R
Reinaldo Giudici
Researcher at University of São Paulo
Publications - 152
Citations - 2569
Reinaldo Giudici is an academic researcher from University of São Paulo. The author has contributed to research in topics: Emulsion polymerization & Catalysis. The author has an hindex of 25, co-authored 140 publications receiving 2170 citations. Previous affiliations of Reinaldo Giudici include Universidade Federal de Santa Catarina.
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Neural network based approach for optimization of industrial chemical processes
TL;DR: This approach was applied in some industrial chemical process: the process of nylon-6,6 polymerization in a twin-screw extruder reactor and an acetic anhydride plant.
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Polymerization Kinetics of Pre-heated Composite
TL;DR: The influence of pre-polymerization temperature and exposure duration on polymerization kinetics of a commercial dental photo-activated composite at the top and at 2-mm depth is described.
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The BioSCWG Project: Understanding the Trade-Offs in the Process and Thermal Design of Hydrogen and Synthetic Natural Gas Production
Mohamed Magdeldin,Thomas Kohl,Cataldo De Blasio,Mika Järvinen,Song Won Park,Reinaldo Giudici +5 more
TL;DR: In this article, a comparative process synthesis, modelling and thermal assessment was conducted for the production of Bio-synthetic natural gas (SNG) and hydrogen from supercritical water refining of a lipid extracted algae feedstock integrated with onsite heat and power generation.
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Techniques for reducing residual monomer content in polymers: A review
TL;DR: There are several techniques for reducing residual monomer content and the industrial importance that has been given to the presence of residual monomers in polymeric products is reflected in the number of patents involving residual-monomer reduction techniques as discussed by the authors.
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Deactivation of steam reforming catalysts by sintering: experiments and simulation
TL;DR: In this paper, the sintering of coprecipitated Ni/Al2O3 catalysts was studied in a microreactor at 500 and 800°C under steam reforming reaction, and changes in microstructure (crystalline phases, average metal crystallite sizes and size distributions) were investigated by temperature programmed reduction, X-ray diffraction (XRD) and transmission electron microscopy (TEM).