(Lecturer) Biochemical Engineer at University of Baghdad, Al-Khwarizmi College of Engineering
-
B.Sc. degree with grade (Good) in Biochemical engineering/ University of Baghdad (2006)
-
M.Sc. degree with grade (Good) in Biochemical engineering/ University of Baghdad (2018)
مقرر الدراسات الاولية (2019-مستمر)
Iraqi engineers union (2006)
Microbial Fuel Cell; Wastewater Treatment; Biodegradation Chemical Oxygen Demand; Wastewater Treatment; Electrocoagulation Process
Biochemical Engineering
Bioprocess Engineering and Fermentation Technology
Physical chemistry Lab., Visual Basic,
Biology Lab., Principle of Biochemical Engineering
Biochemistry & Biochemistry Lab., Enzymology, CAD Using Aspen Hysys & Superpro, Biochemical Eng. Industries Lab.,
Biobutanol Production from Different Bio waste Materials (2020)
Bio production of Xylitol (2021)
Design a prototype electrocoagulation system for treatment vegetable oil refinery wastewater (2022)
Plant Design of Streptomycin Production (2023)
Design an Electrofenton system for treatment vegetable oil refinery wastewater (2024)
Sustainable production of Glucose from Waste paper Using Enzymatic Hydrolysis (2025)
(12)
(13)
Bioethanol produced from lignocellulose feedstock is a renewable substitute to declining fossil fuels. Pretreatment using ultrasound assisted alkaline was investigated to enhance the enzyme digestibility of waste paper. The pretreatment was conducted over a wide range of conditions including waste paper concentrations of 1-5%, reaction time of 10-30 min and temperatures of 30-70°C. The optimum conditions were 4 % substrate loading with 25 min treatment time at 60°C where maximum reducing sugar obtained was 1.89 g/L. Hydrolysis process was conducted with a crude cellulolytic enzymes produced by Cellulomonas uda (PTCC 1259).The maximum amount of sugar released and hydrolysis efficiency were 20.92 g/L and 78.4 %, respectively. Sugars
... Show More
(1)
(18)
(15)