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W4382932011 startingPage "45" @default.
W4382932011 abstract "Oil palm mesocarp fiber is a promising lignocellulosic biomass as a raw material for valorizing biomass into more valuable products such as second-generation biofuels, biocomposites, or bioenergy. However, the lignin composition present in lignocellulosic biomass provides resistance to the valorization process and protects the cellulose composition, thereby limiting the conversion of cellulose into more valuable products. The hybrid ozonation-ultrasonic method as a lignin-degrading method is starting to be considered an effective method. Additionally, a Box-Behnken Design (BBD) was employed to investigate each independent variable's effect on pretreatment process conditions using the response surface methodology (RSM), namely reaction time (30-90) min, reaction temperature (20 -40) oC and ozone flow rate (1-3) L/min to the response of the percentage of lignin degradation (%). The optimum condition of the pretreatment process is determined using the desirability function graph. The results showed that reaction time, reaction temperature, and ozone flow rate had a significant effect on lignin degradation (p <0.05). The optimum conditions obtained the highest percentage of lignin degradation, namely 92.08% at a reaction temperature of 30 oC with an ozone flow rate of 2 L/min for 60 minutes reaction time. The decrease in lignin absorption peaks at 1638 cm-1 and 1427 cm-1 was supported by the results of the analysis of increased crystallinity in the sample after the pretreatment of lignin degradation to 80.20% and was validated by changes in the morphology of the mesocarp fiber after the pretreatment process indicating that the lignin compound had been successfully degraded from cellulose products of mesocarp fibers. ABSTRAK: Sabut gentian kelapa sawit berpotensi sebagai bahan mentah biojisim lignoselulosa bagi menambah nilai produk biojisim seperti bahan bio api generasi kedua, biokomposit atau biotenaga. Walau bagaimanapun, komposisi lignin yang wujud dalam biojisim lignoselulosa menentang proses tambah nilai dan melindungi komposisi selulosa, dengan itu mengehadkan penukaran selulosa kepada produk yang lebih berharga. Kaedah hibrid ozonasi-ultrasonik sebagai kaedah merendahkan lignin, mula mendapat perhatian sebagai kaedah berkesan. Selain itu, Reka Bentuk Kotak-Behnken (BBD) telah digunakan bagi menyiasat setiap kesan pembolehubah bebas pada keadaan proses prarawatan menggunakan kaedah permukaan tindak balas (RSM), iaitu masa tindak balas (30-90) min, suhu tindak balas (20 -40) oC dan kadar aliran ozon (1-3) L/min terhadap tindak balas pada peratusan degradasi lignin (%). Keadaan optimum bagi proses prarawatan ditentukan menggunakan graf fungsi keboleh inginan. Dapatan kajian menunjukkan bahawa masa tindak balas, suhu tindak balas, dan kadar aliran ozon mempunyai kesan yang signifikan terhadap degradasi lignin (p<0.05). Keadaan optimum peratusan degradasi lignin tertinggi adalah pada 92.08% pada suhu tindak balas 30 oC dengan kadar aliran ozon 2 L/min selama 60 minit masa tindak balas. Penurunan puncak penyerapan lignin pada 1638 cm-1 dan 1427 cm-1 disokong oleh keputusan analisis peningkatan kehabluran sampel selepas prarawatan degradasi lignin sebanyak 80.20% dan telah disahkan oleh perubahan morfologi sabut gentian selepas proses prarawatan menunjukkan bahawa sebatian lignin telah berjaya didegradasi daripada produk selulosa sabut gentian." @default.
W4382932011 created "2023-07-04" @default.
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W4382932011 date "2023-07-04" @default.
W4382932011 modified "2023-09-27" @default.
W4382932011 title "PARAMETRIC OPTIMIZATION OF OIL PALM MESOCARP FIBER VALORIZATION WITH HYBRID OZONATION-ULTRASONIC PRETREATMENT METHOD" @default.
W4382932011 cites W1674895773 @default.
W4382932011 cites W1972923998 @default.
W4382932011 cites W1986205252 @default.
W4382932011 cites W1994451264 @default.
W4382932011 cites W2024424768 @default.
W4382932011 cites W2036315507 @default.
W4382932011 cites W2040670615 @default.
W4382932011 cites W2041123801 @default.
W4382932011 cites W2088363324 @default.
W4382932011 cites W2096991082 @default.
W4382932011 cites W2098604814 @default.
W4382932011 cites W2276608231 @default.
W4382932011 cites W249942181 @default.
W4382932011 cites W2502798944 @default.
W4382932011 cites W2507769674 @default.
W4382932011 cites W2510555322 @default.
W4382932011 cites W2558567170 @default.
W4382932011 cites W2564164187 @default.
W4382932011 cites W2570738762 @default.
W4382932011 cites W2621116223 @default.
W4382932011 cites W2625887753 @default.
W4382932011 cites W2738953708 @default.
W4382932011 cites W2744993213 @default.
W4382932011 cites W2772475783 @default.
W4382932011 cites W2785378876 @default.
W4382932011 cites W2792908041 @default.
W4382932011 cites W2793685188 @default.
W4382932011 cites W2796217701 @default.
W4382932011 cites W2797451628 @default.
W4382932011 cites W2800265128 @default.
W4382932011 cites W2808407290 @default.
W4382932011 cites W2808480147 @default.
W4382932011 cites W2808726460 @default.
W4382932011 cites W2906617440 @default.
W4382932011 cites W2982691216 @default.
W4382932011 cites W2990572574 @default.
W4382932011 cites W3040874939 @default.
W4382932011 cites W3043130254 @default.
W4382932011 cites W3089024314 @default.
W4382932011 cites W3103337015 @default.
W4382932011 cites W3135208778 @default.
W4382932011 cites W3136272128 @default.
W4382932011 cites W3139280139 @default.
W4382932011 cites W3185791626 @default.
W4382932011 cites W3204466797 @default.
W4382932011 cites W4200162879 @default.
W4382932011 cites W4200239603 @default.
W4382932011 cites W4200485434 @default.
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W4382932011 cites W4288060925 @default.
W4382932011 cites W4288740282 @default.
W4382932011 cites W4291595239 @default.
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W4382932011 doi "https://doi.org/10.31436/iiumej.v24i2.2717" @default.
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