors underwent a three-phase operation: 30 days of acclimation, 30 days of rest, and 30 days of active operation. Adding lipase (0.05% wv−1) as a pretreatment significantly increased methane yield over the 90 days by 135–138% compared with the control (without enzyme addition). The organic loading rate reached 0.22 g COD day−1 L−1. Furthermore, 30 days after the end of the semi-batch reactor approach (120 days from the start), reusing sludge in batch reactors increased methane yield by 114–122% compared to the control. This increase was linked to the emergence and shift of new methanogenic communities within the sludge. Integrating hydrolytic enzymes into the anaerobic treatment enhances performance and sustainability by fostering methanogen-enriched microbial communities. This is crucial for maximizing methane production but may increase costs, requiring further economic feasibility research. [ABSTRACT FROM AUTHOR]

Published
2024
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9. One-bath process of enzymatic pretreatment and trichromatic reactive dyeing of viscose fabric.

Author

El-Shehry, Ashraf S, Youssef, Yehya A, Abdel-Satar, Nour EA, Soliman, Emad A, and Hashem, Ahamed I

Abstract

The viability of reactive dyeing in the same bath without draining the liquor after enzymatic bio-treatment has been investigated. The comparative impact of applying the one-bath bio-treatment and dyeing method using two sets of commercially available polyfunctional and bifunctional trichromatic reactive dyes has been studied and the findings are compared with the two-bath conventional process. Three dyeing recipes in Maroon, Olive and Brown colour combinations of dyed fabrics are evaluated with respect to the colour strength, colourimetric data and fastness properties. The produced one-bath bio-treated and dyed samples show fairly high colour strength and satisfactory colour difference values as compared to the conventional method. The polyfunctional trichromatic reactive dye class is found more sensitive to the type of pretreatment and dyeing method used, imparting slightly higher colour difference values as compared to those of the bifunctional reactive dye class. The design and application of the one-bath Bio-method could provide a significant approach for demanding viscose fabric pretreatment and trichromatic reactive dyeing at reduced time, water and energy parameters. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Efficient Green Extraction of Nutraceutical Compounds from Nannochloropsis gaditana: A Comparative Electrospray Ionization LC-MS and GC-MS Analysis for Lipid Profiling

Author

Cristina Blanco-Llamero, Paz García-García, and Francisco Javier Señoráns

Subjects
Nannochloropsis gaditana, enzymatic pretreatment, advanced extraction, LC-MS, GC-MS, omega-3 PUFA, Chemical technology, TP1-1185
Abstract

Microalgae have been described as a potential alternative source of a wide range of bioactive compounds, including polar lipids and carotenoids. Specifically, Nannochloropsis gaditana is described as producing large amounts of polar lipids, such as glycolipids and phospholipids. These natural active compounds serve as key ingredients for food, cosmetic, or nutraceutical applications. However, microalgae usually possess a rigid cell wall that complicates the extraction of these compounds. Thus, an ultrasound-assisted enzymatic pretreatment is necessary to efficiently extract bioactives from microalgae, and it was studied in this article. Pretreated biomass was extracted using different advanced and green methodologies and compared to traditional extraction. Furthermore, the analysis, characterization, and identification of valuable compounds using GC-MS and LC-MS analytical methods were also investigated. Interestingly, major results demonstrated the efficiency of the pretreatment, enriching polar lipids’ distribution in all extracts produced no matter the extraction technique, although they presented differences in their concentration. Pressurized liquid extraction and microwave-assisted extraction were found to be the techniques with the highest yields, whereas ultrasound-assisted extraction achieved the highest percentage of glycolipids. In summary, green extraction techniques showed their effectiveness compared to traditional extraction.

Published
2024
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12. Improving Biohydrogen Production by Dark Fermentation of Milk Processing Wastewater by Physicochemical and Enzymatic Pretreatments.

Author

Bouchareb, Esma Mahfouf, Derbal, Kerroum, Bedri, Rayane, Slimani, Khaled, Menas, Souha, Lazreg, Halima, Maaref, Feriel, Ouabdelkader, Samir, Saheb, Aya, Bouaita, Rokaya, Bouchareb, Raouf, and Dizge, Nadir

Abstract

Biohydrogen is considered an alternative energy reserve. Dark fermentation is one of the important green hydrogen production techniques that utilizes organic waste as raw material. It is a promising bioconversion, easy, not expensive, and cost-effective process. Milk processing wastewater (MPWW) is an organic effluent generated in large volumes on a daily basis and disposed directly into the environment. In this research, the study of biochemical hydrogen potential (BHP) test of MPWW was evaluated and used as substrate (S). A waste sludge was used as an inoculum (I) and source of bacteria. Both substrate and inoculum were analyzed and the study was based mainly on the ratio of volatile solids (VS) of inoculum and substrate subsequently, which was noted as I/S. Different substrate pretreatments were performed: ultrasonic, thermal, chemical, and enzymatic hydrolysis. The I/S ratio impact was investigated and evaluated the hydrogen production improvement. Modified Gompertz and modified Logistic kinetic models were employed for the kinetic modeling of cumulative hydrogen production values. Results show that I/S ratio of 1/4 gVS/gVS resulted from the best hydrogen production of 59.96 mL during 30 days of MPWW fermentation without pretreatment. It was also shown that all the adopted pretreatments enhanced hydrogen production, whereas ultrasonic pretreatment for 5 min increased the production by only 14.84%. Heat pretreatment was more efficient, where the hydrogen production increased from 60 to 162 mL (170% of improvement) using heat shock at 90 °C for 30 min. The impact of chemical pretreatment was different from a reagent to another. Pretreatment using calcium hydroxide resulted in the biggest hydrogen production of 165.3 mL (175.5%) compared to the other chemical pretreatments. However, the best hydrogen production was given by the biological pretreatment using enzymatic hydrolysis (Lactase) resulting in 254 mL of hydrogen production, which is equivalent to 323.62% of production improvement. Modified Gompertz and Logistic kinetic models fitted well with experimental data. Thus, the enzymatic hydrolysis of MPWW proved to be a promising technique for biohydrogen production enhancement. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Enhanced fermentative hydrogen production from potato waste by enzymatic pretreatment.

Author

Bouchareb, Esma Mahfouf, Derbal, Kerroum, Bedri, Rayane, Menas, Souha, Bouchareb, Raouf, and Dizge, Nadir

Subjects
POTATO waste, HYDROGEN production, BATCH reactors, POTATOES, CELLULASE, MANUFACTURING processes
Abstract

Biological pretreatment and enzymatic hydrolysis have a potential role in the economic production of sugars and fuels from starch biomass. In this study, the Inoculum/Substrate (I/S) ratio effect and enzymatic pretreatments of potato peels for biohydrogen production in batch reactors were investigated. Two enzymes, α-Amylase and Cellulase, were tested separately and coexistent. Results showed that enzymatic hydrolysis using α-Amylase in mesophilic conditions enhanced carbohydrate concentration from 24.10 g/L to 53.47 g/L, whereas, the use of Cellulase and equi-volumetric mixture of both tested enzymes resulted in 47.16 and 48.16 g/L, respectively. The maximum biohydrogen cumulative production of 263 mL (equivalent to 430.37 mL H2/gVSadded) was obtained using the optimum I/S ratio of 1/6 gVS/gVS at pH 5.5 and incubation temperature of 55°C after 20 days of dark fermentation of potato waste without enzymatic treatment. Under the same operating conditions of the I/S ratio, pH, temperature and the best enzymatic treatment (3 h of substrate enzymatic hydrolysis by α-Amylase), the maximum yield of biohydrogen was 1088 mL (1780.39 mL H2/gVSadded). The enzymatic hydrolysis method adopted in this study can make overall biohydrogen production an effective process. The modified Gompertz model was found to be an adequate fit for biohydrogen production. [ABSTRACT FROM AUTHOR]

Published
2024
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14. An approach for the valorization of pomegranate by-products using ultrasound and enzymatic methods

Author

Nikoletta Solomakou, Evmorfia Kalfa, Anastasia Kyriakoudi, Kyriakos Kaderides, Ioannis Mourtzinos, and Athanasia M. Goula

Subjects
Enzymatic pretreatment, Polyphenols extraction, Pomegranate peel, Pomegranate seed, Seed oil, Ultrasounds, Chemistry, QD1-999, Environmental technology. Sanitary engineering, TD1-1066
Abstract

In this work, a holistic approach for the management of pomegranate wastes towards the recovery of value-adding components, is proposed. Regarding pomegranate peels, free phenolic components were recovered from defatted material with the aid of ultrasound-assisted extraction at the optimum conditions determined in a prior work studying the effect of the used solvent (water, ethanol, methanol, 50% aqueous ethanol, and 50% aqueous methanol) on the total phenolic content, radical scavenging activity, as well as punicalagin and ellagic acid content of the obtained extracts, using various in vitro assays and RP-HPLC-DAD, respectively. In the case of pomegranate seeds, the potential of enzymatic pretreatment to enhance the recovery yield of ultrasound-assisted oil recovery was investigated. This procedure was optimized in terms of pretreatment time (60–240 min), type of enzyme (cellulase:pectinase) (0–100% cellulase), enzyme concentration (2–4% w/w), and water/seeds ratio (2–6 mL/g). The optimum efficiency achieved (27.53 g oil/100 g seeds at 1.8 h or 97.8% oil extraction) was higher to the efficiencies achieved by other recovery techniques, including maceration, ultrasound-assisted extraction, supercritical extraction cold pressing, and superheated fluid extraction at comparable or longer extraction times. Findings of the present work seem promising for the holistic valorization of pomegranate industry byproducts towards the recovery of valuable compounds as well as their future application as natural additives to functional products, minimizing, at the same time, the environmental hazard.

Published
2024
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15. Physicochemical and Structural Properties of Pre-digested Puffed Rice Flours with Different Dextrose Equivalent Values

Author

RUAN Yunying, DENG Yuanyuan, ZHANG Yan, WEI Zhencheng, TANG Xiaojun, LI Ping, ZHANG Yuan, WANG Zhiming, LIU Guang, ZHANG Mingwei

Subjects
puffed rice flour, enzymatic pretreatment, extrusion, physicochemical properties, structural properties, Food processing and manufacture, TP368-456
Abstract

In the present study, pre-digested puffed rice flours with different dextrose equivalent (DE) values were prepared by using enzymatic pretreatment and extrusion, and their gelatinization characteristics, physicochemical and structural properties were analyzed. The results showed that compared with puffed rice flour, the water solubility index of pre-digested puffed rice flour increased by up to about 1.5 times with an increase in DE value, the water absorption index decreased by up to 76%, the slip angle decreased, the Carr index and Hausner ratio increased, and the reconstitutability and fluidity improved obviously. Moreover, the final viscosity and setback value of pre-digested puffed rice flour decreased with increasing DE value, decreasing by up to 37.79% and 94.87%, respectively. Moreover, after enzymatic pretreatment and extrusion, the soluble protein content of pre-digested puffed rice flour decreased, and the content of rapidly digestible starch increased significantly, while the secondary structure of protein and the crystalline structure of starch did not change significantly. The results provide a theoretical basis for the application of pre-digested puffed rice flour instead of maltodextrin in foods for special medical purpose.

Published
2023
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16. Influence of enzymatic pretreatment on yield and chemical composition of Rosmarinus officinalis essential oil

Author

Dzięcioł Małgorzata

Subjects
rosmarinus officinalis essential oil, rosmarinus officinalis hydrolate, modification of hydrodistillation, enzymatic pretreatment, total phenolic content (tpc), Chemistry, QD1-999
Abstract

Effect of enzymatic pretreatment before hydrodistillation process on yield and composition of Rosmarinus officinalis essential oil was studied. Results obtained by using two selected commercial enzymes applied in food and beverage industry were compared. Control process with non-enzymatic pretreatment in analogous conditions was also performed for proper interpretation of results. Application of gas chromatography with mass selective detector (GC-MS) enabled analysis and comparison of essential oils composition. Moreover, total phenolic content (TPC) was determined spectrophotometrically in post-processing hydrolates, which are also valuable products e.g. for cosmetic applications. Modifications of isolation process by pretreatment with selected enzymes resulted in significant increase in essential oil yields in comparison to conventional hydrodistillation and control process with non-enzymatic pretreatment in analogous conditions. No substantial changes in the composition of obtained essential oils were observed. In post-processing hydrolates higher values of total phenolic content (TPC) were found both after enzymatic and non-enzymatic pretreatment.

Published
2022
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17. 不同葡萄糖当量值预消化大米膨化粉的 理化性质和结构特性.

Author

阮蕴莹, 邓媛元, 雁, 张, 魏振承, 唐小俊, 萍, 李, 元, 张, 王智明, 光, 刘, and 张名位

Subjects
RICE flour, FLOUR, PROTEIN structure, CRYSTAL structure, MALTODEXTRIN, GELATION
Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2023
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18. Kinetics of the Release of Sugars from the Enzymatic and Physico-Chemical Pre-treated Sugarcane Bagasse and Residual Forest Biomass.

Author

Codato-Zumpano, Carolina Brito, Gírio, Francisco, Carvalheiro, Florbela, Marques, Susana, Ceccato-Antonini, Sandra Regina, and Bastos, Reinaldo Gaspar

Abstract

Several pre-treatments are used to release sugars from lignocellulosic materials that are used to produce second-generation ethanol (2G). This study aimed to evaluate the kinetic release of glucose and xylose through the enzymatic and physical treatments of sugarcane bagasse and residual forest biomass, focusing on the ratio between hexose and pentose. Enzymatic hydrolysis after hydrothermal pre-treatment under different conditions, at 170, 170 and 190 °C, 170 and 190 °C with sulfuric acid, and 170 and 190 °C with the Organosolv solvent, all of them for 10 min, were performed with sugarcane bagasse and residual forest biomass, and the kinetic parameters of sugar release were evaluated. The results indicated that compared to hydrothermal and combined hydrothermal and dilute acid hydrolysis, organosolvation process led to higher release of glucose in hydrolysates from both biomasses, with a maximum yield of 14.12 and 33.33 g L–1, respectively. On the other hand, the highest glucose/xylose ratio (about 19), which will facilitate its subsequent use for fermentation, was obtained from sugarcane bagasse after hydrothermal treatment at 170 and 190 °C. This ratio was higher for all treatments when compared to untreated biomass, which indicated that temperature and acid affected xylose instead of glucose. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Biochemical Methane Potential of Mechanically and Enzymatically Pretreated Solid Olive Mill Waste.

Author

Tai, Patrick, Spierling, Ruth, Carroll, Jennifer, and Jung, Stephanie

Subjects
METHANE as fuel, OLIVE, AGRICULTURAL wastes, ANAEROBIC digestion, SOIL amendments, GALLIC acid
Abstract

Olive cake, the solid byproduct of three-phase centrifugation olive oil production, has a high organic and polyphenol content, rendering it an environmental threat when landfilled as well as limiting its animal feed potential. This residue can be a good candidate for biomethane production due to its rich polysaccharide content (pectin, hemicellulose, and cellulose). Two strategies were compared to maximize biomethane production: destoning (i.e., removal of the seed fragments via mechanical means) and enzymatic pretreatment of the pulp. After 30 days of batch anaerobic digestion at 35 °C, both enzymatically pretreated and destoned olive cakes produced similar amounts of methane (~295 mL CH4/g volatile solids (VS)), 42% more than the control. A comparison of olive cake's biomethane yields with a broad range of agricultural residues in the literature demonstrated its suitability for biomethane production. Additionally, the digestate recovered from the anaerobic digestion of olive cake had high Kjeldahl nitrogen contents (3.6%, db) and low polyphenol concentrations (0.02 mg gallic acid equivalent (GAE)/g), qualifying it as an ingredient for soil amendment. This study demonstrated olive cake can be diverted from landfills for second-generation biofuel production, and that the resulting digestate may have value for soil amendment. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Lysozyme coupling protease pretreatment to relieve the humic acid inhibition on excess sludge anaerobic fermentation.

Author

Zou, Xiang, He, Junguo, Pan, Xinlei, Cai, Qiupeng, Duan, Shengye, Cui, Xinxin, Zhong, Yijie, and Zhang, Jie

Subjects
*AMINO acid metabolism, *SHORT-chain fatty acids, *HUMIC acid, *LYSOZYMES, *FERMENTATION
Abstract

[Display omitted] • Enzyme combination behaved better than single enzyme in relieving HA inhibition. • Lysozyme triggered higher hydrolase activities and soluble contents conversion. • Protease enhanced SCFA production via higher EEC and acidogenesis communities. • The balance between hydrolysis and fermentation communities is essential for AF. • Eneyzme cocktail facilitated substrate metabolism and SCFAs synthesis. The asynchronous dosed protease and lysozyme combination pretreatment was proved to be effective in enhancing the anaerobic fermentation of waste activated sludge (WAS). However, humic acid (HA) in the sludge could interact with hydrolase and restrain the hydrolysis efficiency, thus inhibiting short-chain fatty acids (SCFAs) production. This study investigated the effectiveness and mechanism of enzymatic pretreatment against HA. Results showed that the enzyme cocktail method increased the extracellular bioavailable contents by 34 %, which raised SCFAs production by 89.69 % (1269.65 mg COD /L). The balanced ratio of hydrolysis and fermentation communities suggested that the small molecular organics generated by the hydrolysis community could be sufficiently utilized by fermentation communities. The metabolism of amino acids and glucose was facilitated, and the activities of key enzymes were enhanced. These results clarified the effect of asynchronous enzyme cocktail pretreatment against HA inhibition and contributed to SCFAs production, which offered fresh perspectives on carbon recovery. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Characteristics and adsorption of methylene blue on activated carbon derived from enzyme-pretreated Camellia oleifera shells.

Author

Tang, Xingmei, Gao, Wenhua, Duan, Sheng, Xu, Jun, Wang, Bin, and Zeng, Jinsong

Subjects
*ACTIVATED carbon, *CAMELLIA oleifera, *METHYLENE blue, *AGRICULTURAL wastes, *PHYSISORPTION
Abstract

Activated carbon is a porous material extensively utilized in water treatment field. In this study, an efficient activated carbon (E-AC) adsorbent was prepared from agricultural by-product Camellia oleifera shells (COS) by enzymatic pretreatment combined with phosphoric acid activation. The enzymatic pretreatment was beneficial for increasing the volume of mesopores and loosening the structure of the synthesized activated carbon, which ultimately led to an increased adsorption capacity of E-AC. The characteristics and adsorption performances of E-AC were thoroughly investigated. The results showed that E-AC exhibited a high adsorption capacity of 1249.01 mg/g on methylene blue (MB), and the adsorption process was a spontaneous endothermic process. The adsorption kinetics aligned closely with the pseudo-second-order kinetic model (R2 > 0.99), and the adsorption mechanisms could be a combination of hydrogen bonding, π-π conjugation, electrostatic attraction, and physical adsorption. Additionally, E-AC exhibited good reusability, with a consistent MB removal rate of 91.14 % even after five cycles. This study offered an approach for obtaining high-quality activated carbon from COS and contributed to sustainable development strategies. [Display omitted] • An efficient activated carbon was prepared from Camellia oleifera shells. • Enzymatic pretreatment combined with phosphoric acid activation method was used. • Enzymatic pretreatment enhanced the adsorption performance of activated carbon. • The maximum adsorption capacity for methylene blue was 1249.01 mg/g. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Valorization of peach (Prunus persica L.) peels and seeds using ultrasound and enzymatic methods.

Author

Solomakou, Nikoletta, Drosaki, Aikaterini M., Christaki, Stamatia, Kaderides, Kyriakos, Mourtzinos, Ioannis, and Goula, Athanasia M.

Subjects
*PHENOLS, *PECTIC enzymes, *PRUNUS, *ENVIRONMENTAL economics, *ULTRASONIC imaging, *PEACH, *CELLULASE
Abstract

• Peach peels phenolics can be extracted by ultrasounds after enzymatic pretreatment. • The effect of different parameters on the extraction efficiency was studied. • Peach kernel oil can be extracted by ultrasounds. • The oil yield was higher to these obtained by other methods at similar or longer extraction times. • The effect of both ultrasounds and enzymatic treatment was provided by SEM analysis. This study focuses on the holistic valorization of the substantial by-products of peach processing, namely peels and seeds, which incur disposal cost and environmental concerns. Phenolic compounds were extracted from peach peels with ultrasound-assisted extraction after enzymatic pretreatment involving two enzymes, cellulase and pectinase, under varying conditions. The optimal extraction yield (2.376 mg GAE/g dry peach peel) was obtained after pretreatment for 150 min, with a water to peels ratio of 4 mL/g, an enzyme concentration of 3 %, and a cellulase-pectinase enzyme with a composition of 50 % cellulase and 50 % pectinase. This yield was higher than the maximum efficiency obtained through ultrasound-assisted extraction without enzymatic pretreatment (1.580 mg GAE/g dry peach peel). In addition, a technique for peach seeds valorization was developed by employing ultrasound-assisted extraction in order to extract seed oil. The highest efficiency (0.197 g oil/g dry seeds or 90 % oil recovery) was obtained at a temperature of 42.5 °C, a solvent-to-powder ratio of 16 mL/g, and an amplitude level of 45 % after 35 min. This efficiency was consistent with the yields obtained by other conventional extraction methods at much longer extraction times (4–18 h). The effect of both ultrasounds and enzymatic treatment was provided by SEM micrographs, which mainly showed how cell walls were affected in contrast to conventional extraction methods. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2024
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23. Enhanced Methane Production from Pretreatment of Waste Activated Sludge by Economically Feasible Biocatalysts.

Author

Kim, Tae-Hoon, Song, Dayeong, Lee, Jung-Sup, and Yun, Yeo-Myeong

Subjects
*EXTRACELLULAR enzymes, *ENZYMES, *HYDROLASES, *CELLULASE, *ORGANIC wastes, *DIGESTIVE enzymes, *METHANE, *LIPASES
Abstract

Crude hydrolytic extracellular enzymes (CHEEs) generated by a mixed culture of microorganisms during fermentation have a high potential as economically feasible biocatalysts for the hydrolysis of complex organic wastes. This study investigates the feasibility of CHEEs as substitutes for commercial enzymes based on a series of anaerobic batch tests for CH4 production fed by pretreated waste activated sludge (WAS). The results showed that cellulase presented the highest CH4 yield of 99.1 mL·CH4/g·COD of WAS among the samples pretreated with single commercial enzymes, with a yield 34% higher than that of the control sample. A higher diversity of commercial enzymes used in the pretreatment led to higher CH4 production from WAS. The sample pretreated with a mixture of four commercial enzymes (amylase + protease + cellulase + lipase, APCL) presented a CH4 yield of 216.0 mL·CH4/g·COD of WAS. The WAS prepared with CHEEs resulted in a CH4 yield of 211.9 mL·CH4/g·COD of WAS, which is comparable to the performance of the sample pretreated with APCL. The results of the batch tests using pretreated WAS for different APCL concentrations showed that the CH4 yield of WAS pretreated with CHEEs was comparable to the CH4 yield of 0.34 g·APCL/g·COD of WAS. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Effects of enzyme-assisted ultrasonic treatment to the properties of nanofibrils isolated from wheat straw.

Author

Yang, Mingyan, Guan, Shuyi, Zhang, Xiao, Cai, Xiaodan, Chen, Xinyue, and Dou, Yan

Subjects
ULTRASONIC effects, WHEAT straw, CELLULOSE
Abstract

This study aimed to prepare cellulose nanofibrils (CNF) with tunable morphology and properties from wheat straw using enzyme-assisted ultrasonic treatment. The effects of different enzymatic hydrolysis duration on the morphology and the properties of the CNF were studied. The effects of different enzymatic hydrolysis duration on the morphology and the properties of the CNF were studied. AFM analysis showed that average height distribution for CNF-0 (without enzymatic pretreatment) decreased from 11.86 to 8.18 nm for CNF-4 (with the enzymatic hydrolysis duration of 4 h), while the crystallinity and water reserve value (WRV) for CNF-0 increased from 36 and 485% to 47 and 789% for CNF-4, respectively. The transmittance, wettability properties, and mechanical performances of CNF-based films were systematically studied. The results show that the film properties are highly dependent on the morphology of their corresponding CNF and can be effectively modulated by controlling the structural characteristics of CNF. The discoveries of this study provide an environment-friendly approach for the production of CNF with tunable morphology and fibril size, which can promote the production of cellulose-based nanomaterial as well as their related applications. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Application crude multienzyme extract from Aspergillus niger as a pretreatment for the extraction of essential oil from Croton argyrophyllus leaves.

Author

Costa, Matheus Andrade Rocha, Gualberto, Simone Andrade, Oliveira, Polyany Cabral, Tavares, Iasnaia Maria de Carvalho, Santana, Nívio Batista, Leão, Danilo Junqueira, da Silva, Débora Cardoso, Ribeiro, Dhiéssica dos Santos, da Silva, Neura Mendes, Santos, Pedro Henrique, de Carvalho, Mário Geraldo, and Franco, Marcelo

Subjects
*ESSENTIAL oils, *ASPERGILLUS niger, *BOTANICAL insecticides, *SOLID-state fermentation, *MEDICAL botany, *CHROMATOGRAPHIC analysis
Abstract

Leaves of Croton argyrophyllus contain essential oil with promising active components for the development of drugs and botanical insecticides. In this study, we evaluated the enzymatic pretreatment process to increase the extraction of essential oil from fresh and dried leaves of C. argyrophyllus. Pretreatment was carried out using a crude multienzymatic extract obtained via solid‐state fermentation of forage palm by Aspergillus niger, and the extraction was performed by hydrodistillation. A Doehlert matrix was used to optimize the enzymatic pretreatment variables temperature and enzymatic extract. The effect of pretreatment time was also investigated. At optimum experimental conditions, 41.34°C, 140 min, and 130.73 mL of enzyme in 369.27 mL of water, the essential oil yield from fresh leaves subjected to enzymatic pretreatment increased by 9.35% and that from dry leaves by 6.77%. Based on chromatographic analysis (GC–MS), no compound was degraded in the extraction process. Micromorphological analysis confirmed the rupture of the glandular trichomes, favoring essential oil release. Therefore, enzymatic pretreatment associated with hydrodistillation increased the essential oil yield and is a promising application to obtain essential oil for therapeutic purposes without altering its composition. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Fungal mash enzymatic pretreatment combined with pH adjusting approach facilitates volatile fatty acids yield via a short-term anaerobic fermentation of food waste.

Author

Zhang, Mingjiang, Zhang, Dejin, Wei, Yidan, Zhou, Bo, Yan, Cheng, Wang, Dianzhan, Liang, Jianru, and Zhou, Lixiang

Subjects
*FOOD fermentation, *FOOD waste, *FATTY acids, *MICROBIAL communities, *FUNGAL enzymes, *FERMENTATION
Abstract

[Display omitted] • The concentration of COD increased by 116.9% after the enzymatic pretreatment of CA. • Adding CA improves the solubility and the degradability of the organic substance. • pH adjusting facilitated the conversion of polysaccharides and proteins to VFAs. • The combination VFAs production was 32.0 g COD/L, 10 times higher than the control. • pH adjusting altered the main metabolic pathway from lactate-type to butyrate-type. As an alternative for commercial enzyme, crude enzyme of fungal mash could promote food waste (FW) hydrolysis, but its specific effects coupled pH adjusting on the production of volatile fatty acids (VFAs) remains unknown. The crude enzyme produced from an Aspergillus awamori , named complex-amylase (CA), was added to short-term anaerobic system of FW fermentation. Results showed that adding CA significantly improved the solubility and degradability of biodegradable and non-biodegradable organics in FW, where the SCOD concentration with adding CA increased by 116.9% relative to the control but a marginal enhancement on VFAs yield. In contrast, adding CA combined with adjusting pH 8 markedly increased the VFAs production to 32.0 g COD/L, almost 10 times as much as the control. Besides, pH adjusting altered the metabolic pathway from lactate-type to butyrate-type. Adding CA coupled pH adjusting significant increase the component of butyrate compared with pH adjusting alone. Moreover, microbial community analysis indicated that adding CA reinforced proportion of the butyrate-producing bacteria (e.g., Dialister) under basic conditions, thus enhancing the butyrate metabolic pathways. This study demonstrated that fungal mash pretreatment coupled pH conditioning could be an economical way to enhance VFAs yield for FW valorization during anaerobic fermentation. [ABSTRACT FROM AUTHOR]

Published
2022
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27. The Eco-Modification of Textiles Using Enzymatic Pretreatment and New Organic UV Absorbers

Author

Olczyk Joanna, Sójka-Ledakowicz Jadwiga, Kudzin Marcin, and Antecka Anna

Subjects
laccase, linen fabric, barrier properties, organic absorbers uv, enzymatic pretreatment, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Textile fabrics were subjected to bio-pretreatment using high-activity laccase from Cerrena unicolor for comparison to standard alkaline scouring and organic absorber of ultraviolet (UV) radiation based on 1,3,5-triazine derivatives. The basic aim of the study was the development of textiles made of natural cellulose fibers (mainly flax or its blends with cotton) to provide barrier properties against UV radiation. Controlled application of enzymatic pretreatment of woven fabrics made of natural cellulose fibers allows for an efficient removal of impurities from these fibers, resulting in the improvement of sorptive properties and good penetration of dyeing agents, UV organic absorbers and other chemical modifiers, into the textile structure. In this way, products with UV-protection properties (ultraviolet protection factor >40) are obtained. These innovative barrier materials can be used for outdoor textiles that protect professional people from harmful effects of UV radiation.

Published
2021
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28. Enzymatically Pretreated High-Solid-Content Nanocellulose for a High-Throughput Coating Process.

Author

Koppolu, Rajesh, Banvillet, Gabriel, Ghimire, Himal, Bras, Julien, and Toivakka, Martti

Abstract

There is an ever-increasing interest toward utilizing nanocellulose as barrier coatings and films, and recent studies have underlined the efficiency of using innovative fibrillation processes such as twin-screw extrusion with an enzymatic pretreatment for producing nanocellulose suspensions with solid contents as high as 20 wt %, which can lead to faster coating speeds and reduced drying energy costs. The current work aims at understanding the factors that influence high-throughput processability of high-solid-content nanocellulose during roll-to-roll coating. The rheological properties of 12.5, 10, and 7.5 wt % suspensions were evaluated across a wide range of shear rates and geometries (rotational, pipe, and slot). The influence of dispersants [carboxymethyl cellulose (CMC) and sodium polyacrylate (NaPA)] on the rheology and coating quality was assessed. A Casson-power-cross model is proposed to explain the rheological behavior across a wide shear rate range and is used to predict useful parameters, viz., yield stress, transition shear rate, and power-law index at high shear rates. Finally, a 12.5 wt % nanocellulose suspension with CMC or NaPA dispersant was roll-to-roll-coated on paperboard using a slot-die applicator. CMC addition had a positive influence on the yield stress, thixotropy, and water release and, therefore, resulted in a better mineral oil and grease barrier of the coated samples compared to the rest. [ABSTRACT FROM AUTHOR]

Published
2022
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29. The Deconstruction of the Lignocellulolytic Structure of Sugarcane Bagasse by Laccases Improves the Production of H2 and Organic Acids.

Author

Dionizio, Bruna Soares, Rabelo, Camila Abreu B. Silva, de Jesus, Hugo César Ramos, Varesche, Maria Bernadete Amâncio, and de Souza, Dulce Helena Ferreira

Abstract

The production of biofuels using sugarcane bagasse (SCB) as substrate can be considered an environmentally friendly approach, due to the possibility of combining energy production with the reuse of agroindustrial wastes. This study was undertaken to explore the applicability of a new extract with the enzymes (Lacmix) isolated from Chaetomium cupreum for SCB pretreatment. Lacmix was more active at pH of 2.2 to 4 and 50 to 60 °C. Further, the individual and mutual effects of SCB concentration (6.6 to 23.4 g L− 1), enzyme concentration (0.066 to 0.234 U L− 1), and incubation time of the SCB with Lacmix (19 to 221 min) on SCB pretreatment were evaluated using a response surface methodology and central composite design. The optimized conditions were 23.4 g L− 1 SCB, 0.234 U mL− 1 laccases, and 2.44 h resulting in 547 ± 108 mg L− 1 of total sugars. This value agrees with the predicted value (455 ± 41 mg L− 1) by the statistical model. Through the SCB pretreated with Lacmix fermentation, 96.1% more H2 and 22.5% more organic acids were observed compared to SCB without pretreatment. Therefore, laccases improve delignification, maximizing biomass fermentation for biofuel production. [ABSTRACT FROM AUTHOR]

Published
2022
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30. CNFs from softwood pulp fibers containing hemicellulose and lignin.

Author

Brännvall, Elisabet and Aulin, Christian

Subjects
HEMICELLULOSE, LIGNINS, SOFTWOOD, CARDBOARD, TENSILE strength, ENERGY consumption
Abstract

The energy demand to produce cellulose nanofibrils, CNFs, is high and additionally the cost of the starting material, the pulp, is substantial as high purity cellulose dissolving pulp is generally used. Pulps aimed for board and paper are produced at higher yield as they contain hemicelluloses and, in the case of unbleached pulp, lignin, and would be a more economical starting material for CNFs. It is of interest to understand how the presence of hemicellulose and lignin affects the fibrillation process and CNF properties. Kraft cooks of softwood were performed as well as kraft cooks with addition of polysulfide to increase the hemicellulose content. Part of the pulps were bleached to remove residual lignin, thus making it possible to compare pulps with and without lignin. Higher amount of hemicellulose had an obstructive effect on the enzymatic pre-treatment whereas lignin had no adverse effect on enzyme accessibility. Increased amount of charged groups improved the accessibility for enzymes. Both hemicellulose and lignin were carboxymethylated when pre-treatment by carboxymethylation was employed. However, carboxymethylation partly dissolved hemicelluloses. The tensile strength of CNF films was independent of the chemical composition of the pulp and the pre-treatment strategy. However, since the enzymatic pre-treatment decreased the cellulose DP more, CNF films from enzymatically pre-treated pulps had generally lower tensile strength. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Critical comparison of the properties of cellulose nanofibers produced from softwood and hardwood through enzymatic, chemical and mechanical processes.

Author

Sanchez-Salvador, Jose Luis, Campano, Cristina, Balea, Ana, Tarrés, Quim, Delgado-Aguilar, Marc, Mutjé, Pere, Blanco, Angeles, and Negro, Carlos

Subjects
*CHEMICAL processes, *SOFTWOOD, *CELLULOSE, *NANOFIBERS, *HARDWOODS, *RAW materials, *WOODY plants
Abstract

Current knowledge on the properties of different types of cellulose nanofibers (CNFs) is fragmented. Properties variation is very extensive, depending on raw materials, effectiveness of the treatments to extract the cellulose fraction from the lignocellulosic biomass, pretreatments to facilitate cellulose fibrillation and final mechanical process to separate the microfibrils. Literature offers multiple parameters to characterize the CNFs prepared by different routes. However, there is a lack of an extensive guide to compare the CNFs. In this study, we perform a critical comparison of rheological, compositional, and morphological features of CNFs, produced from the most representative types of woody plants, hardwood and softwood, using different types and intensities of pretreatments, including enzymatic, chemical and mechanical ones, and varying the severity of mechanical treatment focusing on the relationship between macroscopic and microscopic parameters. This structured information will be exceedingly useful to select the most appropriate CNF for a certain application based on the most relevant parameters in each case. [ABSTRACT FROM AUTHOR]

Published
2022
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33. A novel pretreatment biotechnology for increasing methane yield from lipid-rich wastewater based on combination of hydrolytic enzymes with Candida rugosa fungus.

Author

Asli, Sare, Eid, Ramiz, and Hugerat, Muhamad

Subjects
*HYDROLASES, *FUNGAL enzymes, *CANDIDA, *SEWAGE, *LIPASES, *METHANE
Abstract

Lipid-rich wastewater from the local dairy industry (cheese whey) in the Galilee, Israel was hydrolyzed by using two different sources of lipase as hydrolytic enzymes: fungal (Candida rogusa lipase-AY) and animal porcine pancreatic lipase(PPL). Pretreatment efficiency was verified by comparative biodegradability tests of raw and treated wastewater samples. Simultaneous hydrolysis and anaerobic digestion in the same reactors were also tested. Enzymatic pretreatment of these samples at a concentration of 0.05 w v−1 showed organic matter removal of 90% and methane formation increases of 140% for the fungal source enzyme (i.e., AY), while for the animal source enzyme (i.e., PPL) was 86 and 130%, respectively. Enzymatic pretreatment led to significant methane formation which was obtained only for moderate substrate concentration (initial chemical oxygen demand of 15 gL−1); While in high concentrated lipid-rich wastewater led to methane yield inhibition. The main finding was that the combination of AY enzyme with Candida rugosa fungus (i.e., enzyme mixture) led to a high efficiency in methane production (+152%) and organic materials removal (more than 90%). In summary, the use of fungal hydrolytic lipase mixed with Candida rugosa fungus is a promising method for enhancing methane production during the biodegradation of fat and grease-rich wastewaters. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Pretreatment Camellia Seeds by Protease and Application to Extraction of Camellia Oil.

Author

Qian, Junqing, Zhao, Xiaohua, Zhao, Changyan, Yang, Haiyan, Gou, Lihong, Wang, Wentao, and Guo, Hui

Subjects
*RESPONSE surfaces (Statistics), *CAMELLIAS, *SEEDS, *SOLVENT extraction, *RAPESEED oil
Abstract

High‐temperature pretreatment that is currently used in camellia oil extraction can have negative effects on the quality of camellia oil. In this study, the enzymatic pretreatment of camellia seeds is explored as an alternative to high‐temperature pretreatment. The main conditions for enzymatic pretreatment of camellia seeds including enzyme, pH, temperature, time, and buffer solution are optimized using the response surface methodology. Under the optimal conditions of enzymatic pretreatment, the oil recovery is close to 75%. Moreover, residual oil recovery from camellia seeds subjected to 1398 neutral protease pretreatment (4 g per kg seeds) and high‐temperature pretreatment are 5.62 ± 0.08% and 9.97 ± 0.18%, respectively. The enzymatic pretreatment is further applied to pre‐pressing solvent extraction of camellia oil, the cake oil recovery from camellia seeds subjected to enzymatic pretreatment is higher than that from high‐temperature pretreatment. These results show that enzymatic pretreatment of camellia seeds has potential for application in the oil industry. Practical Applications : This study suggests that enzymatic pretreatment can replace high‐temperature pretreatment and improve oil recovery and oil quality. Ultimately, this method can be used to extract camellia oil. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Cross-Linked Enzyme Aggregates and Their Application in Enzymatic Pretreatment of Microalgae: Comparison Between CLEAs and Combi-CLEAs

Author

Cristina Blanco-Llamero, Paz García-García, and Francisco Javier Señoráns

Subjects
CLEAs, combi-CLEAs, immobilization, microalgae, enzymatic pretreatment, Viscozyme®, Biotechnology, TP248.13-248.65
Abstract

Carrier-free immobilization is a key process to develop efficient biocatalysts able to catalyze the cell wall degradation in microalgae where the traditional solid supports cannot penetrate. Thus, the insolubilization of commercial Celluclast®, Alcalase®, and Viscozyme® enzymes by carrier-free immobilization and their application in microalgae pretreatment was investigated. In this study, different precipitants at different ratios (ethanol, acetone, and polyethylene glycol 4000) were tested in the first part of the method, to establish the precipitation conditions. The screening of the best precipitant is needed as it depends on the nature of the enzyme. The best results were studied in terms of immobilization yield, thermal stability, and residual activity and were analyzed using scanning electron microscopy. Moreover, a novel strategy was intended including the three enzymes (combi-CLEAs) to catalyze the enzymatic degradation of Nannochloropsis gaditana microalgal cell wall in one pot. The carrier-free immobilized derivatives were 10 times more stable compared to soluble enzymes under the same. At the best conditions showed its usefulness in the pretreatment of microalgae combined with ultrasounds, facilitating the cell disruption and lipid recovery. The results obtained suggested the powerful application of these robust biocatalysts with great catalytic properties on novel and sustainable biomass such as microalgae to achieve cost-effective and green process to extract valuable bioactive compounds.

Published
2021
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36. Enhanced lactic acid production through enzymatic hydrolysis: Assessing impact of varied enzyme loadings on co-fermentation of swine manure and apple waste.

Author

Lian, Tianjing, Yin, Fubin, Zhang, Wanqin, Cao, Qitao, Wang, Shunli, Zhou, Tanlong, Zhang, Fangyu, Li, Ronghua, and Dong, Hongmin

Subjects
*SWINE manure, *LACTIC acid, *HYDROLYSIS, *BIOCHEMICAL substrates, *ENZYMES, *IMPACT (Mechanics)
Abstract

[Display omitted] • SM and AW fermentation for LA production via enzyme pretreatment was investigated. • High LA level of 42.70 g/L was observed at enzyme loading of 300 U/g VS substrate. • Enzymatic pretreatment boosted SM and AW solubilization and hydrolysis. • Lactobacillus for LA production was enriched by enzymatic pretreatment. Anaerobic co-fermentation of swine manure (SM) and apple waste (AW) restricts by the slow hydrolysis of substrates with complex structures, which subsequently leads to low lactic acid (LA) production. Therefore, a novel strategy based on enzymatic pretreatment for improving LA production from anaerobic co-fermentation of SM and AW was proposed in this study. The results indicated that the maximal LA concentration increased from 35.89 ± 1.84 to 42.70 ± 2.18 g/L with the increase of enzyme loading from 0 to 300 U/g VS substrate. Mechanism exploration indicated that enzymatic pretreatment significantly promoted the release and hydrolysis of insoluble organic matter from fermentation substrate, thus providing an abundance of reaction intermediates that were directly available for LA production. Additionally, bacteria analysis revealed that the high concentration of LA was associated with the prevalence of Lactobacillus. This study offered an environmental-friendly strategy for promoting SM and AW hydrolysis and provided a viable approach for recovering valuable products. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Maximizing biofuel production from algal biomass: A study on biohydrogen and bioethanol production using Mg[sbnd]Zn ferrite nanoparticles.

Author

Elshobary, Mostafa, Abdullah, Eman, Abdel-Basset, Refat, Metwally, Metwally, and El-Sheekh, Mostafa

Abstract

Algal biomass is a promising renewable feedstock for biofuel production that does not compete with food crops or require complex pretreatment like lignocellulosic biomass. This study examined biofuel production from two algae: Alkalinema pantanalense (cyanobacteria) and Chlorella vulgaris (green alga). Although there was no significant difference in their biomass, A. pantanalense showed a higher carbohydrate content (204.96 mg L−1) than C. vulgaris (156.07 mg L−1). To maximize reducing sugar release, three pretreatments were tested: thermotacidic, biological using the new fungal isolate Trichoderma longibrachiatum , and biological with nanoparticles. Biological pretreatment with Mg Zn ferrite nanoparticles (MZF-nps) at 60 mg L−1 concentration gave the best results, significantly enhancing cellulase, β-glucosidase and filter paper cellulase activities by 20.94 % (A. pantanalense) and 18.63 % (C. vulgaris). For biohydrogen production, the co-culture of Klebsiella pneumoniae and Enterobacter cloacae resulted in faster fermentation and improved hydrogen evolution compared to individual cultures. A. pantanalense and C. vulgaris yields were 35.1 mL g−1 and 26.6 mL g−1 dry weight, with maximal cumulative production of 2478 mL L−1 and 1845 mL L−1, respectively. Optimized Saccharomyces cerevisiae bioethanol fermentation conditions included 72 h incubation, 5 % inoculum, 30 °C, pH 5 under shaking condition, yielded 11.2 g L−1 (A. pantanalense) and 7.2 g L−1 (C. vulgaris). Furthermore, MZF-nps hydrolysate significantly increased bioethanol production, by 4.2-fold (A. pantanalense) to 32.45 g L−1 and 3.48-fold (C. vulgaris) to 28.6 g L−1, compared to thermoacidic pretreatment. In summary, biological pretreatment demonstrates the potential of algal biomass as a renewable feedstock for sustainable biofuel production. • Algal biomass is a promising renewable feedstock for biofuel production. • Biological pretreatment with nanoparticles increased fermentable sugars and biofuel yields. • Optimized fermentation conditions improved bioethanol yields from algal biomass. • MZF-NP increased bioethanol production up to 4.2-fold over thermoacidic pretreatment. • Co-culturing bacteria improved biohydrogen yield from algal biomass over individual strains. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Laccase mediated delignification of pineapple leaf waste: an ecofriendly sustainable attempt towards valorization

Author

Rintu Banerjee, Anjani Devi Chintagunta, and Subhabrata Ray

Subjects
Cellulose, Enzymatic pretreatment, Laccase, Pineapple leaf waste, Chemistry, QD1-999
Abstract

Abstract Background Escalating energy security, burgeoning population and rising costs of fossil fuels have focussed our attention on tapping renewable energy sources. As the utilization of food crops for biofuel production culminates into food vs. fuel dilemma, there is an intensive need for alternatives. Production of biofuels from lignocellulosic biomass owing to its profuse availability and high holocellulose content is a promising area for research. Results In the present study, pineapple leaf, an agro-industrial waste was pretreated with laccase to enhance the enzymatic digestibility of the substrate for improved production of reducing sugar. Variables determining enzymatic delignification of pineapple leaf waste have been optimized by response surface methodology based on central composite design. Maximum delignification of 78.57%(w/w) resulted in reducing sugar of 492.33 ± 3.1 mg/g in 5.30 h. The structural changes in pineapple leaf waste, after laccase treatment, were studied through Fourier transformed infrared spectroscopy, X-ray diffraction and Scanning electron microscopy. Specific surface area, pore volume, and pore diameter of the substrate were studied using the Brunauer–Emmett–Teller and Barrett–Joyner–Halenda methods and found a significant increase in the aforementioned parameters after delignification. Conclusion Laccase mediated delignification of pineapple leaf waste is a cleaner sustainable process for enhanced production of reducing sugar which can accomplish the demand for biofuels.

Published
2019
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40. Enhancing cellulose nanofibrillation of eucalyptus Kraft pulp by combining enzymatic and mechanical pretreatments.

Author

Cebreiros, Florencia, Seiler, Santiago, Dalli, Sai Swaroop, Lareo, Claudia, and Saddler, Jack

Subjects
SULFATE pulping process, HEMICELLULOSE, CELLULOSE, MATERIALS science, CELLULOSE fibers, MEDICAL sciences, EUCALYPTUS
Abstract

Nanofibrillated cellulose (NFC) extracted from biomass has potential applications in material science and biomedical engineering. In this study, NFC was obtained from bleached eucalyptus Kraft pulp (BEKP) using two commercial enzyme cocktails with cellulolytic and hemicellulolytic activities and non-catalytic protein (swollenin), followed by ultrasonication. This work represents an initial study of the implementation of non-catalytic proteins along with enzymes to extract NFC from biomass. Enzymatic pretreatment was performed to partially remove hemicellulose while enhancing cellulose accessibility for NFC extraction. Cellulase pretreatment with xylanase and swollenin supplementation increased cellulose accessibility and fiber swelling due to extensive hemicellulose removal (> 80%) and fiber morphology changes. Subsequent ultrasonication was performed for cellulose nanofibrillation resulting in high NFC yields (61–97%), while keeping NFC properties almost unchanged. Through this process, cellulose nanofibers with diameters ranging from 3 nm to 10 nm were effectively isolated from BEKP, which allows to produce high quality NFC for further applications. [ABSTRACT FROM AUTHOR]

Published
2020
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41. A novel technique for direct reuse of wastewater in combining scouring and bleaching of cotton fabric.

Author

Panda, Sanjay Kumar Bhikari Charan, Mukhopadhyay, Samrat, and Sheikh, Javed

Subjects
COTTON textiles, REACTIVE dyes, WATER purification, INDUSTRIAL wastes, WATER reuse, CORAL bleaching
Abstract

Wastewater generated from the conventional pretreatment process is having potential to reuse several times for pretreatment of subsequent batches without harming the fabric quality. As the major portion of water is used in textile pretreatment processes, in the present work a novel method was studied for direct reuse of wastewater in combining scouring and bleaching process. The wastewater generated by the conventional pretreatment was reused with and without mixing with freshwater. Simple technique like filtration with nylon mesh was also studied for its effects on efficiency of pretreatment. The pretreated fabrics were characterized using advanced techniques and further evaluated towards efficiency of scouring and bleaching. In order to evaluate the effect of novel pretreatment process involving reuse of wastewater on dyeability, the pretreated fabrics (using both conventional and novel methods) were further studied for dyeability using reactive dyes. The resulting wastewaters were characterized before reuse in novel method. The pretreated fabrics showed insignificant variations in strength and pretreatment efficiency. The dyeability of both fabrics towards reactive dyes was comparable. The volume of effluent generated was greatly reduced in novel method which showed a great promise to save 33% of water in pretreatment process of cotton fabric. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Enzymatic and Hydrothermal Pretreatment of Newly Isolated Spirulina subsalsa BGLR6 Biomass for Enhanced Biogas Production.

Author

Dar, Rouf Ahmad and Phutela, Urmila Gupta

Abstract

The complex structure and biochemical composition of the cell wall of microalgae impede their anaerobic digestion. To enhance the microalgae anaerobic biodegradability, various pretreatment approaches have been utilized. In this study, the enzyme and hydrothermal pretreatment methods were evaluated for microalgal biomass pretreatment and biogas yield. The optical and scanning electron microscopy along with Fourier transform infrared spectroscopy analysis confirmed the efficient action of both the pretreatment methods. The hydrothermal pretreatment resulted in more structural changes, though the increase in enzymatic concentration was also found to have a pronounced effect on both structural and chemical changes. The FTIR spectra determined that mostly the protein and carbohydrate structures of the microalgal cells were affected. Further upon quantitative analysis, it was observed that 10% dose (w/w) for 24 h of exposure time released significantly more soluble chemical oxygen demand compared to others. The multi-enzyme 10% dose for 24 h resulted in significantly higher biogas production potential (P) of 768.92 mL g−1 VS at a maximum biogas production rate (Rm) of 32.16 mL g−1 d−1 with a very short lag phase (λ) of 0.09 days at the end of 30 days, in comparison to untreated and other pretretment conditions in this study. Both the pretreatment approaches in the present study enhanced the microalgal biomass disintegration, digestibility and biogas production. However, more research is required to optimize the process parameters of these pretreatment approaches to make them more reasonable and applicable. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Enzymatic pretreatment and anaerobic co-digestion as a new technology to high-methane production.

Author

dos Santos Ferreira, Janaína, de Oliveira, Débora, Maldonado, Rafael Resende, Kamimura, Eliana Setsuko, and Furigo, Agenor

Subjects
*SEWAGE disposal plants, *TECHNOLOGICAL innovations, *WATER purification, *SEWAGE sludge, *SOLID-state fermentation, *SLUDGE management, *SEWAGE sludge digestion
Abstract

The population growth is causing an increase in the generation of effluents (mainly organic fraction of municipal solid waste (OFMSW) and agro-industrial waste), which is an old problem in agro-industrial countries such as Brazil. Contrastingly, it is possible to add value to these residual biomasses (residues) through the application of new technologies for the production of bioenergy. Anaerobic digestion (AD) of sewage sludge is being applied in many effluent treatment plants for the sustainable and economically viable production of biogas. However, the biogas produced from AD (sludge) or co-digestion (sludge with other residues) presents a concentration of methane between 60 and 70% on average, which is relatively low. This review is aimed at analyzing studies involving (i) production of lipases by solid-state fermentation (SSF) by different microorganisms for the application in enzymatic pretreatments prior to the anaerobic treatment of effluents; (ii) pretreatment followed by AD of various residues, with an emphasis on OFMSW and sewage sludge; and (iii) more recent studies on anaerobic co-digestion (AcoD) and hybrid technologies (pretreatment + AD or AcoD). There are many studies in the literature that demonstrate the enzymatic pretreatment or AcoD applied to the optimization of methane production. Nevertheless, few studies report the combination of these two technologies, which can improve the process and reduce or eliminate the costs of biogas purification, which are major challenges for the viability of this route of bioenergy production. Key points: •Municipal and agro-industrial wastes have potential as medium for lipase production. •Enzymatic pretreatment and anaerobic co-digestion are low cost for high-methane production. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Enzymatic and Microwave Pretreatments and Supercritical CO2 Extraction for Improving Extraction Efficiency and Quality of Origanum vulgare L. spp. hirtum Extracts

Author

Jelena Vladić, Ana Rita C. Duarte, Sanja Radman, Siniša Simić, and Igor Jerković

Subjects
Origanum vulgare, supercritical carbon dioxide, microwave pretreatment, enzymatic pretreatment, Botany, QK1-989
Abstract

The goal of the study was to establish a procedure for improving the efficiency of supercritical carbon dioxide (scCO2) extraction of Origanum vulgare L. spp. hirtum (Greek oregano) and enhancing the quality of obtained extracts. Microwave and enzymatic pretreatments of the plant material were applied prior to the scCO2 extraction. It was determined that the microwave pretreatment with irradiation power 360 W during 2 min accelerated the extraction of lipophilic compounds and provided a twofold higher extraction yield compared to the control. Moreover, this pretreatment also led to an increase in oxygenated monoterpenes content and the most dominant component carvacrol, as well as the extracts’ antioxidant activity. The enzymatic pretreatment caused a significant increase in the extraction yield and the attainment of the extract with the most potent antioxidant properties. Coupling the pretreatments with scCO2 extraction improves the process of obtaining high value lipophilic products of oregano in terms of utilization of the plant material, acceleration of the extraction with the possibility to adjust its selectivity and quality of extracts, and enhancement of biological activity.

Published
2021
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46. Solid-State Hydrolysis (SSH) Improves the Nutritional Value of Plant Ingredients in the Diet of Mugil cephalus

Author

Francisca P. Martínez-Antequera, Isabel Barranco-Ávila, Juan A. Martos-Sitcha, and Francisco J. Moyano

Subjects
aquaculture feeds, plant byproducts, enzymatic pretreatment, Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

The possibility of improving the nutritional quality of plant byproducts (brewers’ spent grain and rice bran) through an enzyme treatment was tested in a formulated feed for grey mullet (Mugil cephalus). The enzyme treatment was carried out by Solid-State Hydrolysis (SSH) using a commercial preparation including carbohydrases and phytase. A feed prepared without the treatment and a commercial feed for carp were used as controls. In a preliminary short-term trial carried out at laboratory facilities, fish receiving the enzyme-treated feed showed significant improvement in both FCR and SGR when compared to those obtained with the untreated diet, although both experimental diets presented worse values than those obtained with the commercial feed. Different metabolic indicators including higher values of muscle glycogen and plasmatic triglycerides supported the positive effect of the enzyme treatment on the nutritional condition of the fish over those fed on the diet containing non-treated ingredients. Results of growth and feed efficiency that were obtained in a second long-term trial developed for 148 days under real production conditions evidenced the equivalence among the experimental and commercial diets and confirmed that enzyme pretreatment of plant ingredients by SSH may be a useful procedure to improve the nutritive value of high fiber plant byproducts when included in practical diets for this species and others with similar nutritional features.

Published
2021
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47. Performance of a Two-Stage Membrane System for Bromelain Separation from Pineapple Waste Mixture as Impacted by Enzymatic Pretreatment and Diafiltration

Author

Mohd Zuhair Mohd Nor, Lata Ramchandran, Mikel Duke, and Todor Vasiljevic

Subjects
bromelain, pineapple waste, ultrafiltration, purification, enzymatic pretreatment, diafiltration, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456
Abstract

Membrane technology has been successfully applied for the purification of bromelain, a protease enzyme from pineapple. However, the current system operates less optimally in terms of flux and separation primarily due to properties of the feed, such as viscosity. Hence, in this study, enzymatic pretreatment and diafiltration operation were employed in a two-stage ultrafiltration (UF) system to enhance the performance of the purification and concentration process of bromelain enzyme from an extract of pineapple crude waste mixture (CWM). Pretreatment of the CWM extract using either pectinase or cellulase, or the combination of both, was applied and compared regarding the apparent viscosity reduction. Diafiltration step was introduced in UF stage 2 and observations on the flux performance, enzyme recovery and enzyme purity were made. A 12 % apparent viscosity reduction was achieved when the CWM extract was pretreated with pectinase which led to 37-38 % improvement in the flux performance of both UF stages, as well as higher enzyme recovery in UF stage 1. The introduction of diafiltration mode in UF stage 2 managed to sustain high flux values while yielding 4.4-fold enzyme purity (higher than a 2.5-fold purity achieved in our previous work); however, high diluent consumption was needed. The outcomes of this study showed that the flux performance and bromelain separation can be enhanced by reducing the viscosity with the employment of enzymatic pretreatment and diafiltration operation. Thus, both techniques can be potentially applied in a large-scale membrane-based process for bromelain production.

Published
2018
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48. Combination of Synergic Enzymes and Ultrasounds as an Effective Pretreatment Process to Break Microalgal Cell Wall and Enhance Algal Oil Extraction

Author

Cristina Blanco-Llamero, Paz García-García, and Francisco Javier Señoráns

Subjects
microalgae, enzymatic pretreatment, Viscozyme®, Alcalase®, Celluclast®, Nannochloropsis gaditana, Chemical technology, TP1-1185
Abstract

Microalgal biomass is a sustainable source of bioactive lipids with omega-3 fatty acids. The efficient extraction of neutral and polar lipids from microalgae requires alternative extraction methods, frequently combined with biomass pretreatment. In this work, a combined ultrasound and enzymatic process using commercial enzymes Viscozyme, Celluclast, and Alcalase was optimized as a pretreatment method for Nannochloropsis gaditana, where the Folch method was used for lipid extraction. Significant differences were observed among the used enzymatic pretreatments, combined with ultrasound bath or probe-type sonication. To further optimize this method, ranges of temperatures (35, 45, and 55 °C) and pH (4, 5, and 8) were tested, and enzymes were combined at the best conditions. Subsequently, simultaneous use of three hydrolytic enzymes rendered oil yields of nearly 29%, showing a synergic effect. To compare enzymatic pretreatments, neutral and polar lipids distribution of Nannochloropsis was determined by HPLC–ELSD. The highest polar lipids content was achieved employing ultrasound-assisted enzymatic pretreatment (55 °C and 6 h), whereas the highest glycolipid (44.54%) and PE (2.91%) contents were achieved using Viscozyme versus other enzymes. The method was applied to other microalgae showing the potential of the optimized process as a practical alternative to produce valuable lipids for nutraceutical applications.

Published
2021
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50. High-level extracellular production of an alkaline pectate lyase in E. coli BL21 (DE3) and its application in bioscouring of cotton fabric.

Author

Zhen, Jie, Tan, Ming, Fu, Xiaoping, Shu, Wenju, Zhao, Xingya, Yang, Shibin, Xu, Jianyong, Ma, Yanhe, Zheng, Hongchen, and Song, Hui

Subjects
*COTTON textiles, *TEXTILE technology, *GREEN technology, *COTTON growing, *GLYCINE, *FERMENTATION, *COTTONSEED, *ANIMAL feeding
Abstract

A high heterologous expression of an alkaline pectate lyase (APL) pelNK93I in E. coli was obtained through optimizing the lactose feeding and fed-batch fermentation. The highest soluble APL activity produced by E. coli BL21 (pET22b-pelNK93I) was 10,181 U/mL which is the highest level so far. On this basis, to improve the extracellular yield of APL, optimized glycine feeding was used to achieve elevated extracellular production of pelNK93I. The highest extracellular APL activity produced by E. coli BL21 (pET22b-pelNK93I) was 6357 U/mL which was also relatively higher than that in previous reports. The final productivity of APL was 282.8 U/mL/h in the fermentation of E. coli BL21 (pET22b-pelNK93I) in a 10 L fermenter. Thus the current study has provided a cost-effective method for the over-expression and preparation of alkaline pectate lyase pelNK93I for its industrial applications. Moreover, pelNK93I (4 U/mL) used for bioscouring increased cottonseed husk removal and radial capillary effect of cotton fabric by 37.63% and 47.06%, respectively, making it a promising enzyme in green textile technology. [ABSTRACT FROM AUTHOR]

Published
2020
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