May Ali Alsaffar
Assistant Professor
Title
- Assist Professor
Education
- Putra University Malaysia /PhD. Of Chemical Engineering on 15/12/2017
- Technological University/ Master of Chemical Engineering on 9/7/2017
- Technological University/ Bachelor of Chemical Engineering on 27/6/1995
Research Interests
- Reactor Engineering
- Nanotechnology
- Polymers
- Chemical Sensors
- Environmental Pollution and How to Treat It
Teaching
Unit operation /fourth class.
- An overview of integration opportunities for sustainable bioethanol production from first-and second-generation sugar-based feedstocks
- Artificial intelligence modelling approach for the prediction of CO-rich hydrogen production rate from methane dry reforming
- Scavenging carbon deposition on alumina supported cobalt catalyst during renewable hydrogen-rich syngas production by methane dry reforming using artificial intelligence modeling technique
- Backpropagation neural networks modelling of photocatalytic degradation of organic pollutants using TiO2-based photocatalysts.
- Recent advances in renewable hydrogen derived glycerol: Overview of prospects and challenges production by thermo-catalytic conversion of biomass-
- STUDY ON THE EFFECT OF ADDING COUPLING AGENT (TITANIUM DIOXIDE) ON THE RHEOLOGICAL, THERMAL AND ELECTRICAL PROPERTIES OF COMPOSITE MATERIAL (PE-WOOD)
- Facile Synthesis and Characterization of Multi-Layer Graphene Growth On Co-Ni oxide/Al2O3 substrate Using Chemical Vapour Deposition
- Simple synthesis of large-area multilayer graphene films on dielectric substrate via chemical vapor deposition route (Synthesis of MLG films on dielectric substrates via CVD route)
- The Growth Kinetics of Multilayer Graphene Grown on Al2O3 Substrate by Chemical Vapour Deposition
- Modeling the Effect of Process Parameters on the Photocatalytic Degradation of Organic Pollutants Using Artificial Neural Networks
- Modeling the photocatalytic degradation of 1, 2-Dihydroxybenzene using Multilayer Perceptron Neural Networks
- Response Surface Optimization of Multilayer Graphene Growth on Alumina-Supported Bimetallic Cobalt–Nickel Substrate The prospect and challenges of renewable hydrogen production in Iraq
- Predictive Modeling of Multilayer Graphene Growth by Chemical Vapour Deposition on Co-Ni/Al2O3 Substrate using Artificial Neural Network
- Ammonia Sensing Using Multilayer Graphene Grown on Co-Ni/Al2O3 Substrate
- Effects of Wood Filler Contents and Particle Sizes on the Mechanical and Thermal Properties of Polypropylene
- Enhancement of Carbon Dioxide Absorption in Caustic Soda by Organic Solutes Addition
- Obtaining a certificate of honor from the President of the University in quality and performance evaluation.
- Obtaining the shield of excellence and creativity in the field of quality from the President of the University.
- Obtaining the shield of excellence and creativity for participating as a session chair in the Nanotechnology Conference