Improvement of paper wastes conversion to bioethanol using novel cellulose degrading fungal isolate
Fuel • 2020
معلومات البحث
المؤلفون
Osama M. Darwesha,⁎, Salma H. El-Maraghyb, Hany M. Abdel-Rahmanb, Rashed A. Zaghlo
الكلمات المفتاحية
Keywords:
Cellulases enzymes
Aspergillus niger MK543209
SmF
Bioethanol
Paper wastes
المجلة العلمية
Fuel
الناشر
journal homepage: www.elsevier.com/locate/fuel
المجلد
262
العدد
1
الصفحات
1-8
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
The current study was designed to isolate and identify superior cellulose-degrading fungi from Egyptian soils
reached with cellulosic compounds, then production of bioethanol from paper wastes using this isolate. Among 9
fungal isolates, one isolate was selected as the highest cellulases producer. This isolate was identified by morphological
and genetic characteristics as Aspergillus niger MK543209. Basal mineral salt medium amended with
1% rice straw was the best medium for cellulose-degrading enzymes production under submerged fermentation
(SmF). Additionally, bagasse at 30% and urea at 2% were the best carbon and nitrogen sources, respectively. In
respect to the environmental conditions, the optimum temperature, pH and incubation period were 45 °C, 5.5
and 4 days, respectively. The optimized conditions were applied to produce reducing sugars from paper wastes,
followed by production of bioethanol as a renewable energy. A 0.9 g/l/h of ethanol were produced as the best
value. This study may be considered the initial point for production of renewable energy and protection of
environment from wastes.
reached with cellulosic compounds, then production of bioethanol from paper wastes using this isolate. Among 9
fungal isolates, one isolate was selected as the highest cellulases producer. This isolate was identified by morphological
and genetic characteristics as Aspergillus niger MK543209. Basal mineral salt medium amended with
1% rice straw was the best medium for cellulose-degrading enzymes production under submerged fermentation
(SmF). Additionally, bagasse at 30% and urea at 2% were the best carbon and nitrogen sources, respectively. In
respect to the environmental conditions, the optimum temperature, pH and incubation period were 45 °C, 5.5
and 4 days, respectively. The optimized conditions were applied to produce reducing sugars from paper wastes,
followed by production of bioethanol as a renewable energy. A 0.9 g/l/h of ethanol were produced as the best
value. This study may be considered the initial point for production of renewable energy and protection of
environment from wastes.
أعضاء هيئة التدريس - جامعة بنها